author | mikaruus <mika.a.ruuskanen@nokia.com> |
Wed, 17 Feb 2010 13:58:55 +0200 | |
changeset 7 | fa67e03b87df |
parent 5 | 8ccc39f9d787 |
child 9 | 8486d82aef45 |
permissions | -rw-r--r-- |
0 | 1 |
/* |
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* Copyright (c) 2007-2009 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 the License "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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* |
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*/ |
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// INCLUDE FILES |
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#include "ber_tlv.h" // ber-tlv classes |
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#include "satutil.h" // sat utility class |
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#include "tsylogger.h" // for logging |
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#include <tisi.h> // isi message |
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#include <uiccisi.h> // UICC server |
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5
8ccc39f9d787
New release based on our 2010wk02 release
mikaruus <mika.a.ruuskanen@nokia.com>
parents:
0
diff
changeset
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#include "OstTraceDefinitions.h" |
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#ifdef OST_TRACE_COMPILER_IN_USE |
5
8ccc39f9d787
New release based on our 2010wk02 release
mikaruus <mika.a.ruuskanen@nokia.com>
parents:
0
diff
changeset
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#include "ber_tlvTraces.h" |
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#endif |
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// ============================ MEMBER FUNCTIONS =============================== |
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// ----------------------------------------------------------------------------- |
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// TTlvBase::Begin |
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// Start ber-tlv construction |
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// ----------------------------------------------------------------------------- |
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// |
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void TTlvBase::Begin |
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( |
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TUint8 aTag //tag |
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) |
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{ |
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OstTrace0( TRACE_DETAILED, TTLVBASE_BEGIN, "TTlvBase::Begin" ); |
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TFLOGSTRING("TSY: TTlvBase::Begin"); |
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iData.Zero(); |
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iData.Append( aTag ); |
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iData.Append( 0 ); |
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} |
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// ----------------------------------------------------------------------------- |
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// TTlvBase::AddTag |
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// Start new simple tlv |
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// ----------------------------------------------------------------------------- |
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// |
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void TTlvBase::AddTag |
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( |
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TUint8 aTag //tag |
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) |
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{ |
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OstTrace0( TRACE_DETAILED, TTLVBASE_ADDTAG, "TTlvBase::AddTag" ); |
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TFLOGSTRING("TSY: TTlvBase::AddTag"); |
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iData.Append( aTag ); // tag |
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iData.Append( 0 ); // length |
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iLenIndex = iData.Length() - 1; // index to tag length |
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} |
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// ----------------------------------------------------------------------------- |
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// TTlvBase::AddByte |
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// Add byte data to simple tlv |
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// ----------------------------------------------------------------------------- |
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// |
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void TTlvBase::AddByte |
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( |
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TUint8 aValue |
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) |
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{ |
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OstTrace0( TRACE_DETAILED, TTLVBASE_ADDBYTE, "TTlvBase::AddByte" ); |
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TFLOGSTRING("TSY: TTlvBase::AddByte"); |
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iData.Append( aValue ); |
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iData[iLenIndex]++; |
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} |
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// ----------------------------------------------------------------------------- |
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// TTlvBase::End |
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// Add desctiptor data to simple tlv |
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// ----------------------------------------------------------------------------- |
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// |
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void TTlvBase::AddData |
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( |
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const TDesC8& aValue |
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) |
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{ |
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OstTrace0( TRACE_DETAILED, TTLVBASE_ADDDATA, "TTlvBase::AddData" ); |
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TFLOGSTRING("TSY: TTlvBase::AddData"); |
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iData.Append( aValue ); |
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iData[iLenIndex] = TUint8(iData[iLenIndex] + aValue.Length()); |
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} |
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// ----------------------------------------------------------------------------- |
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// TTlvBase::End |
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// End ber-tlv construction. Adds extra length byte to all simple |
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// TLVs that are longer than KMaxOneByteLength (0x7f) and |
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// returns descriptor to the new valid ber-tlv. |
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// ----------------------------------------------------------------------------- |
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// |
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const TDesC8& TTlvBase::End() |
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{ |
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OstTrace0( TRACE_DETAILED, TTLVBASE_END, "TTlvBase::End" ); |
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TFLOGSTRING("TSY: TTlvBase::End"); |
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_LIT8( KLenTag, "\x81" ); |
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TInt i( 3 ); // index to tag length |
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// scan through all lenghts and insert 'length tag' |
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while ( i < iData.Length() ) |
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{ |
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if ( KMaxOneByteLength < iData[i] ) |
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{ |
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iData.Insert( i, KLenTag ); |
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i++; |
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} |
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i += iData[i] + 2; // jump to next tag length |
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} |
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// calculate total ber-tlv length |
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iData[1] = TUint8( iData.Length() - 2 ); |
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// insert 'length tag' |
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if ( KMaxOneByteLength < iData[1] ) |
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{ |
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iData.Insert( 1, KLenTag ); |
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} |
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// done, return ber-tlv |
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return iData; |
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} |
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// ----------------------------------------------------------------------------- |
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// TTlvBase::GetDataWithoutTopLevelTag |
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// End TLV construction. Adds extra length byte to all simpleV. |
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// TLVs that are longer than KMaxOneByteLength (0x7f) and |
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// returns descriptor to the valid tlvs. To be used without |
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// Begin(), nor End() in situations where TLV simple tags are |
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// used without top level tag. |
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// ----------------------------------------------------------------------------- |
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// |
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const TDesC8& TTlvBase::GetDataWithoutTopLevelTag() |
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{ |
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OstTrace0( TRACE_DETAILED, TTLVBASE_GETDATAWITHOUTTOPLEVELTAG, "TTlvBase::GetDataWithoutTopLevelTag" ); |
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TFLOGSTRING("TSY: TTlvBase::GetDataWithoutTopLevelTag"); |
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_LIT8( KLenTag, "\x81" ); |
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TInt i( 1 ); // index to tag length |
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// scan through all lenghts and insert 'length tag' |
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while ( i < iData.Length() ) |
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{ |
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if ( KMaxOneByteLength < iData[i] ) |
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{ |
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iData.Insert( i, KLenTag ); |
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i++; |
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} |
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i += iData[i] + 2; // jump to next tag length |
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} |
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// done, return ber-tlv |
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return iData; |
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} |
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// ----------------------------------------------------------------------------- |
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// CBerTlv::CBerTlv |
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// C++ default constructor can NOT contain any code, that |
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// might leave. |
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// ----------------------------------------------------------------------------- |
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// |
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CBerTlv::CBerTlv() |
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{ |
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OstTrace0( TRACE_DETAILED, CBERTLV_CBERTLV, "CBerTlv::CBerTlv" ); |
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TFLOGSTRING("TSY: CBerTlv::CBerTlv"); |
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//none |
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} |
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// ----------------------------------------------------------------------------- |
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// CBerTlv::TlvByTagValue |
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// Find TLV by tag value. aTlv is set to point to found TLV. |
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// If there are more than one TLV with the same tag then |
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// itemNbr can be used to select which one is returned. |
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// If no tags are found return KErrNotFound else KErrNone. |
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// ----------------------------------------------------------------------------- |
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// |
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TInt CBerTlv::TlvByTagValue |
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( |
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CTlv* aTlv, //TLV |
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TUint8 aTlvTagValue, //TLV identifier |
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TInt aItemNbr //item number |
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) |
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{ |
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OstTrace0( TRACE_DETAILED, CBERTLV_TLVBYTAGVALUE, "CBerTlv::TlvByTagValue" ); |
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TFLOGSTRING("TSY: CBerTlv::TlvByTagValue"); |
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TInt currentTlv( 0 ); |
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TInt tlvLength( 0 ); |
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TInt index( 0 ); |
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//tlv start index |
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TInt ind( KCommonTlvHeaderLength ); |
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TUint8 berTlvLength( 0 ); |
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if ( KTwoByteLengthCoding == iData[KTlvLengthStartPosition] ) |
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{ |
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berTlvLength = iData[KTlvLengthStartPosition + 1]; |
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ind = ind + 1; |
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} |
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else |
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{ |
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berTlvLength = iData[KTlvLengthStartPosition]; |
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} |
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for ( TInt i = 0; i < berTlvLength; i += tlvLength ) |
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{ |
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//first determine if the length of the TLV is coded with 1 or 2 bytes. |
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if ( KTwoByteLengthCoding == iData[ind + 1] ) |
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{ |
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//length is coded with 2 bytes -> 1 extra byte required to be |
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//added to total length. Also TLV header bytes (2) must be added |
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//to total length |
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tlvLength = iData[ind + 2] + KTlvHeaderLength + 1; |
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} |
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else |
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{ |
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//TLV header bytes (2) must be added to total length |
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tlvLength = iData[ind + 1] + KTlvHeaderLength; |
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} |
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currentTlv = iData[ind]&KTagValueMask; |
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//check if TLV in current index is the one that we are searching for |
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if ( aTlvTagValue == currentTlv ) |
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{ |
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if( index == aItemNbr ) |
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{ |
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// check that len of tlv object to be search doesn't |
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// go outside BER-TLV object |
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if ( ( ind + tlvLength ) <= GetSize() ) |
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{ |
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// len of tlv object to be search is inside |
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// len of BER-TLV object |
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TPtrC8 data( iData.Mid( ind , tlvLength ) ); |
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aTlv->SetData( data ); |
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return KErrNone; |
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} |
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else |
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{ |
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// len of tlv object to be search goes |
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// over len of BER-TLV object, let's return |
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// error value. |
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return KErrNotFound; |
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} |
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} |
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else |
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{ |
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index++; |
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} |
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} |
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ind += tlvLength; |
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} |
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return KErrNotFound; |
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} |
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// ----------------------------------------------------------------------------- |
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// CBerTlv::TlvByTagValueMulti |
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// Find several TLVs by tag value. It is assumed that TLVs are |
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// sequential. aTlv is set to point to TLV sequence. |
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// If no tags are found return KErrNotFound else KErrNone. |
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// ----------------------------------------------------------------------------- |
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// |
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TInt CBerTlv::TlvByTagValueMulti |
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( |
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CTlv* aTlv, //TLV to fill |
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TUint8 aTlvTagValue // tag of tlv to find |
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) |
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{ |
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OstTrace0( TRACE_DETAILED, CBERTLV_TLVBYTAGVALUEMULTI, "CBerTlv::TlvByTagValueMulti" ); |
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TFLOGSTRING("TSY: CBerTlv::TlvByTagValueMulti"); |
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TInt currentTlv( 0 ); |
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TInt16 tlvLength( 0 ); |
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TInt indMulti( 0 ); |
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TInt16 multiLength( 0 ); |
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//tlv start index |
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TInt ind( KCommonTlvHeaderLength ); |
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TUint8 berTlvLength; |
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//first determine if the length of the BerTLV is coded with 1 or 2 bytes. |
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if ( KTwoByteLengthCoding == iData[KTlvLengthStartPosition] ) |
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{ |
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berTlvLength = iData[KTlvLengthStartPosition + 1]; |
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ind = ind + 1; |
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} |
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else |
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{ |
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berTlvLength = iData[KTlvLengthStartPosition]; |
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} |
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310 |
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for ( TInt i = 0; i < berTlvLength; i+= tlvLength) |
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{ |
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//first determine if the length of the TLV is coded with 1 or 2 bytes. |
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if ( KTwoByteLengthCoding == iData[ind + 1] ) |
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{ |
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//length is coded with 2 bytes -> real length is in second byte. |
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// first byte is 81 and it is tag for 2 byte length coding. |
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tlvLength = (TInt16) ( iData[ind + 0x02] + KTlvHeaderLength + 1 ); |
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} |
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else |
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{ |
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//TLV header bytes (2) must be added to total length |
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tlvLength = (TInt16) ( iData[ind + 1] + KTlvHeaderLength ); |
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} |
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currentTlv = iData[ind]&KTagValueMask; |
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//check if TLV in current index is the one that we are searching for |
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if ( ( aTlvTagValue == currentTlv ) && ( multiLength == 0x00 ) ) |
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{ |
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// save fist tag position |
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indMulti = ind; |
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multiLength = tlvLength; |
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} |
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// add length |
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if ( ( aTlvTagValue == currentTlv ) && ( indMulti != ind ) ) |
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{ |
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multiLength = (TInt16) ( multiLength + tlvLength ); |
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} |
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341 |
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// if last tag, return |
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if ( (i + tlvLength) >= berTlvLength ) |
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{ |
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TPtrC8 data = ( iData.Mid( indMulti , multiLength ) ); |
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aTlv->SetData( data ); |
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return KErrNone; |
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} |
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ind += tlvLength; |
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} |
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352 |
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return KErrNotFound; |
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} |
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356 |
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// ----------------------------------------------------------------------------- |
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// CTlv::CTlv |
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// C++ default constructor can NOT contain any code, that |
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// might leave. |
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362 |
// ----------------------------------------------------------------------------- |
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363 |
// |
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CTlv::CTlv() |
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{ |
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OstTrace0( TRACE_DETAILED, CTLV_CTLV, "CTlv::CTlv" ); |
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TFLOGSTRING("TSY: CTlv::CTlv"); |
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//none |
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} |
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370 |
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// ----------------------------------------------------------------------------- |
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// CTlv::GetShortInfo |
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// Returns the short info (one byte). |
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// Returned data depends on data type. |
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// ----------------------------------------------------------------------------- |
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// |
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377 |
TUint8 CTlv::GetShortInfo |
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378 |
( |
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379 |
TTlvSpesificDataType aType //Info spesific data type |
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) |
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381 |
{ |
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382 |
OstTrace0( TRACE_DETAILED, CTLV_GETSHORTINFO, "CTlv::GetShortInfo" ); |
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383 |
TFLOGSTRING("TSY: CTlv::GetShortInfo"); |
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384 |
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385 |
//information is generally at index 2. NOTE! This method should be optimised |
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386 |
//after the code maturity is high enough. |
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387 |
TInt ind ( KTlvDataAreaStartPosition ); |
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388 |
TUint8 offset( 0 ); |
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389 |
||
390 |
//first determine if the length of the TLV is coded with 1 or 2 bytes to |
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391 |
//determine the offset |
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392 |
if ( KTwoByteLengthCoding == iData[KTlvLengthStartPosition] ) |
|
393 |
{ |
|
394 |
offset = 1; |
|
395 |
} |
|
396 |
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397 |
//Start getting the contents of TLV data |
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398 |
if ( ETLV_TonAndNpi == aType ) |
|
399 |
{ |
|
400 |
//TON/NPI is coded as for EFADN. |
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401 |
ind = KTlvDataAreaStartPosition + offset; |
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402 |
} |
|
403 |
else if ( ETLV_CommandNumber == aType ) |
|
404 |
{ |
|
405 |
//Command number |
|
406 |
// |
|
407 |
//For contents and coding, see subclause 6.5.1. |
|
408 |
ind = KTlvDataAreaStartPosition + offset; |
|
409 |
} |
|
410 |
else if ( ETLV_TypeOfCommand == aType ) |
|
411 |
{ |
|
412 |
//Type of command: |
|
413 |
// |
|
414 |
//Contents: |
|
415 |
// The Type of Command specifies the required interpretation of the |
|
416 |
// data objects which follow, and the required ME procedure. |
|
417 |
// |
|
418 |
//Coding: |
|
419 |
// See section 13.4 |
|
420 |
// The ME shall respond to reserved values (i.e. values not listed) |
|
421 |
// with the result "Command type not understood". |
|
422 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
423 |
} |
|
424 |
else if ( ETLV_CommandQualifier == aType ) |
|
425 |
{ |
|
426 |
//Command Qualifier: |
|
427 |
// |
|
428 |
//Contents: |
|
429 |
// Qualifiers specific to the command. See 3GPP TS 11.14 V8.8.0, |
|
430 |
// chapter 12.6 Command details for more details. |
|
431 |
ind = KTlvDataAreaStartPosition + offset + 2; |
|
432 |
} |
|
433 |
else if ( ETLV_SourceDeviceIdentity == aType ) |
|
434 |
{ |
|
435 |
//Source device identity |
|
436 |
// |
|
437 |
//Contents: |
|
438 |
// the source device for information held in the data objects which |
|
439 |
// follow. |
|
440 |
// |
|
441 |
//Coding: |
|
442 |
// both Source and Destination device identities are coded as follows: |
|
443 |
// '01' = Keypad |
|
444 |
// '02' = Display |
|
445 |
// '03' = Earpiece |
|
446 |
// '10' to '17' = Additional Card Reader x (0 to 7). Value assigned |
|
447 |
// by ME. |
|
448 |
// '21' to '27' = Channel x (1 to 7). Value assigned by ME (if class |
|
449 |
// "e" is supported). |
|
450 |
// '81' = SIM |
|
451 |
// '82' = ME |
|
452 |
// '83' = Network |
|
453 |
// All other values are reserved. |
|
454 |
ind = KTlvDataAreaStartPosition; |
|
455 |
} |
|
456 |
else if ( ETLV_DestinationDeviceIdentity == aType ) |
|
457 |
{ |
|
458 |
//Destination device identity |
|
459 |
// |
|
460 |
//Contents: |
|
461 |
// the destination device for information held in the data objects |
|
462 |
// which follow. |
|
463 |
// |
|
464 |
// NOTE: Only some combinations of Type of Command, Data Download type |
|
465 |
// and Device identities are allowed defined in clause 14. |
|
466 |
// |
|
467 |
//Coding: |
|
468 |
// both Source and Destination device identities are coded as follows: |
|
469 |
// '01' = Keypad |
|
470 |
// '02' = Display |
|
471 |
// '03' = Earpiece |
|
472 |
// '10' to '17' = Additional Card Reader x (0 to 7). Value assigned |
|
473 |
// by ME. |
|
474 |
// '21' to '27' = Channel x (1 to 7). Value assigned by ME (if class |
|
475 |
// "e" is supported). |
|
476 |
// '81' = SIM |
|
477 |
// '82' = ME |
|
478 |
// '83' = Network |
|
479 |
// All other values are reserved. |
|
480 |
ind = KTlvDataAreaStartPosition + 1; |
|
481 |
} |
|
482 |
else if ( ETLV_TimeUnit == aType ) |
|
483 |
{ |
|
484 |
//Time unit |
|
485 |
// |
|
486 |
//Contents: |
|
487 |
// time unit used; minutes, seconds or tenths of seconds. |
|
488 |
// |
|
489 |
//Coding: |
|
490 |
// '00' Minutes |
|
491 |
// '01' Seconds |
|
492 |
// '02' Tenths of seconds |
|
493 |
// All other values are reserved. |
|
494 |
ind = KTlvDataAreaStartPosition; |
|
495 |
} |
|
496 |
else if ( ETLV_TimeInteval == aType ) |
|
497 |
{ |
|
498 |
//Time interval |
|
499 |
// |
|
500 |
//Contents: |
|
501 |
// the length of time required, expressed in units. |
|
502 |
// |
|
503 |
//Coding: |
|
504 |
// The time interval is coded in integer multiples of the time unit |
|
505 |
// used. The range is from 1 unit to 255 units. The encoding is: |
|
506 |
// '00': reserved |
|
507 |
// '01': 1 unit |
|
508 |
// '02': 2 units |
|
509 |
// : : : |
|
510 |
// 'FF': 255 units |
|
511 |
ind = KTlvDataAreaStartPosition + 1; |
|
512 |
} |
|
513 |
else if ( ETLV_IdentifierOfItem == aType ) |
|
514 |
{ |
|
515 |
//The identifier is a single byte between '01' and 'FF'. Each item |
|
516 |
//shall have a unique identifier within an Item list. |
|
517 |
ind = KTlvDataAreaStartPosition + offset; |
|
518 |
} |
|
519 |
else if ( ETLV_IdentifierOfItemChosen == aType ) |
|
520 |
{ |
|
521 |
//The identifier is a single byte between '01' and 'FF', exactly the |
|
522 |
//same as for the Item data object. A null item identifier is |
|
523 |
//coded '00'. |
|
524 |
ind = KTlvDataAreaStartPosition; |
|
525 |
} |
|
526 |
else if ( ETLV_MinimumLengthOfResponse == aType ) |
|
527 |
{ |
|
528 |
//The range of length is between '00' and 'FF'. A minimum length coding |
|
529 |
//of '00' indicates that there is no minimum length requirement; a |
|
530 |
//maximum length coding of 'FF' indicates that there is no maximum |
|
531 |
//length requirement. If a fixed length is required the minimum and |
|
532 |
//maximum values are identical. |
|
533 |
ind = KTlvDataAreaStartPosition; |
|
534 |
} |
|
535 |
else if ( ETLV_MaximumLengthOfResponse == aType ) |
|
536 |
{ |
|
537 |
//The range of length is between '00' and 'FF'. A minimum length coding |
|
538 |
//of '00' indicates that there is no minimum length requirement; a |
|
539 |
//maximum length coding of 'FF' indicates that there is no maximum |
|
540 |
//length requirement. If a fixed length is required the minimum and |
|
541 |
//maximum values are identical. |
|
542 |
ind = KTlvDataAreaStartPosition + 1; |
|
543 |
} |
|
544 |
else if ( ETLV_GeneralResult == aType ) |
|
545 |
{ |
|
546 |
//General result |
|
547 |
// |
|
548 |
//Contents: |
|
549 |
// General result specifies the result and indicates appropriate SIM |
|
550 |
// action. See 3GPP TS 11.14 V8.8.0, chapter 12.12 Result for more |
|
551 |
// details. |
|
552 |
ind = KTlvDataAreaStartPosition + offset; |
|
553 |
} |
|
554 |
else if ( ETLV_DataCodingScheme == aType ) |
|
555 |
{ |
|
556 |
//Data coding scheme is coded as for SMS Data coding scheme defined |
|
557 |
//in TS 23.038 [5]. |
|
558 |
ind = KTlvDataAreaStartPosition + offset; |
|
559 |
} |
|
560 |
else if ( ETLV_Tone == aType ) |
|
561 |
{ |
|
562 |
//Tone |
|
563 |
// |
|
564 |
//Contents: |
|
565 |
// Tones can be either the standard supervisory tone, as defined in TS |
|
566 |
//02.40 [18], or proprietary tones defined by the ME manufacturer. The |
|
567 |
//code values for proprietary tones shall be supported by the ME. If |
|
568 |
//proprietary tones are not supported the ME shall map these codings to |
|
569 |
//tones that it can generate. The tones to be used are left as an |
|
570 |
//implementation decision by the manufacturer. |
|
571 |
// |
|
572 |
//Coding: |
|
573 |
// Standard supervisory tones: |
|
574 |
// '01' Dial tone |
|
575 |
// '02' Called subscriber busy |
|
576 |
// '03' Congestion |
|
577 |
// '04' Radio path acknowledge |
|
578 |
// '05' Radio path not available / Call dropped |
|
579 |
// '06' Error / Special information |
|
580 |
// '07' Call waiting tone |
|
581 |
// '08' Ringing tone |
|
582 |
// ME proprietary tones: |
|
583 |
// '10' General beep |
|
584 |
// '11' Positive acknowledgement tone |
|
585 |
// '12' Negative acknowledgement or error tone |
|
586 |
// All other values are reserved. |
|
587 |
ind = KTlvDataAreaStartPosition; |
|
588 |
} |
|
589 |
else if ( ETLV_NumberOfFiles == aType ) |
|
590 |
{ |
|
591 |
//Number of files: |
|
592 |
//This is the number of files that will be described in the following |
|
593 |
//list. |
|
594 |
ind = KTlvDataAreaStartPosition + offset; |
|
595 |
} |
|
596 |
else if ( ETLV_LocationStatus == aType ) |
|
597 |
{ |
|
598 |
//Location status |
|
599 |
// |
|
600 |
//Contents: |
|
601 |
// this data object indicates the current service state |
|
602 |
// of the MS. |
|
603 |
// - "Normal service" shall indicate that the MS is in a state |
|
604 |
// where all requests for services are treated normally. |
|
605 |
// - "Limited service" shall indicate that the MS is in a state |
|
606 |
// where only emergency call services are offered. |
|
607 |
// - "No service" shall indicate that the MS is in a state |
|
608 |
// where no services are offered. |
|
609 |
// |
|
610 |
//Coding: |
|
611 |
// Each byte in the event list shall be coded with one of |
|
612 |
// the values below: |
|
613 |
// - '00' = Normal service |
|
614 |
// - '01' = Limited service |
|
615 |
// - '02' = No service |
|
616 |
ind = KTlvDataAreaStartPosition; |
|
617 |
} |
|
618 |
else if ( ETLV_IconQualifier == aType ) |
|
619 |
{ |
|
620 |
//Icon qualifier: |
|
621 |
//Contents: The icon qualifier indicates to the ME how the icon is |
|
622 |
//to be used. |
|
623 |
//Coding: |
|
624 |
//bit 1: 0 = icon is self-explanatory, i.e. if displayed, it |
|
625 |
// replaces the alpha identifier or text string |
|
626 |
// 1 = icon is not self-explanatory, i.e. if |
|
627 |
// displayed, it shall be displayed together with |
|
628 |
// the alpha identifier or text string |
|
629 |
//bits 2?8 = 0 RFU. |
|
630 |
ind = KTlvDataAreaStartPosition; |
|
631 |
} |
|
632 |
else if ( ETLV_IconIdentifier == aType ) |
|
633 |
{ |
|
634 |
//Icon identifier: |
|
635 |
//Contents: The icon identifier addresses a record in EFIMG as |
|
636 |
//defined in TS 11.11 [20]. |
|
637 |
//Coding: Binary. |
|
638 |
ind = KTlvDataAreaStartPosition + 1; |
|
639 |
} |
|
640 |
else if ( ETLV_IconListQualifier == aType ) |
|
641 |
{ |
|
642 |
//Icon list qualifier: |
|
643 |
//Contents: The icon list qualifier indicates to the ME how the |
|
644 |
//icons are to be used. |
|
645 |
//Coding: |
|
646 |
//bit 1: 0 = icon is self-explanatory, i.e. if displayed, it |
|
647 |
// replaces the item text |
|
648 |
// 1 = icon is not self-explanatory, i.e. if displayed, |
|
649 |
// it shall be displayed together with the item text |
|
650 |
// bits 2?8 = 0 RFU. |
|
651 |
||
652 |
//All icons in the list shall be treated in the same manner by the |
|
653 |
//ME, i.e. either none of the icons in this list are displayed, or |
|
654 |
//for each item its related icon is displayed. |
|
655 |
ind = KTlvDataAreaStartPosition; |
|
656 |
} |
|
657 |
else if ( ETLV_CardReaderStatus == aType ) |
|
658 |
{ |
|
659 |
//Card reader status: |
|
660 |
//Contents : |
|
661 |
//This contains the identity of the card reader, and flags to |
|
662 |
//indicate the status of the reader with respect to: |
|
663 |
//- whether the card reader is removable or permanently connected; |
|
664 |
//- whether the card reader is present (this can only be false if |
|
665 |
// the card reader is removable) |
|
666 |
//- whether the card reader present accepts ID-1 size cards (this |
|
667 |
// can only be true if the card reader is present) |
|
668 |
//- whether there is a card present in the card reader (this can |
|
669 |
// only be true if the card reader is present) |
|
670 |
//- whether power is being applied to the card (this can only be true if a card is present). |
|
671 |
||
672 |
//Coding : |
|
673 |
//The value of this byte indicates the identity and status of a |
|
674 |
//card reader. |
|
675 |
// bits 1-3 = identity of card reader x. |
|
676 |
// bit 4 0 = Card reader is not removable |
|
677 |
// 1 = Card reader is removable |
|
678 |
// bit 5 0 = Card reader is not present |
|
679 |
// 1 = Card reader is present |
|
680 |
// bit 6 0 = Card reader present is not ID-1 size |
|
681 |
// 1 = Card reader present is ID-1 size |
|
682 |
// bit 7 0 = No card present |
|
683 |
// 1 = Card is present in reader |
|
684 |
// bit 8 0 = No card power ON |
|
685 |
// 1 = Card in reader is power ON |
|
686 |
ind = KTlvDataAreaStartPosition; |
|
687 |
} |
|
688 |
else if ( ETLV_CommandClassCLA == aType ) |
|
689 |
{ |
|
690 |
//This object contains the command APDU for Card x in the format |
|
691 |
//defined in ISO/IEC 7816?4 [25]. Command class CLA, instruction |
|
692 |
//code INS, P1 and P2 parameters, Lc, Data and Le are coded as |
|
693 |
//defined in ISO/IEC 7816?4 [25]. Extended lengths are not |
|
694 |
//supported. |
|
695 |
//Note: The maximum size of the value part of this Simple TLV |
|
696 |
//(value of X) is limited to 241 bytes, so the maximum length for |
|
697 |
//the Data (value of Lc) in a Case 3 type of APDU is 236 bytes. |
|
698 |
ind = KTlvDataAreaStartPosition + offset; |
|
699 |
} |
|
700 |
else if ( ETLV_CommandInstructionCodeIns == aType ) |
|
701 |
{ |
|
702 |
//This object contains the command APDU for Card x in the format |
|
703 |
//defined in ISO/IEC 7816?4 [25]. Command class CLA, instruction |
|
704 |
//code INS, P1 and P2 parameters, Lc, Data and Le are coded as |
|
705 |
//defined in ISO/IEC 7816?4 [25]. Extended lengths are not |
|
706 |
//supported. |
|
707 |
//Note: The maximum size of the value part of this Simple TLV |
|
708 |
//(value of X) is limited to 241 bytes, so the maximum length for |
|
709 |
//the Data (value of Lc) in a Case 3 type of APDU is 236 bytes. |
|
710 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
711 |
} |
|
712 |
else if ( ETLV_P1Parameter == aType ) |
|
713 |
{ |
|
714 |
//This object contains the command APDU for Card x in the format |
|
715 |
//defined in ISO/IEC 7816?4 [25]. Command class CLA, instruction |
|
716 |
//code INS, P1 and P2 parameters, Lc, Data and Le are coded as |
|
717 |
//defined in ISO/IEC 7816?4 [25]. Extended lengths are not |
|
718 |
//supported. |
|
719 |
//Note: The maximum size of the value part of this Simple TLV |
|
720 |
//(value of X) is limited to 241 bytes, so the maximum length for |
|
721 |
//the Data (value of Lc) in a Case 3 type of APDU is 236 bytes. |
|
722 |
ind = KTlvDataAreaStartPosition + offset + 2; |
|
723 |
} |
|
724 |
else if ( ETLV_P2Parameter == aType ) |
|
725 |
{ |
|
726 |
//This object contains the command APDU for Card x in the format |
|
727 |
//defined in ISO/IEC 7816?4 [25]. Command class CLA, instruction |
|
728 |
//code INS, P1 and P2 parameters, Lc, Data and Le are coded as |
|
729 |
//defined in ISO/IEC 7816?4 [25]. Extended lengths are not |
|
730 |
//supported. |
|
731 |
//Note: The maximum size of the value part of this Simple TLV |
|
732 |
//(value of X) is limited to 241 bytes, so the maximum length for |
|
733 |
//the Data (value of Lc) in a Case 3 type of APDU is 236 bytes. |
|
734 |
ind = KTlvDataAreaStartPosition + offset + 3; |
|
735 |
} |
|
736 |
else if ( ETLV_Lc == aType ) |
|
737 |
{ |
|
738 |
//This object contains the command APDU for Card x in the format |
|
739 |
//defined in ISO/IEC 7816?4 [25]. Command class CLA, instruction |
|
740 |
//code INS, P1 and P2 parameters, Lc, Data and Le are coded as |
|
741 |
//defined in ISO/IEC 7816?4 [25]. Extended lengths are not |
|
742 |
//supported. |
|
743 |
//Note: The maximum size of the value part of this Simple TLV |
|
744 |
//(value of X) is limited to 241 bytes, so the maximum length for |
|
745 |
//the Data (value of Lc) in a Case 3 type of APDU is 236 bytes. |
|
746 |
if ( KCApduLengthWithoutLc < GetLongInfo( ETLV_Lc ) ) |
|
747 |
{ |
|
748 |
ind = KTlvDataAreaStartPosition + offset + 4; |
|
749 |
} |
|
750 |
else |
|
751 |
{ |
|
752 |
return 0; |
|
753 |
} |
|
754 |
} |
|
755 |
else if ( ETLV_Le == aType ) |
|
756 |
{ |
|
757 |
//This object contains the command APDU for Card x in the format |
|
758 |
//defined in ISO/IEC 7816?4 [25]. Command class CLA, instruction |
|
759 |
//code INS, P1 and P2 parameters, Lc, Data and Le are coded as |
|
760 |
//defined in ISO/IEC 7816?4 [25]. Extended lengths are not |
|
761 |
//supported. |
|
762 |
//Note: The maximum size of the value part of this Simple TLV |
|
763 |
//(value of X) is limited to 241 bytes, so the maximum length for |
|
764 |
//the Data (value of Lc) in a Case 3 type of APDU is 236 bytes. |
|
765 |
ind = KTlvDataAreaStartPosition + offset + 5 + GetShortInfo( ETLV_Lc ); |
|
766 |
} |
|
767 |
else if ( ETLV_StatusWordSW1 == aType ) |
|
768 |
{ |
|
769 |
//This object contains the response APDU from Card x in the format |
|
770 |
//defined in ISO/IEC 7816?4 [25]. The R-APDU data and status words SW1 |
|
771 |
//and SW2 are coded as defined in ISO/IEC 7816?4 [25]. It is possible |
|
772 |
//for no R-APDU data to be present; this is indicated by the length of |
|
773 |
//the data object. |
|
774 |
//Note: The maximum size of the value part of this Simple TLV (value of |
|
775 |
//X) is limited to 239 bytes, so the maximum length of the R-APDU data |
|
776 |
//is 237 bytes. |
|
777 |
ind = KTlvDataAreaStartPosition + offset |
|
778 |
+ GetLength() - 2 + 1; |
|
779 |
} |
|
780 |
else if ( ETLV_StatusWordSW2 == aType ) |
|
781 |
{ |
|
782 |
//This object contains the response APDU from Card x in the format |
|
783 |
//defined in ISO/IEC 7816?4 [25]. The R-APDU data and status words SW1 |
|
784 |
//and SW2 are coded as defined in ISO/IEC 7816?4 [25]. It is possible |
|
785 |
//for no R-APDU data to be present; this is indicated by the length of |
|
786 |
//the data object. |
|
787 |
//Note: The maximum size of the value part of this Simple TLV (value of |
|
788 |
//X) is limited to 239 bytes, so the maximum length of the R-APDU data |
|
789 |
//is 237 bytes. |
|
790 |
ind = KTlvDataAreaStartPosition + offset |
|
791 |
+ GetLength() - 2 + 2; |
|
792 |
} |
|
793 |
else if ( ETLV_TimerIdentifier == aType ) |
|
794 |
{ |
|
795 |
//Timer identifier: |
|
796 |
//Contents: identifier of a timer |
|
797 |
//Coding: |
|
798 |
//'01' Timer 1 |
|
799 |
//'02' Timer 2 |
|
800 |
//'03' Timer 3 |
|
801 |
//'04' Timer 4 |
|
802 |
//'05' Timer 5 |
|
803 |
//'06' Timer 6 |
|
804 |
//'07' Timer 7 |
|
805 |
//'08' Timer 8 |
|
806 |
//All other values are reserved |
|
807 |
ind = KTlvDataAreaStartPosition; |
|
808 |
} |
|
809 |
else if ( ETLV_BcRepeatIndicatorValues == aType ) |
|
810 |
{ |
|
811 |
//Contents : The BC repeat indicator is structured exactly as defined |
|
812 |
//in TS 04.08 [08], which may be alternate mode or sequential mode. |
|
813 |
// |
|
814 |
//Coding : '01' = Alternate mode |
|
815 |
// '03' = Sequential mode |
|
816 |
ind = KTlvDataAreaStartPosition; |
|
817 |
} |
|
818 |
else if ( ETLV_MeStatus == aType ) |
|
819 |
{ |
|
820 |
//Coding of ME status: |
|
821 |
//'00' = ME is in the idle state |
|
822 |
//'01' = ME is not in idle state |
|
823 |
//'02' to'FF'= reserved values |
|
824 |
ind = KTlvDataAreaStartPosition; |
|
825 |
} |
|
826 |
else if ( ETLV_TimingAdvance == aType ) |
|
827 |
{ |
|
828 |
//The Timing Advance is coded as for the Timing Advance information |
|
829 |
//element in TS 04.08 [8], starting at octet 2 (the IEI is removed, as |
|
830 |
//this information is duplicated by the data object tag). |
|
831 |
ind = KTlvDataAreaStartPosition + 1; |
|
832 |
} |
|
833 |
else if ( ETLV_BrowserIdentity == aType ) |
|
834 |
{ |
|
835 |
//Coding : |
|
836 |
//00 = Default Browser shall be used. |
|
837 |
//Other values are RFU. |
|
838 |
ind = KTlvDataAreaStartPosition; |
|
839 |
} |
|
840 |
else if ( ETLV_BrowserTerminationCause == aType ) |
|
841 |
{ |
|
842 |
//Coding: |
|
843 |
//00 = User Termination. |
|
844 |
//01 = Error Termination. |
|
845 |
ind = KTlvDataAreaStartPosition; |
|
846 |
} |
|
847 |
else if ( ETLV_BearerType == aType ) |
|
848 |
{ |
|
849 |
//Bearer Type coding |
|
850 |
//'0x00': Bearer type not set |
|
851 |
//'0x01': CSD |
|
852 |
//'0x02': GPRS |
|
853 |
//'0x03': Default bearer for requested transport layer. |
|
854 |
//'0x04': Local link technology independent |
|
855 |
//'0x05': Bluetooth |
|
856 |
//'0x06': IrDA |
|
857 |
//'0x07': RS232 |
|
858 |
//'0x10': USB |
|
859 |
ind = KTlvDataAreaStartPosition; |
|
860 |
} |
|
861 |
else if ( ETLV_ChannelDataLength == aType ) |
|
862 |
{ |
|
863 |
//The Channel data length codes : |
|
864 |
//- either the number of bytes that are available in a channel buffer |
|
865 |
// (Tx or Rx buffers negotiated during OPEN CHANNEL) using TERMINAL |
|
866 |
// RESPONSE. Since the Tx or Rx buffer size can be larger than 255 |
|
867 |
// bytes, 'FF' means "more than 255 bytes are available". |
|
868 |
//- or the number of bytes that are requested in a RECEIVE DATA command |
|
869 |
ind = KTlvDataAreaStartPosition; |
|
870 |
} |
|
871 |
else if ( ETLV_TypeOfAddress == aType ) |
|
872 |
{ |
|
873 |
//A null Local address shall be coded with Length = '00', and no Value |
|
874 |
//part. In that case, the ME shall request a dynamic address. |
|
875 |
// |
|
876 |
//Coding of Type of address: according to packet data protocol address |
|
877 |
//in TS 04.08 [8]. |
|
878 |
//'21' = IPv4 address |
|
879 |
//'97' = IPv6 address |
|
880 |
//'others' = reserved |
|
881 |
ind = KTlvDataAreaStartPosition; |
|
882 |
} |
|
883 |
else if ( ETLV_TransportProtocolType == aType ) |
|
884 |
{ |
|
885 |
//Transport protocol type coding: |
|
886 |
//- '01' : UDP (as defined in RFC 768 [33]) |
|
887 |
//- '02' : TCP (as defined in RFC 793 [34]) |
|
888 |
//all other value are reserved |
|
889 |
ind = KTlvDataAreaStartPosition; |
|
890 |
} |
|
891 |
else if ( ETLV_UtranMeasurementQualifier == aType ) |
|
892 |
{ |
|
893 |
// UTRAN Measurement Qualifier coding: |
|
894 |
//'01' Intra-frequency measurements |
|
895 |
//'02' Inter-frequency measurements |
|
896 |
//'03' Inter-RAT (GSM) measurements |
|
897 |
// All other values are reserved |
|
898 |
ind = KTlvDataAreaStartPosition; |
|
899 |
} |
|
900 |
else if ( ETLV_RemoteEntityAddressCoding == aType ) |
|
901 |
{ |
|
902 |
// Remote Entity Address Coding Type: |
|
903 |
// '00' IEEE-802 48-bit address |
|
904 |
// '01' to 'FF' are reserved values |
|
905 |
ind = KTlvDataAreaStartPosition; |
|
906 |
} |
|
907 |
else |
|
908 |
{ |
|
909 |
// Data type did not match with any of enumerations |
|
910 |
TFLOGSTRING2("TSY: CTlv::GetShortInfo, Unknown data type:0x%x", aType); |
|
911 |
OstTrace1( TRACE_DETAILED, DUP1_CTLV_GETSHORTINFO, "CTlv::GetShortInfo Unknown data type: %{TTlvSpesificDataType}", aType ); |
|
912 |
||
913 |
} |
|
914 |
||
915 |
return iData[ind]; |
|
916 |
||
917 |
} |
|
918 |
||
919 |
// ----------------------------------------------------------------------------- |
|
920 |
// CTlv::GetData |
|
921 |
// Returns the data. Returned data depends on data type. |
|
922 |
// ----------------------------------------------------------------------------- |
|
923 |
// |
|
924 |
TPtrC8 CTlv::GetData |
|
925 |
( |
|
926 |
TTlvSpesificDataType aType //Info spesific data type |
|
927 |
) |
|
928 |
{ |
|
929 |
OstTrace0( TRACE_DETAILED, CTLV_GETDATA, "CTlv::GetData" ); |
|
930 |
TFLOGSTRING("TSY: CTlv::GetData"); |
|
931 |
||
932 |
//information is generally at index 2. |
|
933 |
TInt ind ( 2 ); |
|
934 |
TUint8 offset( 0 ); |
|
935 |
TInt length( 1 ); |
|
936 |
||
937 |
//first determine if the length of the TLV is coded with 1 or 2 bytes. |
|
938 |
if ( KTwoByteLengthCoding == iData[KTlvLengthStartPosition] ) |
|
939 |
{ |
|
940 |
offset = 1; |
|
941 |
} |
|
942 |
||
943 |
//start getting TLV data elements |
|
944 |
if ( ETLV_DiallingNumberString == aType ) |
|
945 |
{ |
|
946 |
ind = KTlvDataAreaStartPosition + 1 + offset; |
|
947 |
//Dialling number string is coded as for EFADN, and may include |
|
948 |
//DTMF separators and DTMF digits, which the ME shall send in the |
|
949 |
//same way as for EFADN but without locally generating audible DTMF |
|
950 |
//tones to the user. |
|
951 |
//----------------------------------------------------------- |
|
952 |
// Byte(s) | Description | Length | |
|
953 |
//----------------------------------------------------------- |
|
954 |
// 1 | Address tag | 1 | |
|
955 |
// 2 to (Y-1)+2 | Length (X) | Y | |
|
956 |
// (Y-1)+3 | TON and NPI | 1 | |
|
957 |
// (Y-1)+4 to (Y-1)+X+2 | Dialling number string | X-1 | |
|
958 |
//------------------------------------------------------------ |
|
959 |
length = GetLength() - 1; |
|
960 |
} |
|
961 |
else if ( ETLV_AlphaIdentifier == aType ) |
|
962 |
{ |
|
963 |
ind = KTlvDataAreaStartPosition + offset; |
|
964 |
//The alpha identifier is coded as for EFADN. See TS 11.11 [20] for |
|
965 |
//the coding of all EFs. |
|
966 |
length = GetLength(); |
|
967 |
} |
|
968 |
else if ( ETLV_SubAddress == aType ) |
|
969 |
{ |
|
970 |
ind = KTlvDataAreaStartPosition + offset; |
|
971 |
//Subaddress contains information as defined for this purpose in |
|
972 |
//TS 04.08 [8] (calling party subaddress or called party |
|
973 |
//subaddress). All information defined in TS 04.08 shall be given |
|
974 |
//in the value part of the data object, except the information |
|
975 |
//element identifier and the length of subaddress contents (which |
|
976 |
//is given by the length part of the data object). |
|
977 |
length = GetLength(); |
|
978 |
} |
|
979 |
else if ( ETLV_CapabilityConfigurationParameters == aType ) |
|
980 |
{ |
|
981 |
ind = KTlvDataAreaStartPosition + offset; |
|
982 |
//Capability configuration parameters are coded as for EFCCP. If |
|
983 |
//it is being provided by the SIM, the SIM shall supply all information |
|
984 |
//required to complete the Bearer Capability Information Element in the |
|
985 |
//Call Set-up message (see TS 04.08 [8]). Any unused bytes at the end |
|
986 |
//of the value part shall be coded 'FF'. See TS 11.11 [20] for the |
|
987 |
//coding of all EFs. |
|
988 |
// |
|
989 |
//NOTE: The second byte of this TLV contains the Length of the TLV and |
|
990 |
//the third byte contains the Length of the bearer capability contents, |
|
991 |
//followed by the actual contents. |
|
992 |
||
993 |
length = GetLength(); |
|
994 |
} |
|
995 |
else if ( ETLV_CellBroadcastPage == aType ) |
|
996 |
{ |
|
997 |
ind = KTlvDataAreaStartPosition; |
|
998 |
//The Cell Broadcast page is formatted in the same way as described |
|
999 |
//in TS 23.041 [7]. |
|
1000 |
length = GetLength(); |
|
1001 |
} |
|
1002 |
else if ( ETLV_TextStringOfItem == aType ) |
|
1003 |
{ |
|
1004 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
1005 |
//The text string is coded in the same way as the alpha identifier |
|
1006 |
//for EFADN. Any unused bytes at the end of the value part shall be |
|
1007 |
//coded 'FF'. |
|
1008 |
length = GetLength() - 1; |
|
1009 |
} |
|
1010 |
else if ( ETLV_AdditionalInformationOnResult == aType ) |
|
1011 |
{ |
|
1012 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
1013 |
//Contents: For the general result "Command performed successfully", |
|
1014 |
//some proactive commands require additional information in the command |
|
1015 |
//result. This is defined in the subclauses below. For the general |
|
1016 |
//results '20', '21', '26', '34', '35', '37', '38' and '39' and '3A', |
|
1017 |
//it is mandatory for the ME to provide a specific cause value as |
|
1018 |
//additional information, as defined in the subclauses below. For the |
|
1019 |
//other general results, the ME may optionally supply additional |
|
1020 |
//information. If additional information is not supplied, then the |
|
1021 |
//length of the value part of the data object need only contain the |
|
1022 |
//general result. |
|
1023 |
length = GetLength() - 1; |
|
1024 |
} |
|
1025 |
else if ( ETLV_SmsTPdu == aType ) |
|
1026 |
{ |
|
1027 |
ind = KTlvDataAreaStartPosition + offset; |
|
1028 |
//The TPDU is formatted as described in TS 23.040 [6]. Where the TPDU |
|
1029 |
//is being sent from the SIM to the ME (to be forwarded to the |
|
1030 |
//network), and where it includes a TP-Message-Reference which is to be |
|
1031 |
//incremented by the ME for every outgoing message, the |
|
1032 |
//TP-Message-Reference as provided by the SIM need not be the valid |
|
1033 |
//value. TP-Message-Reference shall be checked and corrected by the ME |
|
1034 |
//to the value described in TS 23.040 [6]. |
|
1035 |
length = GetLength(); |
|
1036 |
} |
|
1037 |
else if ( ETLV_SsOrUssdString == aType ) |
|
1038 |
{ |
|
1039 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
1040 |
//SS or USSD control string are coded as for EFADN, where the ADN |
|
1041 |
//record relates to a Supplementary Service Control string. |
|
1042 |
//See TS 11.11 [20] for the coding of EFADN. |
|
1043 |
length = GetLength() - 1; |
|
1044 |
} |
|
1045 |
else if ( ( ETLV_TextString == aType ) || |
|
1046 |
( ETLV_DefaultText == aType ) ) |
|
1047 |
{ |
|
1048 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
1049 |
//A null text string shall be coded with Length = '00', and no Value |
|
1050 |
//part. |
|
1051 |
length = GetLength() - 1; |
|
1052 |
} |
|
1053 |
else if ( ETLV_UssdString == aType ) |
|
1054 |
{ |
|
1055 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
1056 |
//The coding of the USSD string is defined in TS 02.30 [4]. |
|
1057 |
length = GetLength() - 1; |
|
1058 |
} |
|
1059 |
else if ( ETLV_Files == aType ) |
|
1060 |
{ |
|
1061 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
1062 |
//Files: |
|
1063 |
//Full paths are given to files. Each of these shall be at least 4 |
|
1064 |
//octets in length (e.g. '3F002FE2' or '3F007F206FAD'). Each entry in |
|
1065 |
//the file description is composed of two bytes, where the first byte |
|
1066 |
//identifies the type of file (see TS 11.11). An entry in the file |
|
1067 |
//description shall therefore always begin with '3FXX'. There can be |
|
1068 |
//any number of Dedicated File entries between the Master File and |
|
1069 |
//Elementary File. There shall be no delimiters between files, as this |
|
1070 |
//is implied by the fact that the full path to any EF starts with |
|
1071 |
//'3FXX' and ends with an Elementary type file. |
|
1072 |
length = GetLength() - 1; |
|
1073 |
} |
|
1074 |
else if ( ETLV_MccAndMnc == aType ) |
|
1075 |
{ |
|
1076 |
ind = KTlvDataAreaStartPosition; |
|
1077 |
//The mobile country code (MCC), the mobile network code (MNC), the |
|
1078 |
//location area code (LAC) and the cell ID are coded as in |
|
1079 |
//TS 04.08 [8]. |
|
1080 |
length = KMccAndMncLength; |
|
1081 |
} |
|
1082 |
else if ( ETLV_Imei == aType ) |
|
1083 |
{ |
|
1084 |
ind = KTlvDataAreaStartPosition; |
|
1085 |
//The IMEI is coded as in TS 04.08 [8]. |
|
1086 |
length = GetLength(); |
|
1087 |
} |
|
1088 |
else if ( ETLV_NetworkMeasurementResults == aType ) |
|
1089 |
{ |
|
1090 |
ind = KTlvDataAreaStartPosition; |
|
1091 |
//The Network Measurement Results are coded as for the Measurement |
|
1092 |
//Results information element in TS 04.08 [8], starting at octet 2 (the |
|
1093 |
//IEI is removed, as this information is duplicated by the data object |
|
1094 |
//tag). |
|
1095 |
length = GetLength(); |
|
1096 |
} |
|
1097 |
else if ( ETLV_ItemsNextActionIndicator == aType ) |
|
1098 |
{ |
|
1099 |
ind = KTlvDataAreaStartPosition; |
|
1100 |
//Contents : |
|
1101 |
//Each item of a list of items has a next action indicator coded on one |
|
1102 |
//byte. The length of the Items Next Action Indicator list shall be the |
|
1103 |
//number of items of the list of items (X shall be the number of items |
|
1104 |
//in the list). The order of each item next action indicator, shall |
|
1105 |
//reflect the order o the items in the list of items. |
|
1106 |
||
1107 |
//The Item Next action indicator gives the possible actions that will |
|
1108 |
//be initiated by the SIM in case of selection by the user. |
|
1109 |
||
1110 |
//Coding : If the value is equal to '00' or if the value is reserved |
|
1111 |
//(that is, value not listed), the ME shall ignore the next action |
|
1112 |
//indicator type. |
|
1113 |
||
1114 |
//See subclause 13.4 for further information. |
|
1115 |
//Example : |
|
1116 |
//For the following list of items : |
|
1117 |
// - item #1; |
|
1118 |
// - item #2; |
|
1119 |
// - item #3; |
|
1120 |
// - .... |
|
1121 |
// - item #n, |
|
1122 |
//the Items Next Action Indicator (NAI) shall be as follows : |
|
1123 |
// |
|
1124 |
// ------------------------------------------------------------ |
|
1125 |
// | Tag | Length | NAI#1 | NAI#2 | NAI#3 | |
|
1126 |
// ------------------------------------------------------------ |
|
1127 |
||
1128 |
length = GetLength(); |
|
1129 |
} |
|
1130 |
else if ( ETLV_EventList == aType ) |
|
1131 |
{ |
|
1132 |
ind = KTlvDataAreaStartPosition + offset; |
|
1133 |
//Event list |
|
1134 |
//Contents: A list of events, of variable length. Each byte in the list |
|
1135 |
//defines an event. Each event type shall not appear more than once |
|
1136 |
//within the list. |
|
1137 |
//Coding: Each byte in the event list shall be coded with one of the |
|
1138 |
//values below: |
|
1139 |
// - '00' = MT call |
|
1140 |
// - '01' = Call connected |
|
1141 |
// - '02' = Call disconnected |
|
1142 |
// - '03' = Location status |
|
1143 |
// - '04' = User activity |
|
1144 |
// - '05' = Idle screen available |
|
1145 |
// - '06' = Card reader status (if class "a" is supported) |
|
1146 |
// - '07' = Language selection |
|
1147 |
// - '08' = Browser Termination (if class "c" is supported) |
|
1148 |
// - '09' = Data available (if class "e" is supported) |
|
1149 |
// - '0A' = Channel status (if class "e" is supported) |
|
1150 |
length = GetLength(); |
|
1151 |
} |
|
1152 |
else if ( ETLV_Cause == aType ) |
|
1153 |
{ |
|
1154 |
ind = KTlvDataAreaStartPosition + offset; |
|
1155 |
//The Cause data object is coded as for the Cause call control |
|
1156 |
//information element in TS 04.08 [8], starting at octet 3 (the IEI and |
|
1157 |
//Length information are removed, as this information is duplicated by |
|
1158 |
//the data object tag and length). Radio Link Timeout is indicated by |
|
1159 |
//the Cause data object having a value part of zero length (only the |
|
1160 |
//Tag and Length components are sent). |
|
1161 |
length = GetLength(); |
|
1162 |
} |
|
1163 |
else if ( ETLV_TransactionIdentifier == aType ) |
|
1164 |
{ |
|
1165 |
ind = KTlvDataAreaStartPosition; |
|
1166 |
//Transaction identifier list |
|
1167 |
//Contents: A list of transaction identifiers, of variable length. Each |
|
1168 |
//byte in the list defines a transaction identifier. Each transaction |
|
1169 |
//identifier shall not appear more than once within the list. |
|
1170 |
//Coding: Each byte in the transaction identifier list shall be coded |
|
1171 |
//as defined below: |
|
1172 |
//bits 1 to 4 = RFU |
|
1173 |
//bits 5 to 7 = value |
|
1174 |
//bit 8 = flag |
|
1175 |
//value and flag are coded as defined in TS 24.007 [23]. |
|
1176 |
length = GetLength(); |
|
1177 |
} |
|
1178 |
else if ( ETLV_BcchChannelList == aType ) |
|
1179 |
{ |
|
1180 |
ind = KTlvDataAreaStartPosition; |
|
1181 |
//BCCH channel list |
|
1182 |
//Contents: the list of absolute RF channels for BCCH carriers, as |
|
1183 |
//known by the ME from the SYSTEM INFORMATION messages. The BCCH |
|
1184 |
//channel list is composed of one to three BCCH channel sub lists, each |
|
1185 |
//sub list is derived from the set of frequencies defined by reference |
|
1186 |
//neighbour cells description information element or elements. In the |
|
1187 |
//latter case the set is the union of the different subsets defined by |
|
1188 |
//the neighbour cells description information elements |
|
1189 |
//(see TS 04.08 [8]). The length of the BCCH channel list field depends |
|
1190 |
//on the length of the received BCCH channel list derived from the |
|
1191 |
//different SYSTEM INFORMATION messages to be considered. |
|
1192 |
//Coding: Each ARFCN is represented by 10 bits. Spare bit(s) are to be |
|
1193 |
//filled with 0. |
|
1194 |
||
1195 |
// Bit 8 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 |
|
1196 |
//--------------------------------------------------------------------- |
|
1197 |
// Byte 1 | ARFCN#1 (high part) |
|
1198 |
// Byte 2 |ARFCN#1 (low part) ARFCN#2 (high part) |
|
1199 |
// Byte 3 | ARFCN#2 (low part) ARFCN#3 (high part) |
|
1200 |
// Byte n | n |
|
1201 |
// ByteX-1| ARFCN#m-1 (low part) ARFCN#m (high part) |
|
1202 |
// Byte X | ARFCN#m (low part) Spare Spare |
|
1203 |
// (0) (0) |
|
1204 |
||
1205 |
//SIM applications should take into account that early implementations |
|
1206 |
//of SIM application toolkit may have coded this field differently, |
|
1207 |
//because of an inconsistancy between the content and the coding of |
|
1208 |
//this element in previous versions of 11.14. The SIM is able to |
|
1209 |
//identify MEs that are using the coding described above by evaluating |
|
1210 |
//the indication "BCCH Channel List coding" in the TERMINAL PROFILE |
|
1211 |
//command. |
|
1212 |
length = GetLength(); |
|
1213 |
} |
|
1214 |
else if ( ETLV_CallControlRequestedAction == aType ) |
|
1215 |
{ |
|
1216 |
ind = KTlvDataAreaStartPosition + offset; |
|
1217 |
//Call control requested action |
|
1218 |
//Contents: The action given in response to the ENVELOPE (CALL |
|
1219 |
//CONTROL). It may contain, in the same order as given by the SIM, the |
|
1220 |
//address or SS string, the capability configuration parameters, the |
|
1221 |
//called party sub-address and the alpha identifier. |
|
1222 |
||
1223 |
//Coding: as described in subclause 9.1.6, starting with the first |
|
1224 |
//optional element given in the response data to the ENVELOPE (CALL |
|
1225 |
//CONTROL). |
|
1226 |
length = GetLength(); |
|
1227 |
} |
|
1228 |
else if ( ETLV_IconIdentifierList == aType ) |
|
1229 |
{ |
|
1230 |
ind = KTlvDataAreaStartPosition + 1; |
|
1231 |
//Icon identifier list: |
|
1232 |
//Contents : |
|
1233 |
//Each item of a list of items has an icon identifier coded on one |
|
1234 |
//byte. The length of the Items icon identifier list shall be the |
|
1235 |
//number of items of the list of items (X-1 shall be the number of |
|
1236 |
//items in the list). The order of each item icon identifier, shall |
|
1237 |
//reflect the order of the items in the list of items. |
|
1238 |
//Each icon identifier addresses a record in EFIMG as defined in |
|
1239 |
//TS 11.11 [20]. |
|
1240 |
||
1241 |
//Coding : Binary. |
|
1242 |
//Example : |
|
1243 |
//For the following list of items : - item #1 |
|
1244 |
// - item #2 |
|
1245 |
// - item #3 |
|
1246 |
// - .... |
|
1247 |
// - item #n, |
|
1248 |
||
1249 |
//the Items icon identifier list shall be as follows : |
|
1250 |
//--------------------------------------------------------- |
|
1251 |
// Tag | Length |icon |icon |icon | |
|
1252 |
//--------------------------------------------------------- |
|
1253 |
// | |identifier#1 |identifier#2 |identifier#3 | |
|
1254 |
//--------------------------------------------------------- |
|
1255 |
length = GetLength() - 1; |
|
1256 |
} |
|
1257 |
else if ( ETLV_Atr == aType ) |
|
1258 |
{ |
|
1259 |
ind = KTlvDataAreaStartPosition; |
|
1260 |
//ATR: |
|
1261 |
//Contents : |
|
1262 |
//This is the Answer To Reset returned by the card. |
|
1263 |
||
1264 |
//Coding : |
|
1265 |
//The coding of the Answer To Reset is defined in ISO/IEC 7816-3 [16]. |
|
1266 |
length = GetLength(); |
|
1267 |
} |
|
1268 |
else if ( ETLV_Data == aType ) |
|
1269 |
{ |
|
1270 |
TUint8 dataLength( GetShortInfo( ETLV_Lc ) ); |
|
1271 |
if ( dataLength ) |
|
1272 |
{ |
|
1273 |
ind = KTlvDataAreaStartPosition + offset + 5; |
|
1274 |
//This object contains the command APDU for Card x in the format |
|
1275 |
//defined in ISO/IEC 7816?4 [25]. Command class CLA, instruction |
|
1276 |
//code INS, P1 and P2 parameters, Lc, Data and Le are coded as |
|
1277 |
//defined in ISO/IEC 7816?4 [25]. Extended lengths are not |
|
1278 |
//supported. |
|
1279 |
//Note: The maximum size of the value part of this Simple TLV |
|
1280 |
//(value of X) is limited to 241 bytes, so the maximum length for |
|
1281 |
//the Data (value of Lc) in a Case 3 type of APDU is 236 bytes. |
|
1282 |
length = dataLength; |
|
1283 |
} |
|
1284 |
else |
|
1285 |
{ |
|
1286 |
return 0; |
|
1287 |
} |
|
1288 |
} |
|
1289 |
else if ( ETLV_RApduData == aType ) |
|
1290 |
{ |
|
1291 |
ind = KTlvDataAreaStartPosition + offset; |
|
1292 |
//This object contains the response APDU from Card x in the format |
|
1293 |
//defined in ISO/IEC 7816?4 [25]. The R-APDU data and status words SW1 |
|
1294 |
//and SW2 are coded as defined in ISO/IEC 7816?4 [25]. It is possible |
|
1295 |
//for no R-APDU data to be present; this is indicated by the length of |
|
1296 |
//the data object. |
|
1297 |
//Note: The maximum size of the value part of this Simple TLV (value of |
|
1298 |
//X) is limited to 239 bytes, so the maximum length of the R-APDU data |
|
1299 |
//is 237 bytes. |
|
1300 |
length = GetLength() - 2; |
|
1301 |
} |
|
1302 |
else if ( ETLV_TimerValue == aType ) |
|
1303 |
{ |
|
1304 |
ind = KTlvDataAreaStartPosition; |
|
1305 |
//Timer value: |
|
1306 |
//Contents: value of a timer, expressed using the format hour, minute, |
|
1307 |
//second. |
|
1308 |
//Coding: |
|
1309 |
// - byte 3: hour; this byte is coded exactly in the same way as the |
|
1310 |
// hour field of the TP-Service-Centre-Time-Stamp in |
|
1311 |
// TS 23.040 [6]. |
|
1312 |
// - byte 4: minute; this byte is coded exactly in the same way as |
|
1313 |
// the minute field of the TP-Service-Centre-Time-Stamp in |
|
1314 |
// TS 23.040 [6]. |
|
1315 |
// - byte 5: second; this byte is coded exactly in the same way as |
|
1316 |
// the second field of the TP-Service-Centre-Time-Stamp in |
|
1317 |
// TS 23.040 [6]. |
|
1318 |
length = GetLength(); |
|
1319 |
} |
|
1320 |
else if ( ETLV_DateTimeAndTimeZone == aType ) |
|
1321 |
{ |
|
1322 |
ind = KTlvDataAreaStartPosition; |
|
1323 |
//The Date-Time and Time zone is coded as for the Time Zone and Time |
|
1324 |
//information element in TS 04.08 [8], starting at octet 2 (i.e. 1 byte |
|
1325 |
//for year, month, day, hour, minute, second and time zone). Each byte |
|
1326 |
//is encoded in exactly the same way as the corresponding field of the |
|
1327 |
//TP-Service-Centre-Time-Stamp in TS 23.040 [6]. For the time zone |
|
1328 |
//field, 'FF' indicates an unknown value. |
|
1329 |
length = GetLength(); |
|
1330 |
} |
|
1331 |
else if ( ETLV_AtCommand == aType ) |
|
1332 |
{ |
|
1333 |
ind = KTlvDataAreaStartPosition + offset; |
|
1334 |
//Contents : |
|
1335 |
// The AT Command string is structured exactly as the AT Command line |
|
1336 |
// as defined in GSM 27.007 [27], which may contain single or |
|
1337 |
// concatenated AT commands. |
|
1338 |
length = GetLength(); |
|
1339 |
} |
|
1340 |
else if ( ETLV_AtResponse == aType ) |
|
1341 |
{ |
|
1342 |
ind = KTlvDataAreaStartPosition + offset; |
|
1343 |
//Contents: |
|
1344 |
// The AT Response string is structured exactly as the response to a |
|
1345 |
// command line as defined in GSM 27.007 [27], which may contain single |
|
1346 |
// or concatenated responses appropriate to the issued AT command. |
|
1347 |
// If the AT Response string is longer than the maximum length capable |
|
1348 |
// of being transmitted to the SIM then the AT Response string shall be |
|
1349 |
// truncated to this length by the ME. |
|
1350 |
length = GetLength(); |
|
1351 |
} |
|
1352 |
else if ( ETLV_DtmfString == aType ) |
|
1353 |
{ |
|
1354 |
ind = KTlvDataAreaStartPosition + offset; |
|
1355 |
//Contents : The DTMF string which can be single or multiple characters |
|
1356 |
//is coded in BCD, in the same way as the Dialling number string |
|
1357 |
//defined for EFADN in TS 11.11 [20]. It may include extended BCD |
|
1358 |
//coding. There is no need for a DTMF control digit separator at the |
|
1359 |
//beginning of the string, but if present it shall be interpreted as |
|
1360 |
//PAUSE. |
|
1361 |
length = GetLength(); |
|
1362 |
} |
|
1363 |
else if ( ETLV_Url == aType ) |
|
1364 |
{ |
|
1365 |
ind = KTlvDataAreaStartPosition + offset; |
|
1366 |
//A null URL shall be coded with Length = '00', and no Value part. In |
|
1367 |
//that case, the ME shall use the default URL. |
|
1368 |
// |
|
1369 |
//Coding : |
|
1370 |
//The data used for the URL shall be coded as defined in [32] on using |
|
1371 |
//the "SMS 7bits default alphabet" with bit 8 set to 0; |
|
1372 |
length = GetLength(); |
|
1373 |
} |
|
1374 |
else if ( ETLV_ListOfBearers == aType ) |
|
1375 |
{ |
|
1376 |
ind = KTlvDataAreaStartPosition + offset; |
|
1377 |
//The ME shall use this list to choose which bearers are allowed in |
|
1378 |
//order of priority. |
|
1379 |
||
1380 |
//Coding of the bearers : |
|
1381 |
//'00' = SMS |
|
1382 |
//'01' = CSD |
|
1383 |
//'02' = USSD |
|
1384 |
//'03' = GPRS |
|
1385 |
//'04' to 'FF' = RFU. |
|
1386 |
length = GetLength(); |
|
1387 |
} |
|
1388 |
else if ( ETLV_PathToProvisioningFile == aType ) |
|
1389 |
{ |
|
1390 |
ind = KTlvDataAreaStartPosition + offset; |
|
1391 |
//Note : the path is the concatenation of file identifiers starting |
|
1392 |
//from the Master File, e.g. : 3F007F206FXY... |
|
1393 |
//The file shall contain a single unambiguous set of parameters |
|
1394 |
//required to make the connection. The content of the file shall be |
|
1395 |
//consistent with the format defined for provisioning information for |
|
1396 |
//the requested type of browser. |
|
1397 |
length = GetLength(); |
|
1398 |
} |
|
1399 |
else if ( ETLV_BearerParameters == aType ) |
|
1400 |
{ |
|
1401 |
ind = KTlvDataAreaStartPosition + offset + 1; |
|
1402 |
//see 3GPP spec: 12.52.1 |
|
1403 |
//12.52.1 Bearer parameters for CSD |
|
1404 |
//12.52.2 Bearer parameters for GPRS / packet service |
|
1405 |
//12.52.3 Default bearer |
|
1406 |
length = GetLength() - 1; |
|
1407 |
} |
|
1408 |
else if ( ETLV_ChannelDataString == aType ) |
|
1409 |
{ |
|
1410 |
ind = KTlvDataAreaStartPosition + offset; |
|
1411 |
//Contents: |
|
1412 |
//The Channel data object contains application data read from or |
|
1413 |
//written to a specific channel buffer in the ME. |
|
1414 |
//Coding: |
|
1415 |
//The Channel data string must be considered by the ME as binary coded |
|
1416 |
//on 8 bits. |
|
1417 |
length = GetLength(); |
|
1418 |
} |
|
1419 |
else if ( ETLV_IdentifierOfCardReader == aType ) |
|
1420 |
{ |
|
1421 |
ind = KTlvDataAreaStartPosition; |
|
1422 |
//Coding : |
|
1423 |
//The identifier of card reader is coded in hexadecimal. |
|
1424 |
length = GetLength(); |
|
1425 |
} |
|
1426 |
else if ( ETLV_Address == aType ) |
|
1427 |
{ |
|
1428 |
ind = KTlvDataAreaStartPosition + 1; |
|
1429 |
//Coding of address: according to packet data protocol address in |
|
1430 |
//TS 04.08 [8]. |
|
1431 |
//If type of address indicates IPv4, the Address information in octet 4 |
|
1432 |
//to octet 7 contains the IPv4 address. Bit 8 of octet 4 represents the |
|
1433 |
//most significant bit of the IP address and bit 1 of octet 7 the least |
|
1434 |
//significant bit . |
|
1435 |
//If type of address indicates IPv6, the Address information in octet 4 |
|
1436 |
//to octet 19 contains the IPv6 address. Bit 8 of octet 4 represents |
|
1437 |
//the most significant bit of the IP address and bit 1 of octet 19 the |
|
1438 |
//least significant bit. |
|
1439 |
length = GetLength() - 1; // Length minus 1 because there is a byte |
|
1440 |
//before the address data |
|
1441 |
} |
|
1442 |
else if ( ETLV_NetworkAccessName == aType ) |
|
1443 |
{ |
|
1444 |
ind = KTlvDataAreaStartPosition; |
|
1445 |
//Content: |
|
1446 |
//The Network Access Name is used to identify the Gateway entity, which |
|
1447 |
//provides interworking with an external packet data network. For GPRS, |
|
1448 |
//the Network Access Name is an APN. |
|
1449 |
//Coding: As defined in TS 23.003 [36]. |
|
1450 |
length = GetLength(); |
|
1451 |
} |
|
1452 |
else if ( ETLV_AID == aType ) |
|
1453 |
{ |
|
1454 |
ind = KTlvDataAreaStartPosition; |
|
1455 |
// Application identifier as defined in TS 31.110 |
|
1456 |
// Byte(s) Description |
|
1457 |
// 1 AID tag |
|
1458 |
// 2 Length (X) |
|
1459 |
// 3 to (X+2) AID |
|
1460 |
||
1461 |
length = GetLength(); |
|
1462 |
} |
|
1463 |
else if ( ETLV_RemoteEntityAddress == aType ) |
|
1464 |
{ |
|
1465 |
ind = KTlvDataAreaStartPosition + 1; |
|
1466 |
// Remote Entity Address: |
|
1467 |
// According to Coding Type |
|
1468 |
// -------------------------------------------------- |
|
1469 |
// | Byte(s): | Description: | Length: | |
|
1470 |
// -------------------------------------------------- |
|
1471 |
// | 1 | Item Tag | 1 | |
|
1472 |
// | 2 to Y+1 | Lenght (X+1) | Y | |
|
1473 |
// | Y+2 | Coding Type | 1 | |
|
1474 |
// | Y+3 to Y+X+2 | Remote entity Address | X | |
|
1475 |
// -------------------------------------------------- |
|
1476 |
// Length minus 1 because there is a coding type byte |
|
1477 |
// before the remote entity address data |
|
1478 |
length = GetLength() - 1; |
|
1479 |
} |
|
1480 |
else |
|
1481 |
{ |
|
1482 |
// Data type did not match |
|
1483 |
TFLOGSTRING2("TSY: CTlv::GetData, Unknown data type: 0x%x", aType ); |
|
1484 |
OstTrace1( TRACE_DETAILED, DUP2_CTLV_GETDATA, "CTlv::GetData Unknown data type: %{TTlvSpesificDataType}", aType ); |
|
1485 |
||
1486 |
} |
|
1487 |
||
1488 |
return iData.Mid( ind, length ); |
|
1489 |
||
1490 |
} |
|
1491 |
||
1492 |
// ----------------------------------------------------------------------------- |
|
1493 |
// CTlv::GetLongInfo |
|
1494 |
// Returns the the data. |
|
1495 |
// Returned data depends on data type. |
|
1496 |
// ----------------------------------------------------------------------------- |
|
1497 |
// |
|
1498 |
TUint16 CTlv::GetLongInfo |
|
1499 |
( |
|
1500 |
TTlvSpesificDataType aType //Info spesific data type |
|
1501 |
) |
|
1502 |
{ |
|
1503 |
OstTrace0( TRACE_DETAILED, CTLV_GETLONGINFO, "CTlv::GetLongInfo" ); |
|
1504 |
TFLOGSTRING("TSY: CTlv::GetLongInfo"); |
|
1505 |
||
1506 |
TUint16 ret( 0x0000 ); |
|
1507 |
||
1508 |
if ( ETLV_LocationAreaCode == aType ) |
|
1509 |
{ |
|
1510 |
//The mobile country code (MCC), the mobile network code (MNC), the |
|
1511 |
//location area code (LAC) and the cell ID are coded as |
|
1512 |
//in TS 04.08 [8]. |
|
1513 |
TSatUtility::GetWord |
|
1514 |
( ret, iData, KTlvLengthStartPosition + KMccAndMncLength ); |
|
1515 |
} |
|
1516 |
else if ( ETLV_CellIdentityValue == aType ) |
|
1517 |
{ |
|
1518 |
//The mobile country code (MCC), the mobile network code (MNC), the |
|
1519 |
//location area code (LAC) and the cell ID are coded as |
|
1520 |
//in TS 04.08 [8]. |
|
1521 |
TSatUtility::GetWord( ret, iData, KTlvLengthStartPosition |
|
1522 |
+ KMccAndMncLength + KLocationAreaCodeLength ); |
|
1523 |
} |
|
1524 |
else if ( ETLV_Language == aType ) |
|
1525 |
{ |
|
1526 |
//Coding: |
|
1527 |
// each language code is a pair of alpha-numeric characters, defined in |
|
1528 |
// ISO 639 [29]. Each alpha-numeric character shall be coded on one |
|
1529 |
// byte using the SMS default 7-bit coded alphabet as defined in |
|
1530 |
// TS 23.038 [5] with bit 8 set to 0. |
|
1531 |
TSatUtility::GetWord( ret, iData, KTlvDataAreaStartPosition ); |
|
1532 |
} |
|
1533 |
else if ( ETLV_BufferSize == aType ) |
|
1534 |
{ |
|
1535 |
//Coding: |
|
1536 |
// The Buffer size codes the number of bytes requested by the SIM in an |
|
1537 |
// OPEN CHANNEL command or what the ME can offer the SIM (placed in |
|
1538 |
// TERMINAL RESPONSE). |
|
1539 |
TSatUtility::GetWord( ret, iData, KTlvDataAreaStartPosition ); |
|
1540 |
} |
|
1541 |
else if ( ETLV_ChannelStatus == aType ) |
|
1542 |
{ |
|
1543 |
//Contents : |
|
1544 |
//The Channel status is a string of binary coded characters. |
|
1545 |
//Coding of byte 3: |
|
1546 |
//bit 1 to 3: Channel identifier : 1..7 |
|
1547 |
// Channel identifier 0 means "No channel available" |
|
1548 |
//bit 4 to 7: RFU |
|
1549 |
//bit 8: 0 = Link not established or PDP context not activated |
|
1550 |
// 1 = Link established or PDP context activated |
|
1551 |
// |
|
1552 |
//Coding of byte 4: |
|
1553 |
//- '00' = No further info can be given |
|
1554 |
//- '01' = Not used |
|
1555 |
//- '02' = Not used |
|
1556 |
//- '03' = Not used |
|
1557 |
//- '04' = Not used |
|
1558 |
//- '05' = Link dropped |
|
1559 |
//all other values are reserved for future use |
|
1560 |
TSatUtility::GetWord( ret, iData, KTlvLengthStartPosition ); |
|
1561 |
} |
|
1562 |
else if ( ETLV_PortNumber == aType ) |
|
1563 |
{ |
|
1564 |
//Port number coding: integer |
|
1565 |
TSatUtility::GetWord( ret, iData, KTlvDataAreaStartPosition + 1 ); |
|
1566 |
} |
|
1567 |
else |
|
1568 |
{ |
|
1569 |
// Data type did not match |
|
1570 |
TFLOGSTRING2("TSY: CTlv::GetLongInfo, Unknown data type:0x%x", aType ); |
|
1571 |
OstTrace1( TRACE_DETAILED, DUP1_CTLV_GETLONGINFO, "CTlv::GetLongInfo, Unknown data type: %{TTlvSpesificDataType}", aType ); |
|
1572 |
||
1573 |
} |
|
1574 |
return ret; |
|
1575 |
||
1576 |
} |
|
1577 |
||
1578 |
||
1579 |
// ----------------------------------------------------------------------------- |
|
1580 |
// CBerTlv::BerTlv |
|
1581 |
// Set ber-tlv to proactive sim command ber-tlv in |
|
1582 |
// UICC_CAT_IND(UICC_CAT_FETCHED_CMD) ISI message. |
|
1583 |
// ----------------------------------------------------------------------------- |
|
1584 |
// |
|
1585 |
TInt CBerTlv::BerTlv( const TIsiReceiveC& aIsiMessage ) |
|
1586 |
{ |
|
1587 |
OstTrace0( TRACE_DETAILED, CBERTLV_BERTLV, "CBerTlv::BerTlv" ); |
|
1588 |
TFLOGSTRING("TSY: CBerTlv::BerTlv"); |
|
1589 |
||
1590 |
TInt result ( KErrNotFound ); |
|
1591 |
TUint16 berTlvLength( 0 ); |
|
1592 |
||
1593 |
// BER-TLV data is in subblock UICC_SB_APDU |
|
1594 |
TUint uiccSbApduOffset( 0 ); |
|
1595 |
if ( KErrNone == aIsiMessage.FindSubBlockOffsetById( |
|
1596 |
ISI_HEADER_SIZE + SIZE_UICC_CAT_IND, |
|
1597 |
UICC_SB_APDU, |
|
1598 |
EIsiSubBlockTypeId16Len16, |
|
1599 |
uiccSbApduOffset ) ) |
|
1600 |
{ |
|
1601 |
berTlvLength = aIsiMessage.Get16bit( |
|
1602 |
uiccSbApduOffset + UICC_SB_APDU_OFFSET_APDULENGTH ); |
|
1603 |
||
1604 |
// Check the proactive command tag |
|
1605 |
if ( KBerTlvProactiveSimCommandTag == aIsiMessage.Get8bit( |
|
1606 |
uiccSbApduOffset + UICC_SB_APDU_OFFSET_APDU ) ) |
|
1607 |
{ |
|
1608 |
TPtrC8 data( aIsiMessage.GetData( |
|
1609 |
uiccSbApduOffset + UICC_SB_APDU_OFFSET_APDU, |
|
1610 |
berTlvLength ) ); |
|
1611 |
SetData( data ); |
|
1612 |
result = KErrNone; |
|
1613 |
} |
|
1614 |
} |
|
1615 |
return result; |
|
1616 |
} |
|
1617 |
||
1618 |
||
1619 |
// ========================== OTHER EXPORTED FUNCTIONS ========================= |
|
1620 |
// none |
|
1621 |
||
1622 |
//End Of File |