/*
* Copyright (c) 2002-2007 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: Decoding of binary multimedia message
*
*/
#include <apparc.h>
#include <s32mem.h>
#include <utf.h>
#include <msvids.h>
#include <escapeutils.h>
#include <e32math.h>
#include <badesca.h>
#include <cmsvmimeheaders.h>
#include <mmsvattachmentmanager.h>
#include <mmsvattachmentmanagersync.h>
#include <fileprotectionresolver.h>
#include <apmstd.h>
// Features
#include <featmgr.h>
#include <bldvariant.hrh>
#include "mmsheaders.h"
#include "mmsconst.h"
#include "mmsdecode.h"
#include "mmscodec.h"
#include "mmsservercommon.h"
#include "mmssession.h"
#include "mmsgenutils.h"
#include "mmsentrywrapper.h"
#include "mmserrors.h"
#include "mmsmmboxmessageheaders.h"
#include "mmsmmboxviewheaders.h"
#include "mmselementdescriptor.h"
enum TMmsMachineStates
{
EMmsIdle,
EMmsDecodingHeaders,
EMmsDecodingAttachments,
EMmsFinished
};
// These are the stages for chunked encoding.
// The chunked encoding is synchronous, so the stages are different
// from the machine states.
enum TMmsChunkedDecodingStages
{
EMmsNotApplicable, // stage used when not doing chunks
EMmsHeaders,
EMmsAttachmentHeaders,
EMmsAttachmentDataStart, // create attachment file and add data
EMmsAttachmentDataAppend, // append data to existing attachment
EMmsDone
};
static const CMmsDecode::TMmsExtensionLookup KMmsFileExtensionMatchTable[] =
{
{ _S8( "jpeg" ), _S16( "*.jpg" ) },
{ _S8( "gif" ), _S16( "*.gif" ) },
{ _S8( "text" ), _S16( "*.txt" ) },
{ _S8( "smil" ), _S16( "*.smil" ) },
{ _S8( "wbmp" ), _S16( "*.wbmp" ) },
{ _S8( "png" ), _S16( "*.png" ) },
{ _S8( "amr" ), _S16( "*.amr" ) },
{ _S8( "vcard" ), _S16( "*.vcf" ) },
{ _S8( "calendar" ), _S16( "*.vcs" ) },
{ _S8( "drm.message" ), _S16( "*.dm" ) },
{ _S8( "drm.content" ), _S16( "*.dcf" ) },
{ _S8( "drm.rights+xml" ), _S16( "*.dr" ) },
{ _S8( "drm.rights+wbxml" ), _S16( "*.drc" ) },
{ _S8( "drm.dcf" ), _S16( "*.odf" ) },
// last entries in the table are empty so that
// we can find the end of the table
{ _S8( "" ), _S16( "" ) }
};
// application specific headers with known handling
static const CMmsDecode::TMmsExtensionHeaderLookup KMmsExtensionHeaderLookup[] =
{
{ _S8( "X-Mms-Vodafone-Notif-Text" ), &KMmsAssignedExtendedNotificationText },
{ _S8( "X-Mms-Vodafone-Notif-EOL" ), &KMmsAssignedExtendedNotificationEOL },
// end of table
{ _S8( "" ), 0 }
};
_LIT8( KMmsWapMultipartReport, "application/vnd.wap.multipart.report" );
// fake assigned number - last one possible
const TUint8 KMmsAssignedApplicationVndWapMultipartReport = 0x7F;
// a header that is a text string, not assigned number
const TUint8 KMmsTextHeader = 0x7F;
_LIT8( KMmsExtension, "X-" );
#ifndef _NO_MMSS_LOGGING_
_LIT16( KLogYes, "-- Yes" );
_LIT16( KLogNo, "-- No" );
_LIT16( KLogUnknown, "-- Unknown %d" );
#endif
_LIT8( KmmsSmilMimeType,"application/smil");
_LIT8( KMmsSmilSubtype, "smil" );
_LIT8( KMmsAudioSubtype, "amr" );
_LIT8( KMmsAudioSubtype2, "x-amr" ); // old subtype - someone may send this
// main type for audio, don't mark for example "application/amr" as audiomessage
// as audiomessage UI can't handle it. UI only handles "audio/amr"
_LIT8( KMmsAudioType, "audio" );
_LIT8( KMessageClassPersonal, "Personal" );
_LIT8( KMessageClassAdvertisement, "Advertisement" );
_LIT8( KMessageClassInformational, "Informational" );
_LIT8( KMessageClassAuto, "Auto" );
#ifndef _NO_MMSS_LOGGING_
const TInt KMmsHalfByteShift = 4;
const TUint8 KMms0x0F = 0x0F;
const TInt KMmsDateFormatLength = 30; // length for date string buffer for logging
const TInt KMmsMicroToSeconds = 1000000;
#endif
const TUint8 KMms0x20 = 0x20; // lowest ascii, space
const TInt KMmsMinHeaderLength = 2; // no header can be shorter than this
const TInt KMmsBitsInByte = 8;
const TInt KMmsMaxIntegerLength = 4;
const TInt KMmsMaxLongIntegerLength = 8;
const TUint8 KMms0x80 = 0x80; // 128
const TUint8 KMms0x7F = 0x7F; // 127
const TInt KMms2 = 2; // used to calculate length when converting 8 bit to 16 bit encoding
const TUint8 KMms31 = 31; // uintvar indicator
const TUint8 KMms32 = 32; // low limit for text string encoding
const TUint8 KMms30 = 30; // upper limit for short length encoding
const TInt KMmsUintvarShift = 7; // bit shift for decoding uintvars
const TInt KMms14 = 14; // atta name length for self-generated names
const TInt KMms2k = 2000;
const TInt KMmsTestIllegalValue = 255;
// ==================== LOCAL FUNCTIONS ====================
// ================= MEMBER FUNCTIONS =======================
// ---------------------------------------------------------------------------
// C++ default constructor can NOT contain any code, that
// might leave.
// All member variables are automatically zeroed in the constructor
// of a class derived from CBase.
// ---------------------------------------------------------------------------
//
CMmsDecode::CMmsDecode()
:CMsgActive ( KMmsActiveObjectPriority ),
iState ( EMmsIdle )
{
}
// ---------------------------------------------------------------------------
// Symbian OS default constructor can leave.
// ---------------------------------------------------------------------------
//
void CMmsDecode::ConstructL(RFs& aFs)
{
iFs = aFs;
iMimeHeaders = CMsvMimeHeaders::NewL();
// This is obsolete. Everything is always logged in debug version
iLogAllDecoded = ETrue;
CActiveScheduler::Add(this);
}
// ---------------------------------------------------------------------------
// Two-phased constructor.
// ---------------------------------------------------------------------------
//
EXPORT_C CMmsDecode* CMmsDecode::NewL(RFs& aFs)
{
CMmsDecode* self = new (ELeave) CMmsDecode;
CleanupStack::PushL( self );
self->ConstructL(aFs);
CleanupStack::Pop( self );
return self;
}
// ---------------------------------------------------------------------------
// Destructor
// ---------------------------------------------------------------------------
//
CMmsDecode::~CMmsDecode()
{
Cancel();
delete iMimeHeaders;
delete iStore; // the store should be committed earlier, not anymore
delete iRootContentIdBuffer;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
EXPORT_C void CMmsDecode::StartL(
MMmsEntryWrapper& aEntryWrapper,
CMmsHeaders& aMmsHeaders,
CBufFlat& aDecodeBuffer,
TRequestStatus& aStatus,
TInt aStartPosition /* = 0 */,
TInt aLength /* = 0 */ )
{
Reset();
iEntryWrapper = &aEntryWrapper;
iDecodeBuffer = &aDecodeBuffer;
iMmsHeaders = &aMmsHeaders;
iDRMFlags = 0;
// length will be checked later when we start actual decoding
iPosition = aStartPosition;
if ( aLength == 0 )
{
iLength = aDecodeBuffer.Size();
}
else
{
iLength = aLength + aStartPosition;
}
iDumpIncoming = iEntryWrapper->GetDumpFlag();
DumpL();
Queue(aStatus);
CompleteSelf( iError );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
EXPORT_C void CMmsDecode::DecodeHeadersL(
MMmsEntryWrapper& aEntryWrapper,
CMmsHeaders& aMmsHeaders,
CBufFlat& aDecodeBuffer,
TInt aStartPosition /* = 0 */,
TInt aLength /* = 0 */,
TInt* aNumberOfAttachments /* = 0 */,
TInt* aDataStart /* = 0 */ )
{
// The initial settings are the same as for asynchronous
// methods, but decoding just headers is fast enough to
// be done synchronously
Reset();
iEntryWrapper = &aEntryWrapper;
iDecodeBuffer = &aDecodeBuffer;
iMmsHeaders = &aMmsHeaders;
iPosition = aStartPosition;
iNumberOfAttachments = 0;
iLastHeader = EFalse;
if ( aLength == 0 )
{
iLength = aDecodeBuffer.Size();
}
else
{
iLength = aLength + aStartPosition;
}
if ( aDataStart != 0 )
{
// Originally point beyound buffer
// If data is found, this will be updated
*aDataStart = iLength;
}
if ( aNumberOfAttachments )
{
// initialize to no attachments
*aNumberOfAttachments = 0;
}
iMmsHeaders->Reset();
// Save the time the entry was received into the MMS headers
// the value in TMsvEntry may change, but this remains
TTime now;
now.UniversalTime();
iMmsHeaders->SetReceivingTime( now );
iDumpIncoming = iEntryWrapper->GetDumpFlag();
DumpL();
if ( iLength < KMmsMinHeaderLength )
{
// cannot decode if nothing to decode
// each header is at least 2 bytes.
// If not at least 2 bytes, no can do.
iState = EMmsIdle;
iError = KErrCorrupt;
User::LeaveIfError( iError );
}
// each header byte must be followed by at least one byte value.
// otherwise the message is corrupted
// when we reach the header that indicates the start of the attachment
// structure, we expect that no headers follow the attachment part
// we could handle even headers following the attachments if we
// wanted to, but if the specification is followed strictly, the
// attachments are the last part in the message.
// each header is at least 2 bytes - header name and value
while ( ( iPosition <= iLength - KMmsMinHeaderLength ) &&
( iError != KErrCorrupt ) &&
( !iLastHeader ) )
{
DecodeOneHeaderL();
}
iLength = iDecodeBuffer->Size();
if ( iPosition >= iLength ||
( iMmsHeaders->MessageType() == KMmsMessageTypeMboxViewConf &&
iMmsHeaders->MultipartType() == 0 ) )
{
// Only content type header, but no actual attachments
iNumberOfAttachments = 0;
}
// If the caller is interested, return the number of attachments we found
if ( aNumberOfAttachments )
{
*aNumberOfAttachments = iNumberOfAttachments;
}
if ( aDataStart != 0 )
{
*aDataStart = iPosition;
}
// WE DON'T SAVE THE MESSAGE HERE.
// THE CALLER CONTROLS THE SAVING OF THE MESSAGE
// AS WE ONLY DECODE HEADERS, AND DON'T HANDLE
// ATTACHMENTS HERE
// THERE MAY BE NO ENTRY AVAILABLE FOR SAVING THE HEADERS.
// We are done - may be called again...
iState = EMmsIdle;
User::LeaveIfError( iError );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
EXPORT_C void CMmsDecode::DecodeAttachmentsL(
MMmsEntryWrapper& aEntryWrapper,
CMmsHeaders& aMmsHeaders,
CBufFlat& aDecodeBuffer,
TInt aNumberOfAttachments,
TInt& aStartPosition,
TRequestStatus& aStatus,
TBool aDoNotUpdateParentEntry /* = EFalse*/,
TInt aLength /* = 0 */ )
{
// The parent entry is updated after specified number of attachments
// has been handled.
// Normally all attachments should be handled together.
// Handling only some attachments is a special case
// We must get an edit store when we are called the first time.
if ( !iStore )
{
iStore = iEntryWrapper->EditStoreL();
}
iError = KErrNone; // start with clean slate
iDataStart = aStartPosition;
iNextStart = aStartPosition;
iUpdatedPosition = &aStartPosition;
iDoNotUpdateParentEntry = aDoNotUpdateParentEntry;
iEntryWrapper = &aEntryWrapper;
iMmsHeaders = &aMmsHeaders;
iDecodeBuffer = &aDecodeBuffer;
iNumberOfAttachments = aNumberOfAttachments;
iPosition = aStartPosition;
if ( aLength == 0 )
{
iLength = iDecodeBuffer->Size();
}
else
{
iLength = aStartPosition + aLength;
}
iState = EMmsDecodingAttachments;
Queue(aStatus);
CompleteSelf( iError );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
EXPORT_C CMsvMimeHeaders& CMmsDecode::ExtractNextDataPartL(
CBufFlat& aDecodeBuffer,
TInt& aStartPosition,
TInt& aStartOfData,
TInt& aLengthOfData)
{
iMimeHeaders->Reset();
iDecodeBuffer = &aDecodeBuffer;
iPosition = aStartPosition;
iUpdatedPosition = &aStartPosition;
iLength = iDecodeBuffer->Size();
TInt headersLength = 0;
TInt dataLength = 0;
// This function is only used to extract next data part from multipart structure
headersLength = GetUintvar();
dataLength = GetUintvar();
aStartOfData = iPosition + headersLength;
iDataStart = aStartOfData;
aLengthOfData = dataLength;
aStartPosition = iDataStart + dataLength;
// Extract mime headers
// iPosition points to the start of headers
// First is content type without actual header field, just value
GetAttachmentContentTypeL();
while ( iPosition < iDataStart )
{
DecodeOneContentHeaderL();
}
return *iMimeHeaders;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
EXPORT_C void CMmsDecode::CommitStoreL()
{
if ( iStore )
{
iStore->CommitL();
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
EXPORT_C void CMmsDecode::InitializeChunkedMode(
MMmsEntryWrapper& aEntryWrapper,
CMmsHeaders& aMmsHeaders,
CBufFlat& aDecodeBuffer
)
{
Reset();
iEntryWrapper = &aEntryWrapper;
iMmsHeaders = &aMmsHeaders;
iDecodeBuffer = &aDecodeBuffer;
iDRMFlags = 0;
iPosition = 0;
iLength = 0;
iRemoveDrm = EFalse;
iDumpIncoming = iEntryWrapper->GetDumpFlag();
iDecodingStage = EMmsHeaders;
TRAP_IGNORE(DumpL());
}
// ---------------------------------------------------------
// from class MMmsCodecDataSink
//
// ---------------------------------------------------------
//
TInt CMmsDecode::NextDataPart(
CBufFlat& aBuffer,
TInt& aPosition,
TBool aLastDataChunk )
{
if ( iDecodingStage == EMmsNotApplicable )
{
aPosition = 0; // if not chunked, nothing handled by data sink -> keep all.
return KErrNone;
}
TMsvEntry entry;
iEntryWrapper->GetIndexEntry( entry );
if ( entry.Id() == KMsvNullIndexEntryId )
{
// We have no entry, behave as if in non-chunked mode.
// We are getting a response that will not be saved
// in a message entry, but may be decoded in its entirety
// later.
aPosition = 0; // if not chunked, nothing handled by data sink -> keep all.
return KErrNone;
}
iDecodeBuffer = &aBuffer;
iPosition = aPosition;
// Use iLength to tell how much data must be dumped
iLength = iDecodeBuffer->Size() - iPosition;
TRAP_IGNORE(DumpL());
// Use this to check when end of buffer has been reached
iLength = iDecodeBuffer->Size();
// We must get an edit store when we are called the first time.
if ( !iStore && iError == KErrNone )
{
TRAP( iError, iStore = iEntryWrapper->EditStoreL() );
}
if ( iError != KErrNone )
{
return iError;
}
// clear this to make sure it does not point beyond buffer the next time
iOldData = 0;
TBool moreDataNeeded = EFalse;
if ( iDecodingStage == EMmsHeaders )
{
// Decode headers and tell if there was enough data to do that
moreDataNeeded = SinkHeaders( aLastDataChunk );
}
// If we have decoded all headers, we must see if we have enough data left
// to decode the attachments.
// If we already ran out of data while decoding the MMS headers
// we must get more data before even trying the attachments
while ( !moreDataNeeded && !( aLastDataChunk && iPosition == iLength ) &&
!( iDecodingStage == EMmsDone ) )
{
if ( iDecodingStage == EMmsAttachmentHeaders )
{
moreDataNeeded = SinkAttachmentHeaders( aLastDataChunk );
}
if ( iDecodingStage == EMmsAttachmentDataStart )
{
SinkAttachmentDataStart();
}
// If we have a monoblock, we don't know the length - we just write everything we've got
if ( iDecodingStage == EMmsAttachmentDataAppend &&
( iAttaDataWritten < iCurrentAttaLength || iCurrentAttaLength < 0 ) )
{
SinkAttachmentData();
}
if ( iDecodingStage == EMmsAttachmentDataAppend &&
( ( iAttaDataWritten < iCurrentAttaLength ) ||
( iCurrentAttaLength < 0 && !aLastDataChunk ) ) )
{
moreDataNeeded = ETrue;
}
if ( ( iDecodingStage == EMmsAttachmentDataAppend &&
iAttaDataWritten == iCurrentAttaLength ) || aLastDataChunk )
{
if ( iCurrentAttaLength > 0 )
{
FinishSinkingAttachment( aLastDataChunk );
}
}
if ( iError != KErrNone && iError != KMmsErrorRemoveDRM )
{
if ( iDecodingStage == EMmsAttachmentDataAppend )
{
// We try to clean up.
// We ignore the error as we have an error already
TRAP_IGNORE( iEntryWrapper->FinalizeAttachmentL(
*iStore, iCurrentAttaLength, iDRMFlags ) );
}
// We cannot continue
iDecodingStage = EMmsDone;
}
}
// clear this in case it was set - it's not valid in chunked mode
iFakeSubject = 0;
iTextPlainLength = 0;
if ( aLastDataChunk )
{
FinalizeSinkingLastChunk();
}
// remember how much data was left over
if ( iPosition > iDecodeBuffer->Size() )
{
// this is paranoid, but we make sure that the caller will not panic
iPosition = iDecodeBuffer->Size();
}
iOldData = iDecodeBuffer->Size() - iPosition;
aPosition = iPosition;
if ( iError != KErrNone )
{
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Chunked decode - error %d, deleting store"), iError );
#endif
delete iStore;
iStore = NULL;
}
return iError;
}
// ---------------------------------------------------------
// from class MMmsCodecDataSink
//
// ---------------------------------------------------------
//
void CMmsDecode::RelaseDataSink()
{
// store must be released even in case of error
delete iStore;
iStore = NULL;
}
// ---------------------------------------------------------
// from class MMmsCodecDataSink
//
// ---------------------------------------------------------
//
void CMmsDecode::ResetDataSink()
{
if ( iDecodingStage == EMmsNotApplicable )
{
// not chunked mode - do nothing
return;
}
TMsvEntry entry;
if ( iEntryWrapper->GetIndexEntry( entry ) == KErrNone &&
entry.Id() != KMsvNullIndexEntryId )
{
if ( !iStore )
{
TRAP_IGNORE(iStore = iEntryWrapper->EditStoreL());
}
// This should fail only if we run out of memory.
// In that case the whole message entry will be deleted later,
// so it does not make sense to return an error here
// We just do our best and let the rest of the code to continue
TRAP_IGNORE({
MMsvAttachmentManager& attaMan = iStore->AttachmentManagerL();
MMsvAttachmentManagerSync& attaManSync = iStore->AttachmentManagerExtensionsL();
TInt count = attaMan.AttachmentCount();
TInt i;
// delete all old attachments as we are starting from the beginning
for ( i = count - 1; i >= 0; --i )
{
attaManSync.RemoveAttachmentL( i );
}
iStore->CommitL();
});
}
Reset();
iMmsHeaders->Reset();
iDRMFlags = 0;
iPosition = 0;
iLength = 0;
iDumpIncoming = iEntryWrapper->GetDumpFlag();
iDecodingStage = EMmsHeaders;
if ( entry.Id() == KMsvNullIndexEntryId )
{
// no entry - cannot use chunked mode.
iDecodingStage = EMmsNotApplicable;
}
else
{
TRAP_IGNORE(DumpL());
}
}
// ---------------------------------------------------------
// From class CMsgActive
//
// ---------------------------------------------------------
//
void CMmsDecode::DoRunL()
{
// This routine takes the state machine through the states
// until an error is encountered or the cycle completes.
if ( iError != KErrNone )
{
// We encountered an error, and cannot continue
// For the time being we just give up without trying
// to do any decent cleanup.
iStatus = iError;
iState = EMmsIdle;
// If we return from DoRunL without becoming active again,
// RunL completes.
return;
}
SelectNextState();
if ( iState != EMmsFinished )
{
// If appropriate, ChangeStateL makes us active again
ChangeStateL();
// If we return from DoRunL without becoming active again,
// RunL completes.
}
else
{
iUpdatedPosition = NULL; // no longer needed
if ( !iDoNotUpdateParentEntry )
{
FinishL();
}
else
{
// store must be released in any case
CommitStoreL();
delete iStore;
iStore = NULL;
}
iDoNotUpdateParentEntry = EFalse; // default value
iState = EMmsIdle;
iStatus = iError;
// If we return from DoRunL without becoming active again,
// RunL completes.
}
}
// ---------------------------------------------------------
// From class CMsgActive
//
// ---------------------------------------------------------
//
void CMmsDecode::DoComplete( TInt& /* aStatus */ )
{
// We are exiting the loop - we say we are idle now
iState = EMmsIdle;
// store must be released in any case - if it is NULL already, nothing happens
// Can't leave here anymore
TInt error;
TRAP( error, CommitStoreL() );
delete iStore;
iStore = NULL;
if ( iError == KErrNone )
{
iError = error;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::SelectNextState()
{
// If appropriate, the functions called within the switch statement
// will make us active again. If all is done, the asynchronous request
// will complete
switch ( iState )
{
case EMmsIdle:
// start the loop
iState = EMmsDecodingHeaders;
break;
case EMmsDecodingHeaders:
if ( iNumberOfAttachments > 0 )
{
iState = EMmsDecodingAttachments;
}
else
{
iState = EMmsFinished;
}
break;
case EMmsDecodingAttachments:
if ( iNumberOfAttachments > 0 )
{
iState = EMmsDecodingAttachments;
}
else
{
iState = EMmsFinished;
}
break;
case EMmsFinished:
// No more states
break;
default:
// Illegal state
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Decode - illegal state %d"), iState );
#endif
break;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::ChangeStateL()
{
switch ( iState )
{
case EMmsDecodingHeaders:
DecodeHeadersL();
break;
case EMmsDecodingAttachments:
if ( iNumberOfAttachments > KMmsMaxAttachments )
{
// If we have too many attachments, we cannot
// handle the message. This is a temporary
// error code that takes care of denying retries
iError = KMmsErrorEMRUExceeded;
CompleteSelf( iError );
return;
}
DecodeOneAttachmentL();
iNumberOfAttachments--;
if ( iUpdatedPosition )
{
// The user wants to know where to continue
*iUpdatedPosition = iPosition;
}
break;
default:
iState = EMmsIdle;
break;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::Reset()
{
iError = KErrNone; // start with clean slate
iMimeHeaders->Reset();
delete iStore;
iStore = NULL; // this is a new message, cannot use old store
iUpdatedPosition = NULL;
iPosition = 0;
iDataStart = 0;
iNextStart = 0;
iNumberOfAttachments = 0;
iLastHeader = EFalse;
iTotalSize = 0;
iFakeSubject = 0;
iCharacterSet = KMmsUsAscii; // if no character set, default is US_ASCII
iTextPlainLength = 0;
iMultipartType = 0;
iRootContentId.Set( TPtrC8() );
delete iRootContentIdBuffer;
iRootContentIdBuffer = NULL;
iRootAttachmentId = 0;
iFirstAttachmentId = 0;
iFirstTextPlain = 0;
iUseForSubject = EFalse;
iAttaNumber = 0;
iSmilCount = 0;
iAudioCount = 0;
iPlainTexts = 0;
iDoNotUpdateParentEntry = EFalse;
iDecodingStage = EMmsNotApplicable;
iOldData = 0;
iLogAllDecoded = ETrue;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
TBool CMmsDecode::SinkHeaders( TBool aLastDataChunk )
{
TBool enoughData = ETrue;
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Chunked decode - MMS headers"));
#endif
TInt error = KErrNone;
// See if we have a whole header
// We must have enough data to contain both the header and its value.
// Otherwise we must ask for more data.
TRAP ( error,
{
enoughData = CheckHeaderLength();
while ( enoughData &&
( iError != KErrCorrupt ) &&
( !iLastHeader ) )
{
DecodeOneHeaderL();
if ( ( iError != KErrCorrupt ) &&
( !iLastHeader ) )
{
enoughData = CheckHeaderLength();
}
}
});
if ( iError == KErrNone )
{
// we should get an error in decoding only if memory runs out
// or the message is corrupted
iError = error;
}
// check if we reached the end of the headers and can continue
// with attachments
if ( iError == KErrNone )
{
if ( iLastHeader )
{
// Headers decoded successfully, can continue with attachments
// The uintvar specifying then number of attachments was decoded
// at the end of the MMS headers in connection with multipart header.
// This leaves only if out of disk space or out of memory
TRAP( iError, SaveMMSHeadersL() );
iDecodingStage = EMmsAttachmentHeaders;
}
else if ( aLastDataChunk && iPosition >= iLength )
{
// Headers decoded successfully, but no attachment present
// This is an empty message
TRAP( iError, SaveMMSHeadersL() );
iDecodingStage = EMmsAttachmentHeaders;
}
else if ( aLastDataChunk && !enoughData )
{
// we have got something that cannot be decoded
iError = KErrCorrupt;
iDecodingStage = EMmsDone;
}
else
{
// Do nothing - keep LINT happy
}
}
// return ETrue if more data is needed.
return !enoughData;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
TBool CMmsDecode::SinkAttachmentHeaders( TBool aLastDataChunk )
{
TBool moreDataNeeded = EFalse;
TInt error = KErrNone;
// We try to get all attachment headers at one go
// It is easier than decoding the attachment headers one by one
// As we have headers that tell the total length of attachment
// headers we can ask for more data if needed.
// The attachment headers are not normally very long, and if they
// are, the message is probably corrupted anyway
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Chunked decode - Attachment headers"));
#endif
iAttaDataWritten = 0; // no data yet
iCurrentAttaLength = 0;
TInt currentPosition = iPosition;
TInt uintvarStart = iPosition;
iRemoveDrm = EFalse; // no DRM so far
if ( iMultipartType && CheckUintvarLength() )
{
// restore position to start of Uintvar
iPosition = uintvarStart;
TUint attaHeaderLength = GetUintvar();
// got atta header length. Do we still have more data.
uintvarStart = iPosition;
if ( CheckUintvarLength() )
{
iPosition = uintvarStart;
iCurrentAttaLength = GetUintvar();
// attaHeaderLength is the length of content type header and other
// headers combined.
// Do we still have that much data.
if ( iLength - iPosition >= attaHeaderLength )
{
// decode headers
iPosition = currentPosition;
TRAP( error, DecodeAttachmentHeadersL() );
if ( iError == KErrNone )
{
iError = error;
}
if ( iCurrentAttaLength == 0 )
{
// if the attachment is empty, we do not create an attachment
// we should check here if there is any data left
iDecodingStage = EMmsAttachmentHeaders;
}
else if ( iError == KErrNone )
{
iDecodingStage = EMmsAttachmentDataStart;
}
else
{
// do nothing - keep LINT happy
}
}
else
{
// not enough data for decoding headers - give up
// and ask for more data
iPosition = currentPosition;
moreDataNeeded = ETrue;
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Chunked decode - need more data for atta headers"));
#endif
}
}
else
{
// not enough data for determining attachment data length - give up
// and ask for more data
iPosition = currentPosition;
moreDataNeeded = ETrue;
}
}
else if ( iMultipartType == 0 && !( iLength - iPosition < KMms2k && !aLastDataChunk ) )
{
// One chunk, no multipart, very bad, try anyway
// We can only guess how much of the data is headers.
TRAP( error, DecodeAttachmentHeadersL() );
if ( iError == KErrNone )
{
iError = error;
}
iCurrentAttaLength = -1; // Don't know
if ( !( aLastDataChunk && iPosition == iLength ) && iError == KErrNone )
{
// There is some data
iDecodingStage = EMmsAttachmentDataStart;
}
else
{
iCurrentAttaLength = 0; // no data
}
}
else
{
// not enough data for determining attachment header length - give up
// and ask for more data
iPosition = currentPosition;
moreDataNeeded = ETrue;
}
return moreDataNeeded;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::SinkAttachmentDataStart()
{
TInt error = KErrNone;
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Chunked decode - Attachment data start"));
#endif
// Now the attachment file must be created.
// We should also have enough data
// First an empty attachment is created. No data is needed for it.
TRAP ( error, iEntryWrapper->CreateEmptyFileAttachmentL(
*iStore,
iParse.NameAndExt(),
*iMimeHeaders,
iCurrentAttachment )
);
if ( iError == KErrNone && error != KErrNone )
{
iError = error;
}
if ( iError == KErrNone )
{
if ( iUseForSubject )
{
iFirstTextPlain = iCurrentAttachment;
iUseForSubject = EFalse;
}
#ifndef _NO_MMSS_LOGGING_
TRAP_IGNORE({
MMsvAttachmentManager& attaMan = iStore->AttachmentManagerL();
CMsvAttachment* attaInfo = attaMan.GetAttachmentInfoL( iCurrentAttachment );
TMmsLogger::Log( _L("- Attachment created %S"), &attaInfo->FilePath() );
delete attaInfo;
attaInfo = NULL;
});
#endif
}
if ( iError == KErrNone )
{
iDecodingStage = EMmsAttachmentDataAppend;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::SinkAttachmentData()
{
TInt error = KErrNone;
// no problem with signed/unsigned comparison - size cannot be signed
if ( iPosition < iDecodeBuffer->Size() )
{
TPtr8 attaDataPtr = iDecodeBuffer->Ptr( iPosition );
if ( attaDataPtr.Length() > iCurrentAttaLength - iAttaDataWritten &&
iCurrentAttaLength > 0 )
{
// If we don't know the amount of attachment data, we write the
// whole buffer
attaDataPtr.SetLength( iCurrentAttaLength - iAttaDataWritten );
}
if ( iError == KMmsErrorRemoveDRM )
{
iRemoveDrm = ETrue;
iError = KErrNone;
}
if ( !iRemoveDrm )
{
// we have data that can be written to the file
TRAP( error,
iError = iEntryWrapper->ProcessAttachmentDataL( attaDataPtr, iDRMFlags )
);
if ( iError == KErrNone )
{
iError = error;
}
if ( iError == KMmsErrorRemoveDRM )
{
iRemoveDrm = ETrue;
iError = KErrNone;
}
}
// if attachment is DRM protected and must be removed, just increase pointers
iPosition += attaDataPtr.Length();
iAttaDataWritten += attaDataPtr.Length();
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Chunked decode - Attachment data %d, cumulative %d"),
attaDataPtr.Length(), iAttaDataWritten );
#endif
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::FinishSinkingAttachment( TBool aLastDataChunk )
{
TInt error = KErrNone;
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Chunked decode - Attachment ready"));
#endif
// end of attachment - close file
// This must be called even if the error indicates the DRM file must be removed
// This call does all cleanup and actually removes the DRM attachment if needed.
TRAPD( error2,
error = iEntryWrapper->FinalizeAttachmentL( *iStore, iCurrentAttaLength, iDRMFlags )
);
if ( iError == KErrNone )
{
iError = error;
}
if ( iError == KErrNone )
{
iError = error2;
}
// If DRM handling changed file size, iCurrentAttaLength gets adjusted
if ( iError == KMmsErrorRemoveDRM )
{
// if error == KMmsErrorRemoveDRM all is well, and we can continue
// but we don't have an attachment
iError = KErrNone;
// DRM already removed - flag can be cleared now
iRemoveDrm = EFalse;
}
else if ( iError == KErrNone )
{
iTotalSize += iMimeHeaders->Size() + iCurrentAttaLength;
if ( ( iMultipartType == KMmsAssignedApplicationVndWapMultipartRelated ) &&
( iRootContentId.Length() > 0 ) &&
( iRootAttachmentId == 0 ) )
{
// check if content-id's match
if ( iRootContentId.Compare( iMimeHeaders->ContentId() ) == 0 )
{
iRootAttachmentId = iCurrentAttachment;
}
}
}
else
{
// do nothing - keep LINT happy
}
// no problem with signed/unsigned
if ( !( aLastDataChunk && iPosition == iLength ) &&
( iAttaNumber < iNumberOfAttachments ) )
{
iDecodingStage = EMmsAttachmentHeaders;
}
else
{
iDecodingStage = EMmsDone;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::FinalizeSinkingLastChunk()
{
TInt error = KErrNone;
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("Chunked decode - last chunk"));
#endif
// If we have reached the last chunk, all data should be handled by now
iDecodingStage = EMmsDone;
// Read possible data from plain text file into encode buffer
// and set iFake subject to point to the buffer
// Must start from 1 because data would never start from 0
// and value 0 indicates no fake subject available.
// Fake subject handling
// Our store should still be valid.
// The fake subject handling and multipart/report handling are "best effort"
// Even if the operations fail, the code continues as if no error was encountered.
TInt oldSize = iDecodeBuffer->Size();
TRAP_IGNORE(
{
// if we have no subject but we do have only one text attachment
// we take text from the beginning as subject
//
if ( iFirstTextPlain && iPlainTexts == 1 && iMmsHeaders->Subject().Length() == 0 )
{
MMsvAttachmentManager& attaMan = iStore->AttachmentManagerL();
RFile textAtta = attaMan.GetAttachmentFileL( iFirstTextPlain );
CleanupClosePushL( textAtta );
iDecodeBuffer->ResizeL( KMmsMaxDescription + 1 );
// We must start from any position > 0
TPtr8 pointer = iDecodeBuffer->Ptr( 1 );
// read text into buffer
error = textAtta.Read( pointer );
if ( error == KErrNone )
{
iFakeSubject = 1;
iTextPlainLength = pointer.Length();
}
CleanupStack::PopAndDestroy( &textAtta ); // textAtta file handle closed
}
// Multipart/report handling
if ( iMultipartType == KMmsAssignedApplicationVndWapMultipartReport )
{
// we only keep the first part from multipart/report
MMsvAttachmentManager& attaMan = iStore->AttachmentManagerL();
MMsvAttachmentManagerSync& attaManSync = iStore->AttachmentManagerExtensionsL();
TInt count = attaMan.AttachmentCount();
TInt i;
for ( i = count - 1; i > 0; --i )
{
attaManSync.RemoveAttachmentL( i );
}
}
});
error = KErrNone;
iLength = iDecodeBuffer->Size();
TRAP( error, FinishL() );
TRAP_IGNORE( CommitStoreL() );
delete iStore;
iStore = NULL;
if ( iError == KErrNone )
{
iError = error;
}
// Restore the original buffer size
// This should actually never leave because we are just restoring the original size
TRAP_IGNORE( iDecodeBuffer->ResizeL( oldSize ));
iLength = iDecodeBuffer->Size();
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeHeadersL()
{
if ( iLength < KMmsMinHeaderLength )
{
// cannot decode if nothing to decode
// each header is at least 2 bytes.
// If not at least 2 bytes, no can do.
iError = KErrCorrupt;
}
iMmsHeaders->Reset();
// Save the time the entry was received into the MMS headers
// the value in TMsvEntry may change, but this remains
TTime now;
now.UniversalTime();
iMmsHeaders->SetReceivingTime( now );
// each header byte must be followed by at least one byte value.
// otherwise the message is corrupted
// when we reach the header that indicates the start of the attachment
// structure, we expect that no headers follow the attachment part.
// each header is at least 2 bytes - header name and value
while ( ( iPosition <= iLength - KMmsMinHeaderLength ) &&
( iError != KErrCorrupt ) &&
( !iLastHeader ) )
{
DecodeOneHeaderL();
}
SaveMMSHeadersL();
TRequestStatus* status = &iStatus;
*status = KRequestPending;
SetActive();
// Now we indicate we already did everything.
User::RequestComplete( status, iError );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::SaveMMSHeadersL()
{
// We save the headers only in case we are decoding an incoming
// message. In other cases we deliver the results back to the caller
// in iMmsHeaders.
// Only retrieve confirmation is supposed to contain body that
// needs saving of attachments.
// We save a message of type KMmsMessageTypeMSendReq as it were an
// incoming message, as during tests we get our own
// send requests back as new messages.
// We also save notifications and delivery reports.
// However, in normal case MMS server calls a different function
// (CMmsDecode::DecodeHeadersL) to decode notifications and delivery
// reports as they do not contain attachments, and delivery reports
// are not saved on disk, but are logged and deleted.
// For testing purposes upload request is saved as an incoming message
if ( ( iMmsHeaders->MessageType() == KMmsMessageTypeMRetrieveConf ||
iMmsHeaders->MessageType() == KMmsMessageTypeMSendReq ||
iMmsHeaders->MessageType() == KMmsMessageTypeMNotificationInd ||
iMmsHeaders->MessageType() == KMmsMessageTypeDeliveryInd ||
iMmsHeaders->MessageType() == KMmsMessageTypeMBoxUploadReq ) &&
iError == KErrNone )
{
// The entry wrapper must be pointing to our message entry
if ( !iStore )
{
iStore = iEntryWrapper->EditStoreL();
}
iError = iEntryWrapper->DiskSpaceBelowCriticalLevelL( iMmsHeaders->Size() );
if ( iError == KErrNone )
{
iMmsHeaders->StoreL( *iStore );
iStore->CommitL();
}
// the store will be left open until all the attachments have been saved
}
// Afterwards we must calculate the total message size and
// store it in the entry.
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeOneHeaderL()
{
TInt header;
header = GetHeaderName();
if ( header == -1 )
{
return; // skip unknown
}
// Get the corresponding value
switch ( header )
{
case KMmsAssignedFrom:
DecodeFromHeaderL();
break;
case KMmsAssignedTo:
DecodeToL();
break;
case KMmsAssignedCc:
DecodeCcL();
break;
case KMmsAssignedBcc:
DecodeBccL();
break;
case KMmsAssignedContentLocation:
DecodeContentLocationHeaderL();
break;
case KMmsAssignedDate:
DecodeDateHeaderL();
break;
case KMmsAssignedDeliveryReport:
DecodeDeliveryReportHeader();
break;
case KMmsAssignedDeliveryTime:
DecodeDeliveryTimeL();
break;
case KMmsAssignedExpiry:
DecodeExpiryL();
break;
case KMmsAssignedMessageClass:
DecodeMessageClass();
break;
case KMmsAssignedMessageId:
DecodeMessageIdL();
break;
case KMmsAssignedMessageType:
DecodeMessageType();
break;
case KMmsAssignedMmsVersion:
DecodeMmsVersion();
break;
case KMmsAssignedMessageSize:
DecodeMessageSize();
break;
case KMmsAssignedPriority:
DecodePriority();
break;
case KMmsAssignedReadReply:
DecodeReadReply();
break;
case KMmsAssignedReportAllowed:
DecodeReportAllowed();
break;
case KMmsAssignedResponseStatus:
case KMmsAssignedRetrieveStatus:
DecodeResponseStatusL( header );
break;
case KMmsAssignedResponseText:
case KMmsAssignedRetrieveText:
case KMmsAssignedStatusText:
DecodeResponseTextL( header );
break;
case KMmsAssignedSenderVisibility:
DecodeSenderVisibility();
break;
case KMmsAssignedStatus:
DecodeStatus();
break;
case KMmsAssignedSubject:
DecodeSubjectL();
break;
case KMmsAssignedTID:
DecodeTidL();
break;
case KMmsAssignedContentType:
// Content type is the last header in the PDU
// Number of attachments and last header indicator will be set
DecodeContentTypeL();
break;
case KMmsAssignedReadStatus:
DecodeReadStatus();
break;
case KMmsAssignedReplyCharging:
DecodeReplyCharging();
break;
case KMmsAssignedReplyChargingDeadline:
DecodeReplyChargingDeadlineL();
break;
case KMmsAssignedReplyChargingID:
DecodeReplyChargingIdL();
break;
case KMmsAssignedReplyChargingSize:
DecodeReplyChargingSize();
break;
case KMmsAssignedPreviouslySentBy:
DecodePreviousSenderL();
break;
case KMmsAssignedPreviouslySentDate:
DecodePreviouslySentDateL();
break;
case KMmsAssignedMmsStore:
DecodeStoreHeaderL();
break;
case KMmsAssignedMMState:
DecodeMMBoxStateL();
break;
case KMmsAssignedMMFlags:
GetKeywordL();
break;
case KMmsAssignedStoreStatus:
DecodeMMBoxStoreStatusL();
break;
case KMmsAssignedStoreStatusText:
DecodeMMBoxStoreStatusTextL();
break;
case KMmsAssignedStored:
DecodeStoredInMMBoxHeaderL();
break;
case KMmsAssignedAttributes:
DecodeAttributesHeaderL();
break;
case KMmsAssignedTotals:
DecodeTotalsL();
break;
case KMmsAssignedMboxTotals:
DecodeMboxTotalsL();
break;
case KMmsAssignedQuotas:
DecodeQuotaHeaderL();
break;
case KMmsAssignedMboxQuotas:
DecodeMBoxQuotasL();
break;
case KMmsAssignedMessageCount:
DecodeMessageCountL();
break;
case KMmsAssignedStart:
DecodeStartInMMBoxViewL();
break;
case KMmsAssignedDistributionIndicator:
DecodeDistributionIndicator();
break;
case KMmsAssignedElementDescriptor:
DecodeElementDescriptorL();
break;
case KMmsAssignedLimit:
DecodeMessageLimitL();
break;
case KMmsAssignedExtendedNotificationText:
DecodeExtNotifTextL();
break;
case KMmsAssignedExtendedNotificationEOL:
DecodeExtNotifEolL();
break;
case KMmsAssignedContentClass:
DecodeContentClass();
break;
case KMmsAssignedDrmContent:
DecodeDrmContentHeader();
break;
case KMmsAssignedAdaptationAllowed:
DecodeAdaptationAllowed();
break;
case KMmsAssignedApplicId:
DecodeApplicationIdL();
break;
case KMmsAssignedReplyApplicId:
DecodeReplyApplicationIdL();
break;
case KMmsAssignedAuxApplicInfo:
DecodeApplicationInfoL();
break;
case KMmsAssignedRecommendedRetrievalMode:
DecodeRecommendedRetrievalMode();
break;
case KMmsAssignedRecommendedRetrievalModeText:
DecodeRecommendedRetrievalModeTextL();
break;
case KMmsAssignedReplaceId:
case KMmsAssignedCancelId:
DecodeCancelReplaceIdL( header );
break;
case KMmsAssignedCancelStatus:
DecodeCancelStatus();
break;
default:
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Unsupported header : 0x%02X"), (header & KMms0x7F) );
#endif
// This is an error.
// This is an unknown header, just ignore it.
SkipFieldValue();
break;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TInt CMmsDecode::GetHeaderName()
{
TInt header;
header = -1; // unknown
TUint8 byte;
if ( iPosition > iLength - KMmsMinHeaderLength )
{
iError = KErrCorrupt;
return header;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
// byte cannot be bigger than 255. No need to test upper limit
if ( byte >= KMms0x80 )
{
// well known header, advance pointer
iPosition++;
header = byte;
return header;
}
// we cannot handle headers which are not well known.
// however, we should be able to skip them and ignore them.
// If a field name has no encoding, it must be encoded as text.
// If the header is corrupted, the value may be something
// illegal. We should have a mechanism of skipping
// illegal codings, too, but if the header name is not a
// short integer or a text string, we are so deep in trouble
// that we cannot decode the whole message anyway.
// We handle some known text headers. Here we check if possible
// text header is one we know. If not, it is skipped.
TPtrC8 byteString = GetByteString();
// see if this is in our table
TInt i = 0;
TBool matchFound = EFalse;
TPtrC8 matchTablePointer;
matchTablePointer.Set( KMmsExtensionHeaderLookup[i].extensionHeader );
while ( matchTablePointer.Length() > 0 && !matchFound )
{
if ( matchTablePointer.CompareF( byteString ) == 0 )
{
header = *KMmsExtensionHeaderLookup[i].assignedValue;
matchFound = ETrue;
}
i++;
matchTablePointer.Set( KMmsExtensionHeaderLookup[i].extensionHeader );
}
#ifndef _NO_MMSS_LOGGING_
// we do not leave because of logging.
TInt error = KErrNone;
TRAP( error,
{
// length - terminating zero
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
TPtrC dummy;
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Text header : %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
});
if ( error != KErrNone )
{
TMmsLogger::Log( _L("- Decode left when reading Text header, error: %d"), error );
}
#endif
if ( matchFound )
{
return header;
}
// If we could interpret text headers, it should be done here
// For now we just skip the field value without trying to interpret it.
// As we cannot interpret the header, we must skip the value.
// If a text header match was found in our table, we can interpret the header
// and we leave the value intact
if ( iPosition < iLength && header == -1 )
{
SkipFieldValue();
}
else
{
iError = KErrCorrupt;
}
return header;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
/*
// not used any more
void CMmsDecode::SkipTextString()
{
TUint8 byte;
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
// don't read beyond buffer
while ( byte != 0 && iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
}
return;
}
*/
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::SkipFieldValue()
{
TUint length;
length = GetValueLength();
#ifndef _NO_MMSS_LOGGING_
// This is an error situation, log always if logging allowed
TMmsLogger::Log( _L("- Skipped field value: %d bytes"), length);
#endif
#ifndef _NO_MMSS_LOGGING_
// this may produce a long log - but only if the message is weird
TUint i;
TUint8 byte;
TBuf<1> character;
for ( i = iPosition; i < iPosition + length && i < iLength; ++i )
{
iDecodeBuffer->Read(i, &byte, 1);
TUint16 word = byte;
if ( byte >= KMms0x20 && byte < KMms0x7F )
{
character.Copy( &word, 1 );
TMmsLogger::Log( _L("- 0x%02X %S"), byte, &character );
}
else
{
TMmsLogger::Log( _L("- 0x%02X"), byte );
}
}
#endif
iPosition += length;
// if iPosition == iLength, this was the last header, and we are not necessaily corrupted
// If the PDU contains only headers, and the last one is a text header whose value will be
// skipped, we are all right if iPosition == iLength.
if ( iPosition > iLength )
{
iError = KErrCorrupt;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::SkipParameterName()
{
TUint8 byte;
if ( iPosition >= iLength )
{
return;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
// byte cannot be bigger than 255. No need to test upper limit
if ( byte >= KMms0x80 )
{
// well known header, advance pointer and remove high bit
iPosition++;
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Skipped parameter: 0x%02X"), byte);
#endif
}
else
{
TPtrC8 byteString = GetByteString();
#ifndef _NO_MMSS_LOGGING_
// we don't leave because of logging
TInt error = KErrNone;
TRAP( error,
{
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
TPtrC dummy;
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Skipped parameter : %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
});
if ( error != KErrNone )
{
TMmsLogger::Log( _L("- Decode left when logging skipped parameter, error : %d"),
error );
}
#endif
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TUint32 CMmsDecode::GetUintvar()
{
TUint32 uintvar;
uintvar = 0;
TUint8 byte;
if ( iPosition >= iLength )
{
return uintvar;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
while ( byte & KMms0x80 && iPosition < iLength - 1 )
{
uintvar += ( byte & KMms0x7F );
uintvar <<= KMmsUintvarShift;
iPosition++;
iDecodeBuffer->Read(iPosition, &byte, 1);
}
// add last byte without shift
uintvar += byte;
iPosition++;
// If the file is corrupted, the length may be so big it becomes negative
// We must make sure the value is less than maximum signed 32-bit integer.
//
if ( uintvar > TUint32( KMaxTInt32 ) )
{
uintvar = TUint32( KMaxTInt32 );
}
return uintvar;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
HBufC16* CMmsDecode::DecodeFromL()
{
TUint8 byte = 0;
TUint length = 0;
TUint start;
start = iPosition;
length = GetValueLength();
// Get next token to see, if we have the address present token
if ( iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
}
if ( byte > KMms0x7F )
{
// an encoded token
// It must be address present or be insert address
iPosition++;
if ( iPosition >= iLength )
{
iError = KErrCorrupt;
return HBufC16::NewL( 0 );
}
// These two are the only two valid ones.
if ( byte != KMmsAddressPresentToken && byte != KMmsInsertAddressToken)
{
// this encoding is a mess.
// try if it resolves as an encoded string without
// these tokens
iPosition = start;
}
}
if ( length > 1 )
{
return DecodeAddressL();
}
else
{
return HBufC16::NewL( 0 );
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
HBufC16* CMmsDecode::DecodeAddressL()
{
HBufC16* buffer = NULL; // will be allocated by called subroutine
if ( iPosition >= iLength )
{
return HBufC16::NewL( 0 );
}
// always use GetEncodedTextStringL(), it handles simple text strings, too
buffer = GetEncodedTextStringL();
// If our address contains an appended type specification,
// it must be removed
TInt position;
TPtr temp = buffer->Des();
_LIT ( KDot, "." );
position = buffer->FindF( KMmsPlmnu().Ptr(), KMmsPlmnLength );
if ( position != KErrNotFound )
{
temp.SetLength( position );
// remove dots from phone number in order to keep
// plmn number and ipv4 number different.
position = temp.Find( KDot );
while ( position >= 0 )
{
temp.Delete( position, 1 );
position = temp.Find( KDot );
}
}
else
{
position = buffer->FindF( KMmsIpv4u().Ptr(), KMmsIpv4Length );
if ( position != KErrNotFound )
{
temp.SetLength( position );
}
else
{
position = buffer->FindF( KMmsIpv6u().Ptr(), KMmsIpv4Length );
if ( position != KErrNotFound )
{
temp.SetLength( position );
}
}
}
return buffer;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
HBufC16* CMmsDecode::GetSimpleTextStringL( TBool aKeepQuote /*= EFalse*/ )
{
// we don't handle quoted strings.
// they should be present only in application headers, and
// we don't handle those
TUint8 byte;
HBufC16* buffer = NULL; // we must know length before trying to allocate
TUint stringLength;
TChar character;
if ( iPosition >= iLength )
{
return HBufC16::NewL(0);
}
iDecodeBuffer->Read( iPosition, &byte, 1 );
if ( byte == 0 )
{
// empty string.
iPosition++;
return HBufC16::NewL(0);
}
if ( byte == KMmsQuote )
{
// skip quote
iPosition++;
if ( iPosition >= iLength )
{
return HBufC16::NewL(1);
}
iDecodeBuffer->Read( iPosition, &byte, 1 );
}
TBool foundQuote = EFalse;
if ( byte == KMmsStringQuote && !aKeepQuote )
{
// skip quote
iPosition++;
foundQuote = ETrue;
if ( iPosition >= iLength )
{
return HBufC16::NewL(0);
}
iDecodeBuffer->Read( iPosition, &byte, 1 );
}
stringLength = iPosition;
while ( byte != 0 && stringLength < iLength )
{
iDecodeBuffer->Read( stringLength, &byte, 1 );
stringLength++;
}
// The diffrence of pointers is the actual string length
// including the terminating zero.
stringLength -= iPosition;
if ( iPosition >= iLength )
{
return HBufC16::NewL(0);
}
iDecodeBuffer->Read( iPosition, &byte, 1 );
if ( byte == 0 )
{
// Empty string. Only terminating zero.
// Must point past the terminating zero at exit
iPosition++;
}
// Allocate buffer for unicode.
// Check if this is too long,
// (allocating just stringLength left or panicked...)
buffer = HBufC16::NewL( stringLength*KMms2 + KMms2 );
while ( byte != 0 && iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
if ( byte != 0 )
{
character = byte;
buffer->Des().Append( character );
}
iPosition++;
}
if ( foundQuote && buffer->Des().Right( 1 ).Compare( KQuote16 ) == 0 )
{
// if we removed the leading quote, we remove the trailing quote, too.
buffer->Des().Delete( buffer->Des().Length() - 1, 1 );
}
return buffer;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
HBufC16* CMmsDecode::GetEncodedTextStringL()
{
TUint8 byte;
HBufC16* buffer = NULL; // we must know length before trying to allocate
TUint stringLength = 0;
TUint32 charset = 0;
TUint start;
if (iPosition >= iLength )
{
iError = KErrCorrupt;
buffer = HBufC16::NewL(0);
return buffer;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
if ( ( byte > KMms31 && byte < KMms0x80 ) || byte == 0 )
{
// simple text string. Restart.
// (includes empty strings)
// Keep quote because these are strange strings that may contain any
// number of quotes all over the place
buffer = GetSimpleTextStringL( ETrue );
// check if this looks like it needs decoding of MIME stuff (RFC2047)
if ( buffer->Des().FindF( KEqualsQuestion16 ) == KErrNotFound )
{
return buffer;
}
else
{
// contains the magic equals-question mark combination,
// try if MIME decoding succeeds
CleanupStack::PushL( buffer );
HBufC8* buffer8 = HBufC8::NewL( buffer->Des().Length() );
buffer8->Des().Copy( buffer->Des() );
CleanupStack::PushL( buffer8 );
TPtr pointer = buffer->Des();
TRAPD( error,
TMmsGenUtils::DecodeAndConvertMessageHeaderL( buffer8->Des(), pointer, iFs ) );
if ( error != KErrNone )
{
// if did not succeed, keep original as is
buffer->Des().Copy( buffer8->Des() );
}
CleanupStack::PopAndDestroy( buffer8 );
CleanupStack::Pop( buffer );
return buffer;
}
}
iPosition++;
if (iPosition >= iLength )
{
iError = KErrCorrupt;
buffer = HBufC16::NewL(0);
return buffer;
}
if ( byte >= KMms0x80 )
{
// the message is corrupted.
iError = KErrCorrupt;
buffer = HBufC16::NewL(0);
return buffer;
}
if ( byte == KMms31 )
{
stringLength = GetUintvar();
}
else
{
stringLength = byte;
}
// Get character set
// Character set must be an integer, short or long
// check if character set is missing
charset = GetLongOrShortInteger();
#ifndef _NO_MMSS_LOGGING_
if ( charset != 0 )
{
TMmsLogger::Log( _L("- Encoded string charset %d"), charset );
}
#endif
if ( iPosition >= iLength || iError == KErrCorrupt )
{
iError = KErrCorrupt;
buffer = HBufC16::NewL(0);
return buffer;
}
// Get text length whatever character set
iDecodeBuffer->Read(iPosition, &byte, 1);
if ( byte == KMmsQuote )
{
// skip quote
iPosition++;
if (iPosition < iLength)
{
iDecodeBuffer->Read(iPosition, &byte, 1);
}
}
start = iPosition;
stringLength = 0;
TBool foundQuote = EFalse;
// Leave quote as is.
// It has turned out that we do not get quoted strings in the WSP format
// with leading quote only. We tend to get either both the leading and
// trailing quote or none at all, so we better not remove the quote.
// If we start seeing WSP quoted strings, we must start checking that
// leading and trailing quotes match.
/*
if ( byte == KMmsStringQuote )
{
// skip quote
iPosition++;
start++;
foundQuote = ETrue;
}
*/
while ( byte != 0 && iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
stringLength++;
}
// stringLength includes the terminating zero
// allocate buffer for unicode
// this should be the maximum we'll ever need
if ( stringLength == 0 )
{
// The length of the string == 0
// This is an empty string
// I'm not sure if it is legal or not - but we keep it anyway
if ( iPosition == start )
{
// we did not read anything, the first byte was 0.
// we must advance out pointer beyond it
iPosition++;
}
buffer = HBufC16::NewL(0);
return buffer;
}
stringLength--; // remove the terminating zero
buffer = HBufC16::NewL( stringLength * KMms2 );
if ( stringLength == 0 )
{
// buffer has zero length
// I assume this is an empty string
// I'm not sure if it is legal or not
return buffer;
}
if ( charset == KMmsUtf8 )
{
TPtr8 pointer( iDecodeBuffer->Ptr( start ) );
pointer.SetLength( stringLength );
TInt error;
TPtr16 pointer16 = buffer->Des();
error = CnvUtfConverter::ConvertToUnicodeFromUtf8( pointer16, pointer );
// should check error
if ( error != KErrNone )
{
buffer->Des().Copy( pointer ) ; // could not convert, just copy garbage
}
}
else
{
// other character sets to be implemented...
TPtr8 pointer( iDecodeBuffer->Ptr( start ) );
pointer.SetLength( stringLength );
buffer->Des().Copy( pointer ) ; // just copy without conversion
}
if ( foundQuote && buffer->Des().Right( 1 ).Compare( KQuote16 ) == 0 )
{
// if we removed the leading quote, we remove the trailing quote, too.
buffer->Des().Delete( buffer->Des().Length() - 1, 1 );
}
return buffer;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TPtrC8 CMmsDecode::GetByteString()
{
TUint8 byte = 0;
if ( iPosition < iLength )
{
iDecodeBuffer->Read( iPosition, &byte, 1 );
}
else
{
return TPtrC8();
}
TUint start = iPosition;
TUint length = 0;
if ( byte == 0 )
{
// Empty string, skip over terminating zero.
// Empty string may or may not be legal - we must
// be prepared to accept it.
// The caller must decide if empty value is legal or not.
iPosition++;
return TPtrC8();
}
TBool foundQuote = EFalse;
if ( ( byte >= KMms32 ) && ( byte <= KMms0x7F ) )
{
if ( byte == KMmsStringQuote )
{
// skip quote
iPosition++;
start++;
foundQuote = ETrue;
}
else if ( byte == KMmsQuote )
{
// We are not supposed to have a string starting with quote here
// but we must be careful and strip the quote in case one exists.
// skip quote
iPosition++;
start++;
}
// don't read beyond buffer
// byte is between 32 and 127 when we come here.
while ( byte != 0 && iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
}
// now iPosition points beyond terminating zero - if there is one
length = iPosition - start;
if ( length > 1 )
{
// remove terminating zero if there is one
length--;
}
// If we got a end-of-string immediately after string quote,
// we have nothing left here.
// Or even worse - we have not even the terminating zero
if ( length < 1 )
{
return TPtrC8();
}
TPtr8 pointer( iDecodeBuffer->Ptr( start ) );
pointer.SetLength( length );
// Length is at least one, it was just checked.
if ( foundQuote && ( pointer.Right( 1 )[0] == KMmsStringQuote ) )
{
length--; // decrease length to remove end quote
}
pointer.SetLength( length );
return TPtrC8( pointer );
}
else
{
SkipFieldValue();
return TPtrC8();
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TPtrC8 CMmsDecode::GetUtf8String()
{
TUint8 byte = 0;
if ( iPosition < iLength )
{
iDecodeBuffer->Read( iPosition, &byte, 1 );
}
else
{
return TPtrC8();
}
TUint start = iPosition;
TUint length = 0;
if ( byte == 0 )
{
// Empty string, skip over terminating zero.
// Empty string may or may not be legal - we must
// be prepared to accept it.
// The caller must decide if empty value is legal or not.
iPosition++;
return TPtrC8();
}
if ( byte == KMmsQuote )
{
// skip quote
iPosition++;
start++;
}
// don't read beyond buffer
while ( byte != 0 && iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
}
// now iPosition points beyond terminating zero
length = iPosition - start - 1;
// If we got a end-of-string immediately after string quote,
// we have nothing left here.
if ( length < 1 )
{
return TPtrC8();
}
TPtr8 pointer( iDecodeBuffer->Ptr( start ) );
pointer.SetLength( length );
return TPtrC8( pointer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TUint32 CMmsDecode::GetLongOrShortInteger()
{
TUint8 byte;
TUint32 integer = 0;
if ( iPosition >= iLength )
{
return integer;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
if ( byte & KMms0x80 )
{
integer = byte & KMms0x7F;
return integer;
}
if ( byte > KMms30 )
{
// Data is corrupted.
iError = KErrCorrupt;
return integer;
}
if ( byte > KMmsMaxIntegerLength )
{
// too long.
iError = KErrTooBig;
iPosition--;
// It the caller thinks retry is possible, he must store the
// original starting position.
// So far no case has been found where the retry with very long
// integer would be needed.
SkipFieldValue();
return integer;
}
TUint i;
TUint length;
length = byte;
for ( i = 0; i < length && iPosition < iLength; ++i)
{
integer <<= KMmsBitsInByte;
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
integer += byte;
}
return integer;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TInt64 CMmsDecode::GetVeryLongInteger()
{
TUint8 byte;
TInt64 veryLongInteger;
veryLongInteger = 0;
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
if ( byte & KMms0x80 )
{
veryLongInteger = byte & KMms0x7F;
return veryLongInteger;
}
if ( byte > KMms30 )
{
// data is corrupted.
iError = KErrCorrupt;
return veryLongInteger;
}
if ( byte > KMmsMaxLongIntegerLength )
{
// too long.
iError = KErrTooBig;
iPosition--;
// caller may do whatever he wants, or skip whole field
return veryLongInteger;
}
TUint i;
TUint length;
length = byte;
for ( i = 0; i < length && iPosition < iLength; ++i)
{
veryLongInteger <<= KMmsBitsInByte;
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
veryLongInteger += TUint( byte );
}
return veryLongInteger;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TUint8 CMmsDecode::GetWellKnownFieldValueOrSkip()
{
TUint8 byte;
byte = 0;
iDecodeBuffer->Read(iPosition, &byte, 1);
// Interpret the length of the field
// one byte encoded value, this field has no more data
if ( byte >= KMms0x80 )
{
iPosition++;
return byte;
}
// if not one byte token, skip it
SkipFieldValue();
return byte; // this is < 128, which is never a legal token
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TUint8 CMmsDecode::GetRelativeOrAbsoluteTime( TInt64& aTime )
{
TUint8 byte;
TInt length;
// we don't use the length, we just skip it
length = GetValueLength();
if ( ( iPosition + length ) > iLength || iPosition >= iLength )
{
iPosition = iLength;
aTime = 0;
byte = 0;
iError = KErrCorrupt;
return byte;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
if ( ( byte != KMmsAbsoluteToken ) && ( byte != KMmsRelativeToken ) )
{
// illegal encoding, skip.
iPosition += length;
byte = 0;
aTime = 0;
return byte;
}
iPosition++;
if ( iPosition >= iLength )
{
iError = KErrCorrupt;
byte = 0;
aTime = 0;
return byte;
}
aTime = GetVeryLongInteger();
return byte;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TUint CMmsDecode::GetValueLength()
{
TUint8 byte;
TUint length = 0;
if ( iPosition >= iLength )
{
return 0;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
// Interpret the length of the field
// one byte encoded value, this field has no more data
if ( byte >= KMms0x80 )
{
length = 1;
return length;
}
// text string
// ( byte >= 128 returned already, so byte must be <=127 if we are here )
if ( byte >= KMms32 )
{
// find the end
length = iPosition;
while ( byte != 0 && length < iLength )
{
iDecodeBuffer->Read(length, &byte, 1);
length++;
}
// The difference of pointers is the actual string length
length -= iPosition;
return length;
}
// octet followed by a uintvar
if ( byte == KMms31 )
{
iPosition++;
// uintvar can be max 5 bytes, max value of
// result is 32 bits.
// get uintvar
if ( iPosition < iLength )
{
length = GetUintvar();
}
return length;
}
// remains: octets 0 - 30
// octet followed by the indicated number of data octets
iPosition++;
length = byte;
return length;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TBool CMmsDecode::CheckHeaderLength()
{
TInt oldPosition = iPosition;
TBool retVal = ETrue; // optimistic
TUint8 byte;
TBool checkUintvarData = ETrue;
if ( iPosition < iLength )
{
// read first byte for some special checks
iDecodeBuffer->Read( iPosition, &byte, 1 );
}
else
{
return EFalse;
}
if ( iDecodingStage == EMmsAttachmentHeaders )
{
if ( ( byte & KMms0x80 ) && ( ( byte & KMms0x7F ) == KWspQValue ) )
{
// Quality factor in attachment headers has strange encoding
checkUintvarData = EFalse;
}
}
// check header first - uintvar data included
retVal = CheckValueLength( ETrue );
// The position of the pointer is at the end of the header name
// if the whole header name is in the buffer
// Check the length of the header
if ( retVal )
{
retVal = CheckValueLength( checkUintvarData );
}
if ( iDecodingStage == EMmsHeaders )
{
if ( byte == KMmsAssignedContentType && retVal )
{
// we need to have an uintvar specifying the number of attachments
// to follow content type header
retVal = CheckUintvarLength();
}
}
// always restore the pointer for decoding
iPosition = oldPosition;
return retVal;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TBool CMmsDecode::CheckValueLength( TBool aCheckUintvarData )
{
TBool retVal = ETrue; // optimistic
TUint8 byte;
TUint length = 0;
if ( iPosition >= iLength )
{
return EFalse;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
// Interpret the length of the field
if ( byte >= KMms0x80 )
{
// one byte encoded value, this field has no more data
iPosition++;
}
else if ( byte >= KMms32 )
{
// text string - find the end
while ( byte != 0 && iPosition < iLength )
{
iDecodeBuffer->Read( iPosition, &byte, 1 );
iPosition++;
}
if ( byte != 0 )
{
// we reached the end of the buffer without finding the terminating 0
// there is not enough data
retVal = EFalse;
}
}
else if ( byte == KMms31 )
{
// octet followed by a uintvar
iPosition++;
// get all bytes belonging to uintvar first to see if we have them all.
TInt uintvarStart = iPosition;
if ( CheckUintvarLength() )
{
// we have an uintvar, do we have all the following bytes
if ( aCheckUintvarData )
{
iPosition = uintvarStart;
// we are asked to check the data, too
length = GetUintvar();
if ( ( iLength - iPosition ) < length )
{
retVal = EFalse;
}
else
{
iPosition += length;
}
}
}
else
{
// we did not even have the uintvar let alone the data following it
retVal = EFalse;
}
}
else
{
// remains: octets 0 - 30
// octet followed by the indicated number of data octets
iPosition++;
length = byte;
if ( ( iLength - iPosition ) < length )
{
retVal = EFalse;
}
else
{
iPosition += length;
}
}
return retVal;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TBool CMmsDecode::CheckUintvarLength()
{
TBool retVal = ETrue; // optimistic
TUint8 byte;
if ( iPosition >= iLength )
{
return EFalse;
}
// get all bytes belonging to uintvar to see if we have them all.
iDecodeBuffer->Read( iPosition, &byte, 1 );
while ( byte & KMms0x80 && iPosition < iLength - 1 )
{
iPosition++;
iDecodeBuffer->Read(iPosition, &byte, 1);
}
iPosition++;
if ( byte & KMms0x80 )
{
// if byte still has high bit set, we have not found
// the end of the uintvar -> there is not enough data
retVal = EFalse;
}
return retVal;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TPtrC8 CMmsDecode::GetContentTypeL()
{
TUint8 byte;
TPtrC8 pointer = TPtrC8();
if ( iPosition >= iLength )
{
iError = KErrCorrupt;
return pointer;
}
iDecodeBuffer->Read(iPosition, &byte, 1);
// Test if it is a well-known media type
if ( byte >= KMms0x80 )
{
iPosition++; // skip the content type byte
byte &= KMms0x7F; // remove the short integer identifier bit
if ( ( byte == KMmsAssignedTextPlain ) )
{
// The beginning of the first text/plain part is used
// to generate a description of the message, if
// no real subject is available.
// Save the starting point of corresponding data.
if ( iDataStart < iLength )
{
iFakeSubject = iDataStart;
}
iUseForSubject = ETrue;
// count the number of plain text attas.
// We use iFakeSubject only if iPlainTexts == 1
iPlainTexts++;
}
// encoded value
if ( byte < KNumberContentTypes )
{
pointer.Set( KContentTypeTable[byte] );
}
else
{
pointer.Set( KContentTypeTable[KMmsUnAssigned] );
}
return pointer;
}
// Test if it is a text string without parameters
// ( byte >= 128 returned already, byte is <= 127 if we get here )
if ( byte >= KMms32 )
{
// text string
return GetByteString();
}
// We have the worst case left:
// Content-General-Form = Value-length Media-Type
TUint mediaLength = 0;
mediaLength = GetValueLength();
TUint start = iPosition;
if ( iPosition < iLength )
{
pointer.Set( GetContentTypeL() ); // We call ourselves.
}
// Now we should get the parameters, but we know nothing of
// parameters. For now we just throw them away.
// The handling of parameters of specific media types needs more study
// The only parameter we care about now is charset.
// its coding should be well-known
while ( iPosition < start + mediaLength && iPosition < iLength )
{
iDecodeBuffer->Read( iPosition, &byte, 1 );
if ( ( byte & KMms0x80 ) && ( ( byte & KMms0x7F ) == KWspCharset ) )
{
iPosition++;
TUint32 charset;
charset = GetLongOrShortInteger();
iMimeHeaders->SetMimeCharset( charset );
// if this is the part possibly used to generate
// our fake subject, save the character set.
if ( iFakeSubject == iDataStart )
{
iCharacterSet = charset;
}
}
else if ( ( byte & KMms0x80 ) && ( ( byte & KMms0x7F ) == KWspName ) )
{
iPosition++;
// Get name parameter to be suggestion of filename
iMimeHeaders->ContentTypeParams().AppendL( KWspNameString );
iMimeHeaders->ContentTypeParams().AppendL( GetByteString() );
}
else if ( ( byte & KMms0x80 ) && ( ( byte & KMms0x7F ) == KWspQValue ) )
{
iPosition++;
// value encoded as Uintvar, must skip differently than others.
GetUintvar();
}
else
{
if ( byte >= KMms0x20 && byte <= KMms0x7F )
{
// text string, save as content type parameter
// If we don have a pair of two text strings, the message is illegal
// The code will probably leave at some point
iMimeHeaders->ContentTypeParams().AppendL( GetByteString() );
iMimeHeaders->ContentTypeParams().AppendL( GetByteString() );
}
else
{
// skip
SkipParameterName();
SkipFieldValue();
}
}
}
iPosition = start + mediaLength;
return pointer;
}
// ---------------------------------------------------------
// If the content type is multipart, pointer will be positioned
// to the start of the multipart block (The first attachment)
// ---------------------------------------------------------
//
TUint8 CMmsDecode::GetMultipartContentTypeL()
{
TUint8 byte;
#ifndef _NO_MMSS_LOGGING_
TPtrC dummy;
#endif
iMultipartRootType.Set( TPtrC8() ); // clear contents
iDecodeBuffer->Read(iPosition, &byte, 1);
// Test if it is a well-known media type.
if ( byte >= KMms0x80 )
{
byte &= KMms0x7F; // remove the short integer identifier bit
// Test if it is a multipart type.
if ( ( byte >= KMmsAssignedApplicationVndWapMultipart &&
byte <= KMmsAssignedApplicationVndWapMultipartAlternative ) ||
( byte == KMmsAssignedApplicationVndWapMultipartRelated ) )
{
iPosition++; // skip the content type byte
// Get number of parts in multipart
iNumberOfAttachments = GetUintvar();
}
else
{
byte = 0;
iNumberOfAttachments = 1;
}
// No more data in this header.
// For example multipart/mixed has no parameters
return byte;
}
// if we get here byte is <= 127
if ( byte >= KMms32 )
{
// text string, we don't even try to analyze it.
// Nobody should send a well-known media type as a text string,
// and if it is not a well-known type, we don't know what
// to do with it, it will be treated as a monoblock
byte = 0;
iNumberOfAttachments = 1;
return byte;
}
// The most complicated case: Content-General Form
// Content-General-Form = Value-length Media-Type
// we save the position in case this is monoblock and
// we must keep the old position to get the content type for
// the attachment.
TUint oldPosition = iPosition;
TUint mediaLength = 0;
mediaLength = GetValueLength();
TUint start = iPosition;
byte = 0;
if ( iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
}
else
{
iNumberOfAttachments = 0;
return 0;
}
if ( byte >= KMms0x80 )
{
byte &= KMms0x7F; // remove the short integer identifier bit
// Test if it is a multipart type.
if ( ( byte >= KMmsAssignedApplicationVndWapMultipart &&
byte <= KMmsAssignedApplicationVndWapMultipartAlternative ) ||
( byte == KMmsAssignedApplicationVndWapMultipartRelated ) )
{
iPosition++; // skip the content type byte
}
else
{
// Not a multipart we can handle
byte = 0;
iNumberOfAttachments = 1;
// point back to start of header
// parameters will belong to the attachment
iPosition = oldPosition;
return byte;
}
}
else
{
// text string, we don't even try to analyze it.
// Nobody should send a well-known media type as a text string,
// and if it is not a well-known type, we don't know what
// to do with it, it will be treated as a monoblock
TPtrC8 mediatype = GetByteString();
if ( mediatype.CompareF( KMmsWapMultipartReport ) == 0 )
{
byte = KMmsAssignedApplicationVndWapMultipartReport;
}
else
{
byte = 0;
iNumberOfAttachments = 1;
// point back to start of header
// parameters will belong to the attachment
iPosition = oldPosition;
return byte;
}
}
// If we get here we have a WSP type multipart.
// We must still extract the parameters of the content type
// If we have multipart/related, we have start parameter.
// We must also try to extract Application-Id and Reply-To-Application-ID
// in case Java has added them.
// We don't care about the others now.
TInt header;
TPtrC8 contentHeader; // parameter name in case it is a string
while ( iPosition < start + mediaLength && iPosition < iLength )
{
header = GetContentHeaderName( contentHeader );
if ( header == KWspStart )
{
// Now we must get the content-id of the root part
// and save it temporarily. We can get the actual
// TMsvId for the attachment only by comparing the
// Content-Id parameters of the attachments to the
// saved root-id.
TPtrC8 pointer = GetByteString();
if ( pointer.Find( KMmsLeftAngle ) == 0 &&
pointer.Find( KMmsRightAngle ) == pointer.Length() - 1 )
{
// remove angle brackets from cid, 2 characters removed
pointer.Set( pointer.Mid( 1, pointer.Length() - KMms2 ) );
}
delete iRootContentIdBuffer;
iRootContentIdBuffer = NULL;
iRootContentIdBuffer = HBufC8::NewL( pointer.Length() );
iRootContentIdBuffer->Des().Copy( pointer );
iRootContentId.Set( iRootContentIdBuffer->Des() );
}
else if ( header == KWspQValue )
{
// value encoded as Uintvar, must skip differently than others.
GetUintvar();
}
else if ( header == KWspRelatedType )
{
// get content type
iMultipartRootType.Set( GetContentTypeL() );
}
else if ( header == KMmsTextHeader )
{
// see if this is Java application id
if ( contentHeader.CompareF( KMmsJavaApplicationId ) == 0 )
{
DecodeApplicationIdL();
}
else if ( contentHeader.CompareF( KMmsJavaReplyApplicationId ) == 0 )
{
DecodeReplyApplicationIdL();
}
else
{
// something we don't handle
#ifndef _NO_MMSS_LOGGING_
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( contentHeader.Length() );
buffer->Des().Copy( contentHeader );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Text header: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
buffer = NULL;
#endif
SkipFieldValue();
}
}
else
{
// skip
// If the caller has messed things up and sent "start"
// as a text string, we will miss it...
// GetContentHeaderName always skips the header name.
// if header < 0, the field has already been skipped
if ( header >= 0 )
{
SkipFieldValue();
}
}
}
iPosition = start + mediaLength;
iNumberOfAttachments = GetUintvar();
return byte;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::GetAttachmentContentTypeL()
{
TPtrC8 byteString;
#ifndef _NO_MMSS_LOGGING_
HBufC16* buffer = NULL;
TPtrC dummy;
#endif
// get content type
byteString.Set( GetContentTypeL() );
TInt semicolonPosition = 0;
TInt position = 0;
semicolonPosition = byteString.FindF( KSemicolon8 );
// check if this content type has been sent to us as a string containing
// parameters
if ( semicolonPosition != KErrNotFound && semicolonPosition != 0 )
{
TInt endString = ( byteString.Left( semicolonPosition ).FindF( KSpace8 ) );
if ( endString == KErrNotFound )
{
endString = semicolonPosition;
}
// First part of string is actual content-type header,
// trailing blanks removed.
// If the string was total garbage like "type huh;hei=hui",
// the result will be wrong, but that cannot be helped if the input
// is not legal.
// The following should be OK
// "application/type ;param1=value1
TPtrC8 contentType = byteString.Left( endString );
position = contentType.Find( KMmsSlash8 );
if ( position <= 0 || position == contentType.Length() )
{
// weird string - no subtype, keep as is
iMimeHeaders->SetContentTypeL( contentType );
}
else
{
iMimeHeaders->SetContentTypeL( contentType.Left( position ) );
iMimeHeaders->SetContentSubTypeL( contentType.Mid( position + 1 ) );
}
// get the rest of the stuff as parameters
ExtractContentTypeParametersL( byteString.Mid( semicolonPosition + 1 ) );
}
else
{
// If first character is semicolon, the content type is garbage anyway,
// and we keep it "as is"
position = byteString.Find( KMmsSlash8 );
if ( position <= 0 || position == byteString.Length() )
{
// weird string - no subtype, keep as is
iMimeHeaders->SetContentTypeL( byteString );
}
else
{
iMimeHeaders->SetContentTypeL( byteString.Left( position ) );
iMimeHeaders->SetContentSubTypeL( byteString.Mid( position + 1 ) );
}
}
// if attachment subtype is "smil" or "amr", increase respective counter.
if ( iMimeHeaders->ContentSubType().CompareF( KMmsSmilSubtype ) == 0 )
{
iSmilCount++;
}
else if ( iMimeHeaders->ContentType().CompareF( KMmsAudioType ) == 0 )
{
if ( iMimeHeaders->ContentSubType().CompareF( KMmsAudioSubtype ) == 0 )
{
iAudioCount++;
}
else if ( iMimeHeaders->ContentSubType().CompareF( KMmsAudioSubtype2 ) == 0 )
{
// Change the subtype because the x-amr is not supported
iMimeHeaders->SetContentSubTypeL( KMmsAudioSubtype );
iAudioCount++;
}
else
{
// do nothing - keep LINT happy
}
}
else
{
// do nothing - keep LINT happy
}
#ifndef _NO_MMSS_LOGGING_
if ( semicolonPosition > 0 )
{
byteString.Set( byteString.Left( semicolonPosition ) );
}
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Content Type: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
if ( iMimeHeaders->MimeCharset() != 0 )
{
TMmsLogger::Log( _L("- Character set: %d"), iMimeHeaders->MimeCharset() );
}
if ( iMimeHeaders->ContentTypeParams().MdcaCount() > 0 )
{
TInt i;
// we increment by 2 because every other value is parameter name
// and every othe one the value
for ( i = 0; i < iMimeHeaders->ContentTypeParams().MdcaCount(); i += KMms2 )
{
HBufC16* buffer2 = NULL;
buffer = HBufC16::NewLC(
iMimeHeaders->ContentTypeParams().MdcaPoint( i ).Length() );
buffer->Des().Copy( iMimeHeaders->ContentTypeParams().MdcaPoint( i ) );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
if ( i + 1 < iMimeHeaders->ContentTypeParams().MdcaCount() )
{
buffer2 = HBufC16::NewLC(
iMimeHeaders->ContentTypeParams().MdcaPoint( i + 1 ).Length() );
TPtrC dummy2;
buffer2->Des().Copy( iMimeHeaders->ContentTypeParams().MdcaPoint( i + 1 ) );
dummy2.Set( buffer2->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- %S: %S"), &dummy, &dummy2 );
CleanupStack::PopAndDestroy( buffer2 );
}
else
{
TMmsLogger::Log( _L("- %S"), &dummy );
}
CleanupStack::PopAndDestroy( buffer );
}
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeOneContentHeaderL()
{
TInt header;
HBufC16* buffer = NULL;
TUint8 byte = 0;
TPtrC8 contentHeader; // content header in case it is a string
#ifndef _NO_MMSS_LOGGING_
TPtrC dummy;
#endif
header = GetContentHeaderName( contentHeader );
if ( header < 0 )
{
return; // skip unknown
}
// Get the corresponding value
switch ( header )
{
case KWspContentLocation:
{
// I hope this is a simple text string. we cannot handle
// different character sets in this context.
buffer = GetSimpleTextStringL(); // we might try to convert from utf8 to unicode
CleanupStack::PushL( buffer );
iMimeHeaders->SetContentLocationL( buffer->Des() );
CleanupStack::PopAndDestroy( buffer );
buffer = NULL;
#ifndef _NO_MMSS_LOGGING_
buffer = HBufC16::NewLC( iMimeHeaders->ContentLocation().Length() );
buffer->Des().Copy( iMimeHeaders->ContentLocation() );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Content location: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
break;
}
case KWspContentId:
{
TPtrC8 pointer = GetByteString();
if ( pointer.Find( KMmsLeftAngle ) == 0 &&
pointer.Find( KMmsRightAngle ) == pointer.Length() - 1 )
{
// remove angle brackets from cid, 2 characters removed
pointer.Set( pointer.Mid( 1, pointer.Length() - KMms2 ) );
}
iMimeHeaders->SetContentIdL( pointer );
if ( iAttaNumber == 1 &&
iMultipartType == KMmsAssignedApplicationVndWapMultipartRelated &&
iRootContentId.Length() == 0 )
{
iRootContentId.Set( pointer );
}
#ifndef _NO_MMSS_LOGGING_
buffer = HBufC16::NewLC( iMimeHeaders->ContentId().Length() );
buffer->Des().Copy( iMimeHeaders->ContentId() );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Content Id: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
break;
}
case KWspContentDisposition:
{
TUint length;
length = GetValueLength();
TUint currentPosition = iPosition;
if ( iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
}
if ( byte >= KMms0x80 )
{
// well known header
iPosition++;
byte &= KMms0x7F;
if ( byte == KWspAttachment )
{
iMimeHeaders->SetContentDispositionL( KWspAttachmentString );
}
else if ( byte == KWspInline )
{
iMimeHeaders->SetContentDispositionL( KWspInlineString );
}
// never mind others - might be form-data or something unknown
else
{
// do nothing - keep LINT happy
}
}
else
{
// string - use as is
TPtrC8 pointer = GetByteString();
iMimeHeaders->SetContentDispositionL( pointer );
}
#ifndef _NO_MMSS_LOGGING_
buffer = HBufC16::NewLC( iMimeHeaders->ContentDisposition().Length() );
buffer->Des().Copy( iMimeHeaders->ContentDisposition() );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Content Disposition: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
// now try to see if we have filename parameter
while ( iPosition < ( currentPosition + length ) && iPosition < iLength )
{
byte = 0; // clean out old data
iDecodeBuffer->Read(iPosition, &byte, 1);
if ( byte >= KMms0x80 )
{
// well known parameter
iPosition++;
byte &= KMms0x7F;
if ( byte == KWspFileName )
{
// this might contain some strange encodings (against specs.)
// should be checked
TPtrC8 pointer = GetByteString();
iMimeHeaders->ContentDispositionParams().AppendL( KWspFilenameString );
iMimeHeaders->ContentDispositionParams().AppendL( pointer );
#ifndef _NO_MMSS_LOGGING_
buffer = HBufC16::NewLC( pointer.Length() );
buffer->Des().Copy( pointer );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- filename: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
}
else
{
SkipFieldValue();
}
}
else
{
// if "filename" has been sent as string, we skip it
if ( byte >= KMms0x20 && byte <= KMms0x7F )
{
// text string, save as content type parameter
// If we don have a pair of two text strings, the message is illegal
// The code will probably leave at some point
iMimeHeaders->ContentDispositionParams().AppendL( GetByteString() );
iMimeHeaders->ContentDispositionParams().AppendL( GetByteString() );
}
else
{
// skip
SkipParameterName();
SkipFieldValue();
}
}
}
iPosition = currentPosition + length;
if ( iPosition >= iLength )
{
iError = KErrCorrupt;
}
break;
}
case KMmsTextHeader:
{
// contentHeader points to the textual header
#ifndef _NO_MMSS_LOGGING_
// we don't leave just for logging
TInt error = KErrNone;
TRAP( error,
{
buffer = NULL;
buffer = HBufC16::NewLC( contentHeader.Length() );
buffer->Des().Copy( contentHeader );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Textual content header: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
};);
if ( error != KErrNone )
{
TMmsLogger::Log( _L("- Decode left when logging content header, error : %d"),
error );
}
#endif
if ( contentHeader.FindF( KMmsExtension ) == 0 )
{
// extension header, store to mime headers, get corresponding parameter
// and store to MIME headers
TPtrC8 pointer = GetByteString();
iMimeHeaders->XTypeParams().AppendL( contentHeader ); // header name
iMimeHeaders->XTypeParams().AppendL( pointer ); // header value
#ifndef _NO_MMSS_LOGGING_
buffer = HBufC16::NewLC( pointer.Length() );
buffer->Des().Copy( pointer );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- extension header value: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
}
else
{
SkipFieldValue();
}
break;
}
default:
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Unknown content header: 0x%02X"), header );
#endif
SkipFieldValue();
break;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TInt CMmsDecode::GetContentHeaderName( TPtrC8& aTextHeader )
{
TInt header;
header = -1; // unknown
aTextHeader.Set( TPtrC8() ); // empty string
TUint8 byte;
if ( iPosition < iLength )
{
iDecodeBuffer->Read(iPosition, &byte, 1);
}
else
{
return header;
}
// byte cannot be bigger than 255. No need to test upper limit
if ( byte >= KMms0x80 )
{
// well known header, advance pointer and remove high bit
iPosition++;
header = (byte & KMms0x7F);
return header;
}
else
{
TPtrC8 pointer = GetByteString();
aTextHeader.Set( pointer );
header = KMmsTextHeader; // this will cover X-headers
if ( pointer.CompareF( KWspContentIdString ) == 0 )
{
header = KWspContentId;
}
}
// To handle X-headers and Java apllication id parameters,
// the text string is offered to caller.
// The header has been set to KMmsTextHeader to indicate that the field value
// is still available.
if ( ( header < 0 ) && ( iPosition < iLength ) )
{
SkipFieldValue();
}
return header;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
//
void CMmsDecode::DecodeOneAttachmentL()
{
DecodeAttachmentHeadersL();
// We must be able to handle an empty message without panic
if ( iCurrentAttaLength == 0 )
{
// if attachment length == 0, do not create an attachment
return;
}
TMsvAttachmentId attachmentId = 0;
TInt32 drmFlags = 0;
TPtrC8 attaData;
if ( iPosition >= iLength )
{
iCurrentAttaLength = 0;
}
attaData.Set( iDecodeBuffer->Ptr( iPosition ).Ptr(), iCurrentAttaLength );
TInt size = 0;
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Attachment creation starts %S"), &iParse.FullName() );
#endif
if ( iError == KErrNone )
{
iError = iEntryWrapper->CreateFileAttachmentL(
*iStore,
iParse.NameAndExt(),
attaData,
*iMimeHeaders,
attachmentId,
size,
drmFlags);
}
#ifndef _NO_MMSS_LOGGING_
if ( iError == KErrNone )
{
TRAP_IGNORE({
MMsvAttachmentManager& attaMan = iStore->AttachmentManagerL();
CMsvAttachment* attaInfo = attaMan.GetAttachmentInfoL( attachmentId );
TMmsLogger::Log( _L("- Attachment created %S"), &attaInfo->FilePath() );
delete attaInfo;
attaInfo = NULL;
});
}
#endif
iDRMFlags |= drmFlags;
if ( iError == KMmsErrorRemoveDRM )
{
// The attachment was not saved, but we can continue
iError = KErrNone;
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- DRM attachment removed") );
#endif
}
else if ( iError == KErrNone )
{
if ( ( iMultipartType == KMmsAssignedApplicationVndWapMultipartRelated ) &&
( iRootContentId.Length() > 0 ) &&
( iRootAttachmentId == 0 ) )
{
// check if content-id's match
if ( iRootContentId.Compare( iMimeHeaders->ContentId() ) == 0 )
{
iRootAttachmentId = attachmentId;
}
}
iTotalSize += size;
}
else
{
// do nothing - keep LINT happy
}
if ( iDataStart == iFakeSubject )
{
iTextPlainLength = iCurrentAttaLength;
}
// if doing dumping, also dump the smil part to a file
// Note: this modifies iFileName, but our original file was closed already
#ifndef _NO_MMSS_LOGGING_
DumpSmil( iCurrentAttaLength );
#endif
iPosition = iNextStart;
if ( iMultipartType == KMmsAssignedApplicationVndWapMultipartReport )
{
// If we have a multipart/report, we ignore the rest of attachments
iNumberOfAttachments = 1;
iPosition = iLength;
}
CompleteSelf( iError );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeAttachmentHeadersL()
{
TUint32 headersLength = 0;
iCurrentAttaLength = 0;
iAttaNumber++; // starts fron zero, is 1 after first increment
TInt error = KErrNone; // temporary error
#ifndef _NO_MMSS_LOGGING_
TPtrC dummy;
#endif
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Attachment #%d"), iAttaNumber );
#endif
// we may have a multipart structure or a single monoblock data body
// we handle both here.
// The momoblock structure probably won't work correctly in chunked mode
// but it is not supposed to be supported anyway.
// Before this function is called in the chunked mode we have checked
// that we have enough data to cover all the headers (the length of the
// headers is given in the beginning)
if ( iMultipartType != 0 )
{
if ( iPosition < iLength )
{
headersLength = GetUintvar();
}
else
{
iError = KErrCorrupt;
if ( iDecodingStage == EMmsNotApplicable )
{
CompleteSelf( iError );
}
return;
}
if ( iPosition < iLength )
{
iCurrentAttaLength = GetUintvar();
}
else
{
iError = KErrCorrupt;
if ( iDecodingStage == EMmsNotApplicable )
{
CompleteSelf( iError );
}
return;
}
// Data start can be calculated now.
// Also the start of next attachment.
iDataStart = iPosition + headersLength;
if ( iDataStart > iLength && iDecodingStage == EMmsNotApplicable )
{
// This is an error only if we are handling all data, not chunks
iError = KErrCorrupt;
CompleteSelf( iError );
return;
}
if ( iDataStart + iCurrentAttaLength > iLength && iDecodingStage == EMmsNotApplicable )
{
// if we are doing chunked decoding there may not be enough data in our buffer
iCurrentAttaLength = iLength - iDataStart;
}
iNextStart = iDataStart + iCurrentAttaLength;
}
else
// monoblock - this probably won't work in chunked mode
// but then MMS engine is not supposed to support this kind of structure anyway
// The data should always be wrapped in multipart structure even if there is
// only one part.
// If the message is so small that everything fits into the buffer at one go,
// then this will work in chunked mode, too.
{
// save old position
TUint oldPosition = iPosition;
headersLength = GetValueLength();
iDataStart = iPosition + headersLength;
iCurrentAttaLength = iLength - iDataStart;
iNextStart = iDataStart + iCurrentAttaLength;
// Header's length is part of content type header.
// we cannot remove it, or we cannot interpret the
// content type header correctly.
iPosition = oldPosition;
}
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Headers length: %d"), headersLength );
TMmsLogger::Log( _L("- Data length: %d"), iCurrentAttaLength );
#endif
// don't touch iMmsHeaders, they may still be needed.
// Just reset mime headers, attachments don't need anything else.
iMimeHeaders->Reset();
// We must be able to handle an empty message without panic
if ( iCurrentAttaLength == 0 )
{
// empty attachment, don't create entry
iPosition = iNextStart;
if ( iDecodingStage == EMmsNotApplicable )
{
// chunked mode is not an active object
CompleteSelf( iError );
}
return;
}
// attachment creation cannot be done before we have all the headers
GetAttachmentContentTypeL();
// Now we must analyze the content-headers
// We only try to find Content-Location to get the filename
// We should also save the Content-ID:s in case the SMIL part uses them
// We also need to check if the Content-ID of some part matches
// the content id given as the start parameter for multipart/related type
// Some terminals put filename as parameter of content-disposition,
// so that should be checked, too.
while ( iPosition < iDataStart )
{
DecodeOneContentHeaderL();
}
if ( ( iMultipartType == KMmsAssignedApplicationVndWapMultipartRelated ) &&
( iRootContentId.Length() == 0 ) && iAttaNumber == 1 )
{
// First part must be root if start parameter not defined
if ( iMimeHeaders->ContentId().Length() == 0 )
{
TTime now;
now.UniversalTime();
TInt random;
TInt64 seed = now.Int64();
// no problem with conversions - just creating a magic number for content id
random = Math::Rand( seed );
iTempBuffer.Des().Num( random );
iMimeHeaders->SetContentIdL( iTempBuffer.Des() );
iRootContentId.Set( iTempBuffer.Des() );
}
}
// Now we have a root content id if the message is multipart/related.
// we can set up the id for the root part after the attachment has been
// created
iPosition = iDataStart; // binary data starts here
// Now we must try to generate a filename for the attachment.
// A name must be generated before the actual attachment is saved
TPtrC temp = TPtrC();
TPtrC ptr;
TBool isContentLocationFileName = EFalse;
TPtrC8 dummy8;
// Try name parameter of content location first
if ( !isContentLocationFileName )
{
dummy8.Set( iMimeHeaders->GetContentTypeValue( KWspNameString ) );
isContentLocationFileName = MakeFilenameL( dummy8, iParse, TPtrC() );
}
// Try filename parameter of content-disposition header next
TInt i;
// every other string is parameter, every other one is value
for ( i = 0;
i < iMimeHeaders->ContentDispositionParams().MdcaCount() && !isContentLocationFileName;
i += KMms2 )
{
// Try to generate a filename from the filename parameter
if ( iMimeHeaders->ContentDispositionParams().MdcaPoint( i ).CompareF(
KWspFilenameString ) == 0 )
{
dummy8.Set( iMimeHeaders->ContentDispositionParams().MdcaPoint( i + 1 ) );
isContentLocationFileName = MakeFilenameL( dummy8, iParse, TPtrC() );
}
}
HBufC16* uri = NULL;
if ( !isContentLocationFileName &&
iMimeHeaders->ContentLocation().Length() > 0 )
{
// Try to generate a filename from the content location
error = KErrNone;
TRAP( error, ( uri = EscapeUtils::EscapeDecodeL( iMimeHeaders->ContentLocation() ) ) );
if ( error == KErrNone )
{
temp.Set( uri->Des().Right( KMmsMaxFileName ) );
}
else
{
temp.Set( iMimeHeaders->ContentLocation().Right( KMmsMaxFileName ) );
}
error = iParse.Set( TPtrC(), &temp, NULL );
if ( error == KErrNone )
{
isContentLocationFileName = iEntryWrapper->IsValidFilename( iParse.NameAndExt() );
}
}
CleanupStack::PushL( uri );
// if content location not specified, use name parameter
// as content location. FIX for /// originated messages.
if ( iMimeHeaders->ContentLocation().Length() == 0 )
{
dummy8.Set( iMimeHeaders->GetContentTypeValue( KWspNameString ) );
// This may use some strange charset. Should be decoded.
// We only use it if it appears to be ascii.
if ( dummy8.Length() > 0 && IsStringSafe( dummy8 ) )
{
HBufC* name = HBufC::NewL( dummy8.Length() );
CleanupStack::PushL( name );
name->Des().Copy( dummy8 );
iMimeHeaders->SetContentLocationL( name->Des() );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( name->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Content location from name parameter: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( name );
name = NULL;
}
}
TBuf<KMms14> attaName; // max 4294967295 attas.
_LIT( KRelated, "att");
if ( !isContentLocationFileName )
{
// We don't have content location, we must invent a filename
// We should try to generate a sensible extension based on content type
// Now we will have no extension
attaName.Num( iAttaNumber, EDecimal );
attaName.Insert( 0, KRelated );
i = 0;
TBool matchFound = EFalse;
TPtrC8 matchTablePointer;
matchTablePointer.Set( KMmsFileExtensionMatchTable[i].tag );
while ( matchTablePointer.Length() > 0 && !matchFound )
{
if ( iMimeHeaders->ContentSubType().FindF(
TPtrC8( KMmsFileExtensionMatchTable[i].tag ) ) != KErrNotFound )
{
temp.Set( KMmsFileExtensionMatchTable[i].extension );
matchFound = ETrue;
}
i++;
matchTablePointer.Set( KMmsFileExtensionMatchTable[i].tag );
}
ptr.Set( attaName );
if ( !matchFound )
{
// unknown type, no extension
iParse.Set( TPtrC(), &ptr, NULL );
}
else
{
iParse.Set( TPtrC(), &ptr, &temp );
}
}
// We are through with filename, and URI may go if it ever was allocated
CleanupStack::PopAndDestroy( uri );
// We have to use iParse.NameAndExt as a guess for filename
// we cannot call CApaApplication::GenerateFileName without a path
// The next thing to do is to create an empty file ready to accept
// the attachment data.
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::ExtractContentTypeParametersL( const TPtrC8& aBuffer )
{
// we get here the parameter part of content type in the format
// parameter1=value1;parameter2=value2
TInt start = 0;
TInt end = 0;
TInt tokenEnd = 0;
while ( start < aBuffer.Length() )
{
// remove leading spaces
while ( start < aBuffer.Length() && aBuffer.Mid( start ).FindF( KSpace8 ) == 0 )
{
start++;
}
if ( start >= aBuffer.Length() )
{
return; // done, nothing left
}
// extract token
end = aBuffer.Mid( start ).FindF( KEquals8 );
if ( end == KErrNotFound )
{
end = aBuffer.Length();
}
else
{
end += start; // remember the original offset
}
tokenEnd = end - 1;
// remove trailing spaces from token
while ( tokenEnd - start > start && aBuffer.Mid( start, tokenEnd - start + 1 ).FindF( KSpace8 ) == tokenEnd - start )
{
tokenEnd--;
}
if ( aBuffer.Mid( start, tokenEnd - start + 1 ).Length() == 0 )
{
return; // garbage, give up
}
else
{
iMimeHeaders->ContentTypeParams().AppendL(
aBuffer.Mid( start, tokenEnd - start + 1 ) );
}
// extract value
start = end + 1;
if ( start >= aBuffer.Length() )
{
iMimeHeaders->ContentTypeParams().AppendL( TPtrC8() );
return;
}
// remove leading spaces
while ( start < aBuffer.Length() && aBuffer.Mid( start ).FindF( KSpace8 ) == 0 )
{
start++;
}
if ( start >= aBuffer.Length() )
{
// there was no value for the parameter - must add an empty value
iMimeHeaders->ContentTypeParams().AppendL( TPtrC8() );
return; // done, nothing left
}
// A string or a quoted string left.
// If quoted string, search for end quote.
// If not quoted, search for next semicolon (delimiter between parameters)
if ( aBuffer.Mid( start ).FindF( &KMmsStringQuote, 1 ) == 0 )
{
start++; // discard the quotes
end = aBuffer.Mid( start ).FindF( &KMmsStringQuote, 1 );
if ( end != KErrNotFound )
{
end += start; // remember the original offset
}
else
{
end = aBuffer.Length();
}
tokenEnd = end - 1;
// skip to next delimiter
end = aBuffer.Mid( tokenEnd + 1 ).FindF( KSemicolon8 );
if ( end == KErrNotFound )
{
end = aBuffer.Length();
}
else
{
end += tokenEnd + 1; // remember the original offset
}
}
else
{
end = aBuffer.Mid( start ).FindF( KSemicolon8 );
if ( end == KErrNotFound )
{
end = aBuffer.Length();
}
else
{
end += start; // remember the original offset
}
tokenEnd = end - 1;
// Remove trailing spaces from value.
// If the value was a quoted string, spaces are part of value,
// and must not be removed.
while ( aBuffer.Mid( start, tokenEnd - start + 1 ).FindF( KSpace8 ) ==
tokenEnd - start )
{
tokenEnd--;
}
}
iMimeHeaders->ContentTypeParams().AppendL( aBuffer.Mid( start, tokenEnd - start + 1 ) );
// keep trying
start = end + 1;
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TBool CMmsDecode::MakeFilenameL( TPtrC8& aSource, TParse& aDestination, const TFileName& aPath )
{
if ( aSource.Length() == 0 )
{
return EFalse;
}
TBool retValue = EFalse;
TInt error = KErrNone;
HBufC* name = NULL;
name = HBufC::NewL( aSource.Length() );
CleanupStack::PushL( name );
TPtr pointer = name->Des();
pointer.Copy( aSource );
if ( pointer.FindF( KEqualsQuestion16 ) != KErrNotFound )
{
// Try to resolve MIME encoding
TRAP( error, TMmsGenUtils::DecodeAndConvertMessageHeaderL( aSource, pointer, iFs ) );
}
else
{
// not MIME, error is fake, this may be just fine
error = KErrCorrupt;
}
if ( error != KErrNone )
{
// Try to resolve plain utf8
error = CnvUtfConverter::ConvertToUnicodeFromUtf8( pointer, aSource );
}
if ( error != KErrNone )
{
// use as is
name->Des().Copy( aSource );
}
TPtrC ptr;
if ( pointer.Length() > 0 )
{
#ifndef _NO_MMSS_LOGGING_
ptr.Set( name->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- decoded name: %S"), &ptr );
#endif
// We limit the length in case the filename is way too long (max is 100 characters).
// We take the rightmost part to get the extension.
// If we drop something from the beginning, it may be path or beginning of an overly
// long name. As the too long name does not make sense anyway, we are free to drop
// any part we like. No filenames should be 100 characters long.
ptr.Set( name->Des().Right( KMmsMaxFileName ) );
error = aDestination.Set( aPath, &ptr, NULL );
if ( error == KErrNone )
{
// If the string we are trying to set to TParse is not valid,
// we cannot check for filename
retValue = iEntryWrapper->IsValidFilename( aDestination.NameAndExt() );
}
}
CleanupStack::PopAndDestroy( name );
return retValue;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::FinishL()
{
// We don't check the critical disk space level here.
// If we got this far, we cannot balk now,
// we have to continue to the bitter end.
// If root attachment id == 0, the root has been deleted.
// In that case the message structure has been messed up
// and we can only show separate objects
// use iStore member
if ( !iStore )
{
iStore = iEntryWrapper->EditStoreL();
}
iMmsHeaders->RestoreL( *iStore );
if ( iRootContentId.Length() > 0 &&
iRootAttachmentId != 0 )
{
iMmsHeaders->SetRootContentIdL( iRootContentId );
iMmsHeaders->SetMessageRoot( iRootAttachmentId );
iMmsHeaders->StoreL( *iStore );
}
// this also commits all the attachments
iStore->CommitL();
// If we are in chunked mode we must get the possible fake subject from a file
// because buffer gets reused.
// now everything should be committed, and store can go
delete iStore;
iStore = NULL;
// calculate the total size of message
iTotalSize += iMmsHeaders->Size();
TPtrC details = TPtrC();
TPtrC description = TPtrC();
// Neither sender nor subject might be present.
// We ought to extract a few characters from the beginning of the
// first text/plain part for the subject, if no separate subject is available
// if the sender is a phone number add alias.
// We don't add alias for email addresses here, as the comms
// database search for email addresses is very slow
// if there are lots of contacts.
HBufC* buffer = HBufC::NewL( KMmsMaxDescription );
CleanupStack::PushL( buffer );
TPtr pBuffer = buffer->Des();
HBufC* descriptionBuffer = NULL; // we may or may not need this
if ( TMmsGenUtils::GenerateDetails( iMmsHeaders->Sender(),
pBuffer, KMmsMaxDescription, iFs ) == KErrNone )
{
details.Set( pBuffer );
}
else
{
// We come here only if there was a fatal error in GenerateDetails.
// Even if we don't find the alias, we have something in the string
details.Set( iMmsHeaders->Sender() );
}
// the buffer cannot be reused, because tEntry only contains
// a pointer to our data, not a copy of it.
if ( iMmsHeaders->Subject().Length() > 0 )
{
description.Set( iMmsHeaders->Subject() );
}
else
{
// Check if we have found a text/plain part to be used as description.
// Only use it if there is only one alternative, otherwise we don't
// know which one to use.
if ( iFakeSubject > 0 && iPlainTexts == 1 && iFakeSubject < iDecodeBuffer->Size() )
{
// we have a pointer to text/plain part
// we need a new buffer as our old buffer should not be destroyed
descriptionBuffer = HBufC::NewL( KMmsMaxDescription );
CleanupStack::PushL( descriptionBuffer );
pBuffer.Set( descriptionBuffer->Des() );
if ( iCharacterSet == KMmsIso10646Ucs2 ||
iCharacterSet == KMmsUTF16 ||
iCharacterSet == KMmsUTF16BE ||
iCharacterSet == KMmsUTF16LE)
{
// This may be big-endian or little-endian
TBool nativeEndian = EFalse; // pessimist.
TInt length = iTextPlainLength;
if ( length > KMmsMaxDescription * KMms2 )
{
length = KMmsMaxDescription * KMms2; // this should be enough
}
TInt i;
TUint start = 0;
TUint16 word = 0;
iPosition = iFakeSubject;
// must be able to read at least 2 bytes
if ( iPosition < iLength - 1 )
{
iDecodeBuffer->Read( iPosition, &word, KMmsMinHeaderLength );
}
// Check if we have a BOM (byte order mark).
if ( word == KMmsByteOrderMark )
{
nativeEndian = ETrue;
iPosition += KMms2;
start += KMms2; // skip the endianness byte from the subject
}
else if ( word == KMmsReversedByteOrderMark )
{
nativeEndian = EFalse;
iPosition += KMms2;
start += KMms2; // skip the endianness byte from the subject
}
else
{
CBufFlat* shortBuffer = CBufFlat::NewL( KMms2 );
CleanupStack::PushL( shortBuffer );
shortBuffer->ResizeL( KMms2 );
// no need to put it into cleanupstack... we don't leave before we delete it
TUint8 byte;
// put little-endian BOM to buffer
byte = 0xFF;
shortBuffer->Write( 0, &byte, 1 );
byte = 0xFE;
shortBuffer->Write( 1, &byte, 1 );
// get the result into a word, and see if it came out straight or reversed
shortBuffer->Read( 0, &word, KMms2 );
CleanupStack::PopAndDestroy( shortBuffer );
shortBuffer = NULL;
if ( iCharacterSet == KMmsUTF16LE )
{
// I think we are little endian, better check to be sure
if ( word == KMmsByteOrderMark )
{
// we are little endian, charset is little endian
nativeEndian = ETrue;
}
else
{
nativeEndian = EFalse;
}
}
else if ( iCharacterSet == KMmsUTF16BE )
{
if ( word == KMmsByteOrderMark )
{
// we are little endian, charset is big endian
nativeEndian = EFalse;
}
else
{
nativeEndian = ETrue;
}
}
// if NO BOM and character set does not define byte ordering,
// we don't really know.
// Native endian is left as false - may not be the correct guess.
else
{
// do nothing - keep LINT happy
}
}
if ( nativeEndian )
{
for ( i = start; i < length - 1; i += KMms2 )
{
iDecodeBuffer->Read(iPosition, &word, KMms2 );
iPosition += KMms2;
pBuffer.Append( word );
}
}
else
{
for ( i = start; i < length - 1; i += KMms2 )
{
iDecodeBuffer->Read(iPosition, &word, KMms2 );
iPosition += KMms2;
TUint16 temp;
temp = TUint16 ( word & 0xff ) ; //lower byte
word >>= KMmsBitsInByte; // higher to lower
word = TUint16 ( ( temp << KMmsBitsInByte ) + word );
pBuffer.Append( word );
}
}
}
else if ( iCharacterSet == KMmsUsAscii )
{
TInt length = iTextPlainLength;
if ( length > KMmsMaxDescription )
{
length = KMmsMaxDescription; // this should be enough
}
TPtrC8 attaData;
attaData.Set( iDecodeBuffer->Ptr( iFakeSubject ).Ptr(), length );
pBuffer.Copy( attaData );
}
else if ( iCharacterSet == KMmsUtf8 )
{
TInt length = iTextPlainLength;
if ( length > KMmsMaxDescription )
{
length = KMmsMaxDescription; // this should be enough
}
// just in case our message is corrupted...
if ( length > (TInt) ( iDecodeBuffer->Size() - iFakeSubject ) )
{
length = iDecodeBuffer->Size() - iFakeSubject;
}
TPtrC8 attaData;
attaData.Set( iDecodeBuffer->Ptr( iFakeSubject ).Ptr(), length );
if ( length > 0 )
{
CnvUtfConverter::ConvertToUnicodeFromUtf8( pBuffer, attaData );
if ( pBuffer.Length() > 0 && pBuffer.Find( &KMmsByteOrderMark, 1 ) == 0 )
{
// remove the BOM
pBuffer.Delete( 0, 1 );
}
}
}
else
{
// we have some unknown character set.
// we should call some converter
}
TInt position;
for ( position = 0; position < pBuffer.Length(); position++ )
{
if ( pBuffer.Mid( position, 1 ) < KSpace16 ||
pBuffer.Mid( position, 1 ) == KMmsUnicodeLineSeparator ||
pBuffer.Mid( position, 1 ) == KMmsUnicodeParagraphSeparator ||
pBuffer.Mid( position, 1 ) == KMmsIdeographicSpace ||
((TChar)pBuffer[position]).IsControl() )
{
pBuffer.Replace( position, 1, KSpace16 );
}
}
pBuffer.TrimAll();
description.Set( pBuffer );
}
}
// don't set the response status text to description if the status is OK.
// In that case we have received an empty message that should have no description.
// In OK case the text is mostly "OK" or something equally uninformative
if ( description.Length() == 0 && iMmsHeaders->ResponseText().Length() > 0 &&
iMmsHeaders->ResponseStatus() > KMmsResponseStatusOK )
{
description.Set( iMmsHeaders->ResponseText() );
}
TUint32 messageType = 0;
switch ( iMmsHeaders->MessageType() )
{
case KMmsMessageTypeMSendReq:
messageType = KMmsMessageMSendReq;
break;
case KMmsMessageTypeMNotificationInd:
messageType = KMmsMessageMNotificationInd;
break;
case KMmsMessageTypeMRetrieveConf:
messageType = KMmsMessageMRetrieveConf;
break;
case KMmsMessageTypeDeliveryInd:
messageType = KMmsMessageDeliveryInd;
break;
default:
// Unrecognized type - or one we are not interested in.
// Messages that should not normally be stored on disk
// have the type "unrecognized"
// The type in TMsvEntry should be used for showing icons
// or other special purposes only
messageType = KMmsMessageUnrecognized;
break;
}
// All data to iMtmData1 is set to an empty base.
// If caller has more flags to set, they must be set afterwards
TInt32 mtmData = 0;
mtmData |= messageType;
mtmData |= iDRMFlags;
if ( iMmsHeaders->MessageClass() == EMmsClassAdvertisement )
{
mtmData |= KMmsMessageAdvertisement;
}
else if ( iMmsHeaders->MessageClass() == EMmsClassInformational )
{
mtmData |= KMmsMessageInformational;
}
else
{
// do nothing - keep LINT happy
}
TMsvEntry entry;
iEntryWrapper->GetIndexEntry( entry );
entry.iDetails.Set( details );
entry.iDescription.Set( description );
entry.iMtmData1 = mtmData;
entry.iSize = iTotalSize;
// Set the date.
// This can in principle be either the arrival time of the message
// or the original time the message was received by MMSC
entry.iDate = iMmsHeaders->ReceivingTime();
switch ( iMmsHeaders->MessagePriority() )
{
case KMmsPriorityNormal:
entry.SetPriority( EMsvMediumPriority );
break;
case KMmsPriorityLow:
entry.SetPriority( EMsvLowPriority );
break;
case KMmsPriorityHigh:
entry.SetPriority( EMsvHighPriority );
break;
default:
// if not defined default is normal
entry.SetPriority( EMsvMediumPriority );
break;
}
// set the bio type to audio message if the message contains nothing but one
// amr part in addition to possible one smil
if ( iSmilCount <= 1 && iAudioCount == 1 &&
( iAttaNumber == iSmilCount + iAudioCount ) )
{
if(!CheckDRMContent())
{
TBool audioSupported = EFalse;
TRAP_IGNORE(
{
FeatureManager::InitializeLibL();
audioSupported = FeatureManager::FeatureSupported( KFeatureIdAudioMessaging );
FeatureManager::UnInitializeLib();
});
if ( audioSupported )
{
entry.iBioType = KUidMsgSubTypeMmsAudioMsg.iUid;
}
}
}
//Since the changes have been committed to the store , we should get exact attachment count from the store.
//The message type check is not required as the only messagtypes decoded are retrieve-conf in global mode and send-req in local mode
TInt attachmentCount = 0;
CMsvStore* store = iEntryWrapper->ReadStoreL();
CleanupStack::PushL( store );
// Only new attachment structure is supported
MMsvAttachmentManager& attachMan = store->AttachmentManagerL();
attachmentCount = attachMan.AttachmentCount();
CleanupStack::PopAndDestroy( store );
if ( attachmentCount > 0 )
{
entry.SetAttachment(ETrue);
}
iEntryWrapper->ChangeIndexEntry( entry );
// now that we have saved our index entry, the buffers can go
if ( descriptionBuffer )
{
// if we have allocated a separate buffer for the
// description, it sits on cleanups stack too.
CleanupStack::PopAndDestroy( descriptionBuffer );
}
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
// CMmsDecode::CheckDRMContent
// ---------------------------------------------------------
//
TBool CMmsDecode::CheckDRMContent()
{
CFileProtectionResolver* resolver = CFileProtectionResolver::NewLC( iFs);
CMsvStore* store = iEntryWrapper->ReadStoreL();
CleanupStack::PushL( store );
MMsvAttachmentManager& attaManager = store->AttachmentManagerL();
TInt attaCount = attaManager.AttachmentCount();
TInt flCount = 0;
TInt sdCount = 0;
for ( TInt i = 0; i < attaCount; ++i )
{
CMsvAttachment* info = attaManager.GetAttachmentInfoL( i );
CleanupStack::PushL( info );
TDataType dataType( info->MimeType() );
if(dataType.Des8().Match(KmmsSmilMimeType) != KErrNotFound)
{
CleanupStack::PopAndDestroy( info );
continue;
}
RFile file = attaManager.GetAttachmentFileL( info->Id() );
CleanupClosePushL( file );
TInt status = resolver->ProtectionStatusL( file, dataType );
if ( status & EFileProtForwardLocked ||
status & EFileProtClosedContent )
{
flCount++;
}
else if ( status & EFileProtSuperDistributable )
{
sdCount++;
}
CleanupStack::PopAndDestroy( 2, info ); // file, info
}
CleanupStack::PopAndDestroy( 2, resolver ); //store, resolver
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- CheckDRMContent:Total count :%d,FlCount: %d"),attaCount, flCount );
TMmsLogger::Log( _L("- CheckDRMContent:SDCount: %d"), sdCount );
#endif
if(flCount ||sdCount )
return ETrue;
else
return EFalse;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DumpL()
{
// no dump if not logging
#ifndef _NO_MMSS_LOGGING_
TInt error = KErrNone;
RFile file;
TUint att;
_LIT( KRelated, "Rec.mms");
// if no can do, sorry.
TRAP( error,
{
if ( ( iDumpIncoming ) && iDecodeBuffer )
{
if ( iDecodeBuffer->Size() > 0 && iDecodingStage == EMmsNotApplicable )
{
// non-chunked mode. All data is in buffer, and can be dumped in one go
iFileName = KMmsDefaultLogDirectory;
// Check if directory exists - no directory, no dump
User::LeaveIfError( iFs.Att( iFileName, att ) );
iParse.Set( iFileName, &KRelated, NULL );
iFileName = iParse.FullName();
User::LeaveIfError( CApaApplication::GenerateFileName(
iFs, iFileName ) );
User::LeaveIfError( file.Create( iFs, iFileName,
EFileWrite | EFileShareExclusive ) );
// for message id generation
iParse.Set( iFileName, NULL, NULL );
// the data is supposed to be in the encode buffer
TPtr8 ptr = iDecodeBuffer->Ptr( 0 );
file.Write( ptr );
file.Flush();
// done - close files
file.Close();
}
// chunked mode start - no data yet, initialize file
else if ( iLength == 0 && iDecodingStage == EMmsHeaders )
{
// This is the initialization of the dump file
iFileName = KMmsDefaultLogDirectory;
// create an empty file
// The name of the file will remain in iFilename
// Later data will be appended to the same file
User::LeaveIfError( iFs.Att( iFileName, att ) );
iParse.Set( iFileName, &KRelated, NULL );
iFileName = iParse.FullName();
User::LeaveIfError( CApaApplication::GenerateFileName(
iFs, iFileName ) );
User::LeaveIfError( file.Create( iFs, iFileName,
EFileWrite | EFileShareExclusive ) );
// for message id generation
iParse.Set( iFileName, NULL, NULL );
file.Close();
}
else if ( iDecodingStage != EMmsNotApplicable )
{
User::LeaveIfError( file.Open( iFs, iFileName,
EFileWrite | EFileShareExclusive ) );
TInt position = 0;
User::LeaveIfError( file.Seek( ESeekEnd, position ) );
// the data is supposed to be in the encode buffer
// But only write the amount of data that has been processed.
// Some of the data may be pushed back to the beginning of the buffer
// and we do not want to write such data twice.
// iOldData tells how much data was left over from previous round
// We always write as much as we have got so that we can analyze
// a possible error
TPtr8 ptr = iDecodeBuffer->Ptr( iOldData );
// If there is any data, write it
if ( ptr.Length() > 0 )
{
file.Write( ptr );
file.Flush();
}
// done - close files
file.Close();
}
else
{
// do nothing
}
}
}
);
if ( error != KErrNone )
{
TMmsLogger::Log( _L("- Dump left, error : %d"), error );
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DumpSmil( TInt aDataLength )
{
// no dump if not logging
#ifndef _NO_MMSS_LOGGING_
TBool lowMemory = EFalse;
TRAP_IGNORE({
lowMemory = iEntryWrapper->DiskSpaceBelowCriticalLevelL( aDataLength );
});
// Only dump smil part if not decoding in chunks.
// In chunked mode it would be too complicated.
if ( iDumpIncoming && iMimeHeaders->ContentType().CompareF( KMmsApplicationSmil ) == 0
&& !lowMemory && iDecodingStage == EMmsNotApplicable)
{
RFile file;
iFileName = KMmsDefaultLogDirectory;
TUint att;
if ( iFs.Att( iFileName, att ) == KErrNone )
{
_LIT( KRelated2, "smil.txt");
iParse.Set( iFileName, &KRelated2, NULL );
iFileName = iParse.FullName();
TInt error = CApaApplication::GenerateFileName( iFs, iFileName );
if ( error == KErrNone )
{
error = file.Create( iFs, iFileName, EFileWrite | EFileShareExclusive );
// for message id generation
iParse.Set( iFileName, NULL, NULL );
if ( error == KErrNone )
{
// the data is supposed to be in the encode buffer
TPtrC8 ptrx;
ptrx.Set( iDecodeBuffer->Ptr( iPosition ).Ptr(), aDataLength );
file.Write( ptrx );
file.Flush();
}
// done - close files
file.Close();
}
}
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::LogYesNo( TRefByValue<const TDesC> aTitle, TInt aValue )
{
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( aTitle );
switch ( aValue )
{
case ( KMmsYes ):
TMmsLogger::Log( KLogYes );
break;
case ( KMmsNo ):
TMmsLogger::Log( KLogNo );
break;
default:
TMmsLogger::Log( KLogUnknown, aValue );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::GetKeywordL()
{
GetValueLength(); // must be read just to get it out of way
TUint8 byte; // for simple reads
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte; // should be add, remove or filter
HBufC16* buffer = NULL;
buffer = GetEncodedTextStringL();
CleanupStack::PushL( buffer ); // keyword
TPtrC dummy;
dummy.Set( buffer->Des() );
iMmsHeaders->MMBoxMessageHeadersL().AppendKeywordItemL( temp, dummy );
#ifndef _NO_MMSS_LOGGING_
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Keyword: %S"), &dummy );
switch ( temp )
{
case KMmsAddToken:
TMmsLogger::Log( _L("-- Add") );
break;
case KMmsRemoveToken:
TMmsLogger::Log( _L("-- Remove") );
break;
case KMmsFilterToken:
TMmsLogger::Log( _L("-- Filter") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::CompleteSelf( TInt aError )
{
// completed own status to get back to the RunL
iStatus = KRequestPending;
SetActive();
TRequestStatus* status = &iStatus;
User::RequestComplete( status, aError );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
TBool CMmsDecode::IsStringSafe( const TDesC8& aString )
{
// Very simple check to see if string is "safe" ASCII
// Used for headers, which are short strings
TInt i;
TBool safe = ETrue;
for ( i = 0; i < aString.Length() && safe; ++i )
{
if ( aString[i] < KMmsLowestAscii || aString[i] >= KMmsHighestAscii )
{
safe = EFalse;
}
}
return safe;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeFromHeaderL()
{
HBufC16* buffer = NULL;
buffer = DecodeFromL();
CleanupStack::PushL( buffer );
iMmsHeaders->SetSenderL( buffer->Des() );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- From: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeToL()
{
HBufC16* buffer = NULL;
buffer = DecodeAddressL();
CleanupStack::PushL( buffer );
iMmsHeaders->AddTypedAddresseeL( buffer->Des(), EMmsTo );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- To: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeCcL()
{
HBufC16* buffer = NULL;
buffer = DecodeAddressL();
CleanupStack::PushL( buffer );
iMmsHeaders->AddTypedAddresseeL( buffer->Des(), EMmsCc );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Cc: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeBccL()
{
HBufC16* buffer = NULL;
buffer = DecodeAddressL();
CleanupStack::PushL( buffer );
iMmsHeaders->AddTypedAddresseeL( buffer->Des(), EMmsBcc );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Bcc: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeContentLocationHeaderL()
{
TPtrC8 byteString;
TUint32 size = 0;
// Request headers are handled for testing purposes only
// Only PDUs that we should decode are the confirmation types
if ( iMmsHeaders->MessageType() != KMmsMessageTypeMBoxDeleteConf &&
iMmsHeaders->MessageType() != KMmsMessageTypeDeleteConf )
{
byteString.Set( GetByteString() );
// for the MMBox view type PDUs the content locations go into the array
if ( iMmsHeaders->MessageType() == KMmsMessageTypeMboxViewConf ||
iMmsHeaders->MessageType() == KMmsMessageTypeMboxViewReq ||
iMmsHeaders->MessageType() == KMmsMessageTypeMBoxDeleteReq ||
iMmsHeaders->MessageType() == KMmsMessageTypeDeleteReq )
{
iMmsHeaders->MMBoxMessageHeadersL().ContentLocationList().AppendL(
byteString );
}
else if ( iMmsHeaders->ContentLocation().Length() == 0 )
{
iMmsHeaders->SetContentLocationL( byteString );
}
else
{
// This is some message type that allows more than one content location
// The only one should be M-Mbox-Delete.req.
if ( iMmsHeaders->MMBoxMessageHeadersL().ContentLocationList().MdcaCount()
== 0 )
{
// nothing in the list, append the old one, too
iMmsHeaders->MMBoxMessageHeadersL().ContentLocationList().AppendL(
iMmsHeaders->ContentLocation() );
}
iMmsHeaders->MMBoxMessageHeadersL().ContentLocationList().AppendL(
byteString );
}
}
else // KMmsMessageTypeMBoxDeleteConf has different format
{
GetValueLength();
size = GetLongOrShortInteger(); // this is actually index
byteString.Set( GetByteString() );
iMmsHeaders->InsertDeleteContentLocationL( size, byteString );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Content Location index: %d"), size );
#endif
}
#ifndef _NO_MMSS_LOGGING_
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Content Location: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeDateHeaderL()
{
TInt64 date;
TUint8 byte;
date = GetVeryLongInteger();
if ( iError == KErrTooBig )
{
// we get here only if we have at least one byte to read
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
// skip rest of field if too long
iPosition += byte;
}
if ( iPosition >= iLength )
{
iError = KErrCorrupt;
return;
}
iMmsHeaders->SetDate( date );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Date:") );
LogDateL( date );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeDeliveryReportHeader()
{
TUint8 byte;
TUint temp;
byte = GetWellKnownFieldValueOrSkip();
temp = byte;
iMmsHeaders->SetDeliveryReport( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- DeliveryReport:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeDeliveryTimeL()
{
TUint8 byte;
TInt64 date;
byte = GetRelativeOrAbsoluteTime( date );
if ( byte == KMmsRelativeToken )
{
iMmsHeaders->SetDeliveryTimeInterval( I64LOW( date ) );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Delivery Time, interval %d s"), I64LOW( date ) );
#endif
}
if ( byte == KMmsAbsoluteToken )
{
// keep as universal time, don't convert to local time
iMmsHeaders->SetDeliveryDate( date );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Delivery Time, absolute ") );
LogDateL( date );
#endif
}
// If could not interpret field, don't set anything.
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeExpiryL()
{
TUint8 byte;
TInt64 date;
byte = GetRelativeOrAbsoluteTime( date );
if ( byte == KMmsRelativeToken )
{
iMmsHeaders->SetExpiryInterval( I64LOW( date ) );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Expiry interval: %d s"), I64LOW( date ) );
#endif
}
if ( byte == KMmsAbsoluteToken )
{
// keep as universal time, don't convert to local time
iMmsHeaders->SetExpiryDate( date );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Expiry, absolute:") );
LogDateL( date );
#endif
}
// If could not interpret field, don't set anything.
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMessageClass()
{
TUint8 byte = 0;
TUint temp;
iDecodeBuffer->Read(iPosition, &byte, 1);
if ( byte >= KMms0x80 )
{
iPosition++;
temp = byte;
iMmsHeaders->SetMessageClass( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("-- MessageCalss encoded as Class-identifier") );
#endif
}
else
{
TPtrC8 byteString = GetByteString();
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("-- MessageCalss encoded as Token-text") );
// we don't leave because of logging
TInt error = KErrNone;
TRAP( error,
{
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
TPtrC dummy;
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Message class : %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
});
if ( error != KErrNone )
{
TMmsLogger::Log( _L("- Decode left when logging Message class, error : %d"),
error );
}
#endif
temp = KMmsTestIllegalValue;
if ( byteString.CompareF( KMessageClassPersonal ) == 0 )
{
temp = KMmsMessageClassPersonal;
}
else if ( byteString.CompareF( KMessageClassAdvertisement ) == 0 )
{
temp = KMmsMessageClassAdvertisement;
}
else if ( byteString.CompareF( KMessageClassInformational ) == 0 )
{
temp = KMmsMessageClassInformational;
}
else if ( byteString.CompareF( KMessageClassAuto ) == 0 )
{
temp = KMmsMessageClassAuto;
}
iMmsHeaders->SetMessageClass( temp );
}
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Message Class:") );
switch ( temp )
{
case KMmsMessageClassPersonal:
TMmsLogger::Log( _L("-- Personal") );
break;
case KMmsMessageClassAdvertisement:
TMmsLogger::Log( _L("-- Advertisement") );
break;
case KMmsMessageClassInformational:
TMmsLogger::Log( _L("-- Informational") );
break;
case KMmsMessageClassAuto:
TMmsLogger::Log( _L("-- Auto") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMessageIdL()
{
TPtrC8 byteString;
byteString.Set( GetByteString() );
iMmsHeaders->SetMessageIdL( byteString );
#ifndef _NO_MMSS_LOGGING_
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Message Id: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMessageType()
{
TUint8 byte;
TUint temp;
byte = GetWellKnownFieldValueOrSkip();
temp = byte;
iMmsHeaders->SetMessageType( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- MessageType:") );
switch ( temp )
{
case KMmsMessageTypeMSendReq:
TMmsLogger::Log( _L("-- send-req") );
break;
case KMmsMessageTypeMSendConf:
TMmsLogger::Log( _L("-- send-conf") );
break;
case KMmsMessageTypeMNotificationInd:
TMmsLogger::Log( _L("-- notification-ind") );
break;
case KMmsMessageTypeMNotifyRespInd:
TMmsLogger::Log( _L("-- notifyresp-ind") );
break;
case KMmsMessageTypeMRetrieveConf:
TMmsLogger::Log( _L("-- retrieve-conf") );
break;
case KMmsMessageTypeAcknowledgeInd:
TMmsLogger::Log( _L("-- acknowledge-ind") );
break;
case KMmsMessageTypeDeliveryInd:
TMmsLogger::Log( _L("-- delivery-ind") );
break;
case KMmsMessageTypeReadRecInd:
TMmsLogger::Log( _L("-- read-rec-ind") );
break;
case KMmsMessageTypeReadOrigInd:
TMmsLogger::Log( _L("-- read-orig-ind") );
break;
case KMmsMessageTypeForwardReq:
TMmsLogger::Log( _L("-- forward-req") );
break;
case KMmsMessageTypeForwardConf:
TMmsLogger::Log( _L("-- forward-conf") );
break;
case KMmsMessageTypeMboxStoreReq:
TMmsLogger::Log( _L("-- m-mbox-store-req") );
break;
case KMmsMessageTypeMboxStoreConf:
TMmsLogger::Log( _L("-- m-mbox-store-conf") );
break;
case KMmsMessageTypeMboxViewReq:
TMmsLogger::Log( _L("-- m-mbox-view-req") );
break;
case KMmsMessageTypeMboxViewConf:
TMmsLogger::Log( _L("-- m-mbox-view-conf") );
break;
case KMmsMessageTypeMBoxUploadReq:
TMmsLogger::Log( _L("-- m-mbox-upload-req") );
break;
case KMmsMessageTypeMBoxUploadConf:
TMmsLogger::Log( _L("-- m-mbox-upload-conf") );
break;
case KMmsMessageTypeMBoxDeleteReq:
TMmsLogger::Log( _L("-- m-mbox-delete-req") );
break;
case KMmsMessageTypeMBoxDeleteConf:
TMmsLogger::Log( _L("-- m-mbox-delete-conf") );
break;
case KMmsMessageTypeMBoxDescr:
TMmsLogger::Log( _L("-- m-mbox-descr") );
break;
case KMmsMessageTypeDeleteReq:
TMmsLogger::Log( _L("-- m-delete-req") );
break;
case KMmsMessageTypeDeleteConf:
TMmsLogger::Log( _L("-- m-delete-conf") );
break;
case KMmsMessageTypeCancelReq:
TMmsLogger::Log( _L("-- m-cancel-req") );
break;
case KMmsMessageTypeCancelConf:
TMmsLogger::Log( _L("-- m-cancel-conf") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMmsVersion()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
byte &= KMms0x7F;
// if version major number is greater than 1,
// we may not be compatible any more.
// We save the version number, and check later
// what we should do about it.
iMmsHeaders->SetMmsVersion( byte );
#ifndef _NO_MMSS_LOGGING_
// log version number always - even when decode logging is off
TUint high = ( byte & KMms0x7F ) >> KMmsHalfByteShift;
TUint low = byte & KMms0x0F;
TMmsLogger::Log( _L("- MMS version: %d.%d"), high, low );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMessageSize()
{
TUint32 size = 0;
size = GetLongOrShortInteger();
iMmsHeaders->SetMessageSize( size );
#ifndef _NO_MMSS_LOGGING_
if ( iError != KErrTooBig )
{
TMmsLogger::Log( _L("- Message Size: %d"), size );
}
else
{
TMmsLogger::Log( _L("- Message Size bigger than maxint") );
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodePriority()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetMessagePriority( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Priority:") );
switch ( temp )
{
case KMmsPriorityLow:
TMmsLogger::Log( _L("-- Low") );
break;
case KMmsPriorityNormal:
TMmsLogger::Log( _L("-- Normal") );
break;
case KMmsPriorityHigh:
TMmsLogger::Log( _L("-- High") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeReadReply()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetReadReply( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- Read Reply:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeReportAllowed()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetReportAllowed( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- Report Allowed:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
#ifndef _NO_MMSS_LOGGING_
void CMmsDecode::DecodeResponseStatusL( TInt aHeader )
#else
void CMmsDecode::DecodeResponseStatusL( TInt /*aHeader*/ )
#endif
{
TUint8 byte;
TUint temp;
if ( iMmsHeaders->MessageType() != KMmsMessageTypeMBoxDeleteConf )
{
byte = GetWellKnownFieldValueOrSkip();
temp = byte;
iMmsHeaders->SetResponseStatus( temp );
}
else // KMmsMessageTypeMBoxDeleteConf has different format
{
TUint32 size = 0;
GetValueLength();
size = GetLongOrShortInteger(); // this is actually index
byte = GetWellKnownFieldValueOrSkip();
temp = byte;
iMmsHeaders->InsertDeleteStatusL( size, temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Response Status Index: %d"), size );
#endif
}
#ifndef _NO_MMSS_LOGGING_
if ( aHeader == KMmsAssignedResponseStatus )
{
TMmsLogger::Log( _L("- Response Status:") );
}
else
{
TMmsLogger::Log( _L("- Retrieve Status:") );
}
switch ( temp )
{
case KMmsStatusOk:
TMmsLogger::Log( _L("-- Ok") );
break;
case KMmsErrorUnspecified:
TMmsLogger::Log( _L("-- ErrUnspecified") );
break;
case KMmsErrorServiceDenied:
TMmsLogger::Log( _L("-- ErrServiceDenied") );
break;
case KMmsErrorMessageFormatCorrupt:
TMmsLogger::Log( _L("-- ErrMessageFormatCorrupt") );
break;
case KMmsErrorSendingAddressUnresolved:
TMmsLogger::Log( _L("-- ErrSendingAddressUnresolved") );
break;
case KMmsErrorMessageNotFound:
TMmsLogger::Log( _L("-- ErrMessageNotFound") );
break;
case KMmsErrorNetworkProblem:
TMmsLogger::Log( _L("-- ErrNetworkProblem") );
break;
case KMmsErrorNoContentAccepted:
TMmsLogger::Log( _L("-- ErrNoContentAccepted") );
break;
case KMmsErrorUnsupportedMessage:
TMmsLogger::Log( _L("-- ErrUnsupportedMessage") );
break;
default:
if ( ( temp & KMmsErrorRangeMask ) == KMmsErrorTransient )
{
TMmsLogger::Log( _L("-- Transient error %d"), temp );
}
else if ( ( temp & KMmsErrorRangeMask ) == KMmsErrorPermanent )
{
TMmsLogger::Log( _L("-- Permanent error %d"), temp );
}
else
{
TMmsLogger::Log( KLogUnknown, temp );
}
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeResponseTextL( TInt aHeader )
{
// The text may be response status text, retrieve status text
// or status text depending on which PDU we are decoding.
// Only one text string appears in each case, so we reuse the header
HBufC16* buffer = NULL;
if ( iMmsHeaders->MessageType() != KMmsMessageTypeMBoxDeleteConf )
{
// both notes go to the same variable, as both can never be present
buffer = GetEncodedTextStringL();
CleanupStack::PushL( buffer );
iMmsHeaders->SetResponseTextL( buffer->Des() );
}
else // KMmsMessageTypeMBoxDeleteConf has different format
{
GetValueLength();
TUint32 index = 0;
index = GetLongOrShortInteger();
buffer = GetEncodedTextStringL();
CleanupStack::PushL( buffer );
iMmsHeaders->InsertDeleteResponseTextL( index, buffer->Des() );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Response Text Index: %d"), index );
#endif
}
#ifndef _NO_MMSS_LOGGING_
switch ( aHeader )
{
case KMmsAssignedResponseText:
TMmsLogger::Log( _L("- Response text:") );
break;
case KMmsAssignedRetrieveText:
TMmsLogger::Log( _L("- Retrieve text:") );
break;
case KMmsAssignedStatusText:
TMmsLogger::Log( _L("- Status text:") );
break;
}
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("%S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeSenderVisibility()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetSenderVisibility( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Sender Visibility:") );
switch ( temp )
{
case KMmsSenderHide:
TMmsLogger::Log( _L("-- Hide") );
break;
case KMmsSenderShow:
TMmsLogger::Log( _L("-- Show") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeStatus()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetStatus( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Status:") );
switch ( temp )
{
case KMmsMessageStatusExpired:
TMmsLogger::Log( _L("-- Expired") );
break;
case KMmsMessageStatusRetrieved:
TMmsLogger::Log( _L("-- Retrieved") );
break;
case KMmsMessageStatusRejected:
TMmsLogger::Log( _L("-- Rejected") );
break;
case KMmsMessageStatusDeferred:
TMmsLogger::Log( _L("-- Deferred") );
break;
case KMmsMessageStatusUnrecognized:
TMmsLogger::Log( _L("-- Unrecognized") );
break;
case KMmsMessageStatusIndeterminate:
TMmsLogger::Log( _L("-- Indeterminate") );
break;
case KMmsMessageStatusForwarded:
TMmsLogger::Log( _L("-- Forwarded") );
break;
case KMmsMessageStatusUnreachable:
TMmsLogger::Log( _L("-- Unreachable") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeSubjectL()
{
HBufC16* buffer = NULL;
buffer = GetEncodedTextStringL();
CleanupStack::PushL( buffer );
// TMsvEntry.iDescription will be updated separately.
iMmsHeaders->SetSubjectL( buffer->Des());
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Subject: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeTidL()
{
TPtrC8 byteString;
byteString.Set( GetByteString() );
iMmsHeaders->SetTidL( byteString );
#ifndef _NO_MMSS_LOGGING_
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
TPtrC dummy;
dummy.Set( buffer->Des() );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Transaction Id: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeContentTypeL()
{
// Now we must analyze the content type in order to
// handle the body correctly.
// The body may be a multipart, or a single part.
// The subroutine will set the number of Attachments.
// For a monoblock body the number of attachments will be 1.
iMultipartType = GetMultipartContentTypeL();
// save the multipart type in case we must later make decisions
// about the multipart/alternative type
iMmsHeaders->SetMultipartType( iMultipartType );
iLastHeader = ETrue; // Content type is always the last header
#ifndef _NO_MMSS_LOGGING_
TPtrC8 byteString;
HBufC16* buffer = NULL;
TPtrC dummy;
if ( iMultipartType != 0 )
{
if ( iMultipartType <= KNumberContentTypes )
{
byteString.Set( KContentTypeTable[ iMultipartType ] );
}
else if ( iMultipartType == KMmsAssignedApplicationVndWapMultipartReport )
{
byteString.Set( KMmsWapMultipartReport );
}
else
{
byteString.Set( KContentTypeTable[ KNumberContentTypes ] );
}
buffer = HBufC16::NewLC( byteString.Length() );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
buffer->Des().Copy( byteString );
// no entries from our table are more than 200 bytes long.
dummy.Set( buffer->Des() );
TMmsLogger::Log( _L("- Content Type: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
if ( iMultipartRootType.Length() > 0 )
{
buffer = HBufC16::NewLC( iMultipartRootType.Length() );
buffer->Des().Copy( iMultipartRootType );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Root content type: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
}
if ( iRootContentId.Length() > 0 )
{
buffer = HBufC16::NewLC( iRootContentId.Length() );
buffer->Des().Copy( iRootContentId );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Root content id: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
}
}
TMmsLogger::Log( _L("- Number of attachments: %d"), iNumberOfAttachments );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeReadStatus()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetReadStatus( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- ReadStatus:") );
switch ( temp )
{
case KMmsReadStatusRead:
TMmsLogger::Log( _L("-- Read") );
break;
case KMmsReadStatusDeletedWithoutBeingRead:
TMmsLogger::Log( _L("-- Deleted unread") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeReplyCharging()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetReplyCharging( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- ReplyCharging:") );
switch ( temp )
{
case KMmsReplyChargingRequested:
TMmsLogger::Log( _L("-- Requested") );
break;
case KMmsReplyChargingRequestedTextOnly:
TMmsLogger::Log( _L("-- Requested text only") );
break;
case KMmsReplyChargingAccepted:
TMmsLogger::Log( _L("-- Accepted") );
break;
case KMmsReplyChargingAcceptedTextOnly:
TMmsLogger::Log( _L("-- Accepted text only") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeReplyChargingDeadlineL()
{
TUint8 byte;
TInt64 date;
byte = GetRelativeOrAbsoluteTime( date );
if ( byte == KMmsRelativeToken )
{
iMmsHeaders->SetReplyChargingInterval( I64LOW( date ) );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Reply charging interval: %d s"), I64LOW( date ) );
#endif
}
if ( byte == KMmsAbsoluteToken )
{
// keep as universal time, don't convert to local time
iMmsHeaders->SetReplyChargingDate( date );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Reply charging date, absolute:") );
LogDateL( date );
#endif
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeReplyChargingIdL()
{
TPtrC8 byteString;
byteString.Set( GetByteString() );
iMmsHeaders->SetReplyChargingIdL( byteString );
#ifndef _NO_MMSS_LOGGING_
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Reply Charging Id: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeReplyChargingSize()
{
TUint32 size = 0;
size = GetLongOrShortInteger();
iMmsHeaders->SetReplyChargingSize( size );
#ifndef _NO_MMSS_LOGGING_
if ( iError != KErrTooBig )
{
TMmsLogger::Log( _L("- Reply charging Size: %d"), size );
}
else
{
TMmsLogger::Log( _L("- Reply charging Size bigger than: %d"),
TInt64 (0xffffffff) );
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodePreviousSenderL()
{
GetValueLength(); // we don't need this
TUint32 size = 0;
size = GetLongOrShortInteger(); // This is actually index
HBufC16* buffer = NULL;
buffer = DecodeAddressL();
CleanupStack::PushL( buffer );
// If message is corrupted, the result may be garbage, but we do our best
iMmsHeaders->InsertPreviouslySentByL( size, buffer->Des() );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Prevously sent by: %S, order # %d"), &dummy, size );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodePreviouslySentDateL()
{
GetValueLength(); // we don't need this
TUint32 size = 0;
size = GetLongOrShortInteger();
TInt64 date;
date = GetVeryLongInteger();
TUint8 byte;
if ( iError == KErrTooBig )
{
// we get here only if we have at least one byte to read
iDecodeBuffer->Read(iPosition, &byte, 1);
iPosition++;
// skip rest of field if too long
iPosition += byte;
// If this is too big, we just ignore it. It is no legal date.
date = 0;
iError = KErrNone;
}
// We insert the result no matter what
iMmsHeaders->InsertPreviouslySentDateL( size, date );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Previously sent date: (order # %d)"), size );
LogDateL( date );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeStoreHeaderL()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->MMBoxMessageHeadersL().SetMmsStore( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- Store to MMBox:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMMBoxStateL()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
if ( iMmsHeaders->MessageType() != KMmsMessageTypeMboxViewReq &&
iMmsHeaders->MessageType() != KMmsMessageTypeMboxViewConf )
{
iMmsHeaders->MMBoxMessageHeadersL().SetMMState( temp );
}
else
{
// For the MMBox view PDU types we must put the states into
// an array as they are used for filtering, and there may be
// more than one state headers
iMmsHeaders->MMBoxViewHeadersL().MMStateArray().InsertInOrder( temp );
}
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- State in MMBox:") );
switch ( temp )
{
case KMmsDraft:
TMmsLogger::Log( _L("-- Draft") );
break;
case KMmsSent:
TMmsLogger::Log( _L("-- Sent") );
break;
case KMmsNew:
TMmsLogger::Log( _L("-- New") );
break;
case KMmsRetrieved:
TMmsLogger::Log( _L("-- Retrieved") );
break;
case KMmsForwarded:
TMmsLogger::Log( _L("-- Forwarded") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMMBoxStoreStatusL()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->MMBoxMessageHeadersL().SetMmsStoreStatus( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- MMBox Store Status:") );
switch ( temp )
{
case KMmsStatusOk:
TMmsLogger::Log( _L("-- Ok") );
break;
default:
if ( ( temp & KMmsErrorRangeMask ) == KMmsErrorTransient )
{
TMmsLogger::Log( _L("-- Transient error %d"), temp );
}
else if ( ( temp & KMmsErrorRangeMask ) == KMmsErrorPermanent )
{
TMmsLogger::Log( _L("-- Permanent error %d"), temp );
}
else
{
TMmsLogger::Log( KLogUnknown, temp );
}
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMMBoxStoreStatusTextL()
{
HBufC16* buffer = NULL;
buffer = GetEncodedTextStringL();
CleanupStack::PushL( buffer );
iMmsHeaders->MMBoxMessageHeadersL().SetMmsStoreStatusTextL( buffer->Des() );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- MMBox Store Status Text: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeStoredInMMBoxHeaderL()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->MMBoxMessageHeadersL().SetMmsStored( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- Stored to MMBox:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeAttributesHeaderL()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
User::LeaveIfError(iMmsHeaders->MMBoxViewHeadersL().AttributeArray().Append( temp ));
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- MMBox Attribute: %d"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeTotalsL()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->MMBoxViewHeadersL().SetMmsTotals( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- MMBox Totals requested:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMboxTotalsL()
{
GetValueLength(); // we don't need this
// get message quota or size quota
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
// actual value of the quota
// We only get normal integer (not a 64 bit integer) as a 32 bit integer
// will give quota 4294967295 bytes or messages (which should be plenty)
TUint32 size = 0;
size = GetLongOrShortInteger();
// save message quota
if ( byte == KMmsMessageCountToken )
{
iMmsHeaders->MMBoxViewHeadersL().SetMMBoxTotalNumber( size );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- MMBox total: %d messages"), size );
#endif
}
else if ( byte == KMmsMessageSizeToken )
{
iMmsHeaders->MMBoxViewHeadersL().SetMMBoxTotalSize( size );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- MMBox total: %d bytes"), size );
#endif
}
// illegal token value is ignored.
else
{
#ifndef _NO_MMSS_LOGGING_
TUint temp;
temp = byte;
TMmsLogger::Log( _L("- MMBox total: illegal token %d"), temp );
#endif
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeQuotaHeaderL()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->MMBoxViewHeadersL().SetMmsQuotas( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- MMBox Quotas requested:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMBoxQuotasL()
{
TUint8 byte;
GetValueLength(); // we don't need this
// get message quota or size quota
byte = GetWellKnownFieldValueOrSkip();
// actual value of the quota
// We only get normal integer (not a 64 bit integer) as a 32 bit integer
// will give quota 4294967295 bytes or messages (which should be plenty)
TUint32 size = 0;
size = GetLongOrShortInteger();
// save message quota
if ( byte == KMmsMessageCountToken )
{
iMmsHeaders->MMBoxViewHeadersL().SetMMBoxQuotaNumber( size );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- MMBox quota: %d messages"), size );
#endif
}
else if ( byte == KMmsMessageSizeToken )
{
iMmsHeaders->MMBoxViewHeadersL().SetMMBoxQuotaSize( size );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- MMBox quota: %d bytes"), size );
#endif
}
// illegal token value is ignored.
else
{
#ifndef _NO_MMSS_LOGGING_
TUint temp;
temp = byte;
TMmsLogger::Log( _L("- MMBox quota: illegal token %d"), temp );
#endif
}
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMessageCountL()
{
TUint32 size = 0;
size = GetLongOrShortInteger();
iMmsHeaders->MMBoxViewHeadersL().SetMmsMessageCount( size );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Message count: %d"), size );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeStartInMMBoxViewL()
{
TUint32 size = 0;
size = GetLongOrShortInteger();
iMmsHeaders->MMBoxViewHeadersL().SetMmsStart( size );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Start of messages: %d"), size );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeDistributionIndicator()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetDistributionIndicator( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- May be distributed further:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeElementDescriptorL()
{
#ifndef _NO_MMSS_LOGGING_
TPtrC dummy;
#endif
TUint32 size = 0;
// remember where we are
size = GetValueLength();
if ( size > iLength - iPosition )
{
// If the message is corrupted and indicates incorrect length,
// make sure we don't read beyond the buffer
// We don't declare that the message is corrupted because of this.
// We just read what we can, we don't use this header anyway.
// If there is data following a corrupted header, it will be lost.
size = iLength - iPosition;
}
TUint endPosition = iPosition + size;
HBufC16* buffer = NULL;
buffer = GetSimpleTextStringL(); // I hope this is correct.
CleanupStack::PushL( buffer );
iMmsHeaders->ElementDescriptorL().SetContentReferenceL( buffer->Des() );
#ifndef _NO_MMSS_LOGGING_
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Content reference: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
buffer = NULL;
TUint8 byte;
while ( iPosition < endPosition )
{
byte = GetWellKnownFieldValueOrSkip();
if ( byte != KMmsAssignedTopLevelContentType )
{
// Unknown parameter, ignore
SkipFieldValue();
}
else
{
// the value of the parameter is content-type of the top-level message content
TPtrC8 contType = GetContentTypeL();
iMmsHeaders->ElementDescriptorL().SetContentTypeL( contType );
#ifndef _NO_MMSS_LOGGING_
buffer = HBufC16::NewL( contType.Length() );
CleanupStack::PushL( buffer );
buffer->Des().Copy( contType );
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("-- Top level content type : %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
buffer = NULL;
#endif
}
}
iPosition = endPosition;
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeMessageLimitL()
{
TUint32 size = 0;
size = GetLongOrShortInteger();
iMmsHeaders->MMBoxViewHeadersL().SetMmsLimit( size );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Max number of messages to list: %d"), size );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeExtNotifTextL()
{
TPtrC8 byteString;
HBufC16* buffer = NULL;
byteString.Set( GetUtf8String() );
// There will be at most one unicode character per one utf-8 character
buffer = HBufC16::NewL( byteString.Length() * KMms2 );
TPtr16 pointer16 = buffer->Des();
CleanupStack::PushL( buffer );
// We convert what we can and forget the rest.
CnvUtfConverter::ConvertToUnicodeFromUtf8( pointer16, byteString );
iMmsHeaders->SetExtendedNotificationL( pointer16 );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Extend. notif. txt: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeExtNotifEolL()
{
HBufC16* buffer = NULL;
buffer = GetSimpleTextStringL();
CleanupStack::PushL( buffer );
iMmsHeaders->SetMessageComplete( ( buffer->Des() )[0] );
#ifndef _NO_MMSS_LOGGING_
TUint temp;
temp = ( buffer->Des() )[0];
TMmsLogger::Log( _L("- End of ext. notif: 0x%02X"), temp );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeContentClass()
{
TUint8 byte; // for simple reads
TUint temp;
byte = GetWellKnownFieldValueOrSkip();
temp = byte;
iMmsHeaders->SetContentClass( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Content Class:") );
switch ( temp )
{
case KMmsContentClassText:
TMmsLogger::Log( _L("-- Text") );
break;
case KMmsContentClassImageBasic:
TMmsLogger::Log( _L("-- Image Basic") );
break;
case KMmsContentClassImageRich:
TMmsLogger::Log( _L("-- Image Rich") );
break;
case KMmsContentClassVideoBasic:
TMmsLogger::Log( _L("-- Video Basic") );
break;
case KMmsContentClassVideoRich:
TMmsLogger::Log( _L("-- Video Rich") );
break;
case KMmsContentClassMegaPixel:
TMmsLogger::Log( _L("-- Megapixel") );
break;
case KMmsContentClassContentBasic:
TMmsLogger::Log( _L("-- Content Basic") );
break;
case KMmsContentClassContentRich:
TMmsLogger::Log( _L("-- Content Rich") );
break;
default:
TMmsLogger::Log( _L("-- Unknown %d"), temp );
break;
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeDrmContentHeader()
{
TUint8 byte; // for simple reads
TUint temp;
byte = GetWellKnownFieldValueOrSkip();
temp = byte;
iMmsHeaders->SetDrmContent( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- DRM Content:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeAdaptationAllowed()
{
TUint8 byte; // for simple reads
TUint temp;
byte = GetWellKnownFieldValueOrSkip();
temp = byte;
iMmsHeaders->SetAdaptationAllowed( temp );
#ifndef _NO_MMSS_LOGGING_
LogYesNo( _L("- Adaptation allowed:"), temp );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeApplicationIdL()
{
HBufC16* buffer = NULL;
buffer = GetSimpleTextStringL();
CleanupStack::PushL( buffer );
iMmsHeaders->SetApplicIdL( buffer->Des() );
#ifndef _NO_MMSS_LOGGING_
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Application-ID: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeReplyApplicationIdL()
{
HBufC16* buffer = NULL;
buffer = GetSimpleTextStringL();
CleanupStack::PushL( buffer );
iMmsHeaders->SetReplyApplicIdL( buffer->Des() );
#ifndef _NO_MMSS_LOGGING_
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Reply-To-Application-ID: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeApplicationInfoL()
{
TPtrC8 byteString;
byteString.Set( GetByteString() );
iMmsHeaders->SetAuxApplicInfoL( byteString );
#ifndef _NO_MMSS_LOGGING_
TPtrC dummy;
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Aux-Applic-Info: %S"), &dummy );
CleanupStack::PopAndDestroy( buffer );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeRecommendedRetrievalMode()
{
TUint8 byte;
TUint temp;
byte = GetWellKnownFieldValueOrSkip();
temp = byte;
iMmsHeaders->SetRecommendedRetrievalMode( temp );
#ifndef _NO_MMSS_LOGGING_
if ( temp == KMmsRecommendedRetrievalModeManual )
{
TMmsLogger::Log( _L("- Recommended retrieval mode: Manual") );
}
else
{
TMmsLogger::Log( _L("- Recommended retrieval mode unknown %d"), temp );
}
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeRecommendedRetrievalModeTextL()
{
HBufC16* buffer = NULL;
buffer = GetEncodedTextStringL();
CleanupStack::PushL( buffer );
iMmsHeaders->SetRecommendedRetrievalModeTextL( buffer->Des() );
#ifndef _NO_MMSS_LOGGING_
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
TMmsLogger::Log( _L("- Response text: %S"), &dummy );
#endif
CleanupStack::PopAndDestroy( buffer );
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
//
void CMmsDecode::DecodeCancelReplaceIdL( TInt aHeader )
{
TPtrC8 byteString;
byteString.Set( GetByteString() );
iMmsHeaders->SetReplaceCancelIdL( byteString );
#ifndef _NO_MMSS_LOGGING_
HBufC16* buffer = NULL;
buffer = HBufC16::NewLC( byteString.Length() );
buffer->Des().Copy( byteString );
// we cannot log indefinitely long strings.
// We get this long strings only if the message is corrupted.
TPtrC dummy;
dummy.Set( buffer->Des().Left( KMmsMaxLogStringLength ) );
if ( aHeader == KMmsAssignedReplaceId )
{
TMmsLogger::Log( _L("- Replace Id: %S"), &dummy );
}
if ( aHeader == KMmsAssignedCancelId )
{
TMmsLogger::Log( _L("- Cancel Id: %S"), &dummy );
}
CleanupStack::PopAndDestroy( buffer );
#endif
}
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::DecodeCancelStatus()
{
TUint8 byte;
byte = GetWellKnownFieldValueOrSkip();
TUint temp;
temp = byte;
iMmsHeaders->SetCancelStatus( temp );
#ifndef _NO_MMSS_LOGGING_
TMmsLogger::Log( _L("- Cancel Status:") );
switch ( temp )
{
case KMmsCancelRequestSuccessfullyReceived:
TMmsLogger::Log( _L("-- successful") );
break;
case KMmsCancelRequestCorrupted:
TMmsLogger::Log( _L("-- corrupted") );
break;
default:
TMmsLogger::Log( KLogUnknown, temp );
break;
}
#endif
}
#ifndef _NO_MMSS_LOGGING_
// ---------------------------------------------------------
//
// ---------------------------------------------------------
void CMmsDecode::LogDateL( const TInt64& aDate )
{
TBuf<KMmsDateFormatLength> dateString;
TMmsLogger::Log( _L("%d seconds from 1.1.1970 (UTC)"), aDate );
TTime time = TTime( KMmsYear1970String ) +
TTimeIntervalMicroSeconds( aDate * KMmsMicroToSeconds );
time.FormatL(dateString,(_L("%*E%*D%X%*N%Y %1 %2 '%3")));
TMmsLogger::Log( _L("date %S"), &dateString );
time.FormatL(dateString,(_L("%-B%:0%J%:1%T%:2%S%:3%+B")));
TMmsLogger::Log( _L("time %S"), &dateString );
}
#endif
// ================= OTHER EXPORTED FUNCTIONS ==============
// End of File