void CEmTubePlaylist::ConstructL( RFileReadStream& aStream )
{
TInt l = aStream.ReadInt32L();
if( l )
{
iName = HBufC::NewL( l );
TPtr pName( iName->Des() );
aStream.ReadL( pName, l );
}
else
{
iName = KNullDesC().AllocL();
}
iType = (TEmTubePlaylistType)aStream.ReadInt32L();
iFlags = aStream.ReadInt32L();
TInt count = aStream.ReadInt32L();
for(TInt i=0;i<count;i++)
{
CEmTubePlaylistEntry* e = CEmTubePlaylistEntry::NewLC();
e->ImportL( aStream );
iEntries.AppendL( e );
CleanupStack::Pop( e );
}
}
void CEmTubePlaylistEntry::ImportL( RFileReadStream& aStream )
{
TInt l = aStream.ReadInt32L();
if( l )
{
iLocation = HBufC::NewL( l );
TPtr pLocation( iLocation->Des() );
aStream.ReadL( pLocation, l );
}
else
{
iLocation = KNullDesC().AllocL();
}
l = aStream.ReadInt32L();
if( l )
{
iName = HBufC::NewL( l );
TPtr pName( iName->Des() );
aStream.ReadL( pName, l );
}
else
{
iName = KNullDesC().AllocL();
}
iPlayCount = aStream.ReadInt32L();
iType = (TEmTubePlaylistEntryType)aStream.ReadInt32L();
TReal t = aStream.ReadReal64L();
iTime = TTime( Int64( t ) );
}
// -----------------------------------------------------------------------------
// RDRMRightsClient::FileToListL
// Converts the given file into an array.
// -----------------------------------------------------------------------------
//
void RDRMRightsClient::FileToListL( RFs& aFs,
const TDesC& aFileName,
RPointerArray< CDRMPermission >& aList )
{
DRMLOG( _L( "RDRMRightsClient::FileToListL" ) );
TInt error = KErrNone;
// Temporary storage.
CDRMPermission* tmpObject;
// To access the file data.
RFileReadStream fileStream;
// How many objects there is in the file.
TInt size = 0;
// Temporary counter.
TInt count = 0;
// Open the file.
User::LeaveIfError( fileStream.Open( aFs, aFileName, EFileRead | EFileStream ) );
CleanupClosePushL( fileStream );
size = fileStream.ReadInt32L();
while( count < size )
{
// Allocate a new RO.
tmpObject = CDRMPermission::NewL();
// Read the object.
TRAP( error, tmpObject->InternalizeL( fileStream ) );
if ( !error )
{
// Add the object into the list.
error = aList.Append( tmpObject );
}
if ( error )
{
delete tmpObject;
User::Leave( error );
}
// Now tmpObject is under responsibility of aList.
++count;
}
// All done.
CleanupStack::PopAndDestroy(); // fileStream
}
/**
@fn void ReadIniFileL()
Open the ini file and read the contents. Intended for manually testing the
write code.
*/
LOCAL_C void ReadIniFileL()
{
RFs fileSession;
User::LeaveIfError(fileSession.Connect());
CleanupClosePushL(fileSession);
RFileReadStream fileReadStream;
User::LeaveIfError(fileReadStream.Open(fileSession, IniFileName, EFileRead));
CleanupClosePushL(fileReadStream);
TInt32 value1 = 0;
TInt8 value2 = 0;
//read the KEComUid and KSsaUid
value1 = fileReadStream.ReadInt32L();
value1 = fileReadStream.ReadInt32L();
value2 = fileReadStream.ReadInt8L();
// close: fileSession, fileReadStream
CleanupStack::PopAndDestroy(2);
}
// -----------------------------------------------------------------------------
// CSisxUIStartupFile::ReadPrivateStartupItemsL
// Read startup items from private file.
// (other items were commented in a header).
// -----------------------------------------------------------------------------
//
void CSisxUIStartupFile::ReadPrivateStartupItemsL( RArray<TStartupTaskParam>& aStartupItems )
{
RFileReadStream reader;
reader.PushL();
User::LeaveIfError( reader.Open( iFileSession, *iPrivateFile, EFileRead ) );
// Read the number of entries
TInt count = reader.ReadInt32L();
// Read file names from the file
while ( count-- )
{
TStartupTaskParam item;
HBufC* fileName = HBufC::NewLC( reader, KMaxFileName );
item.iFileName.Copy( *fileName );
CleanupStack::PopAndDestroy( fileName);
aStartupItems.Append( item );
}
CleanupStack::PopAndDestroy(); // reader
}
void CGsaStateTranToDiffStatesTest::DoStateRequestTransitionToDiffStatesL()
{
INFO_PRINTF1(_L("DoStateRequestTransitionToDiffStates test started...."));
RFs fs;
TInt err = fs.Connect();
TEST(err == KErrNone);
User::LeaveIfError(err);
CleanupClosePushL(fs);
if (iProcessName == KTestProcTranFromNormal)
{
RFileReadStream fileReadStream1;
err = fileReadStream1.Open(fs, KGsaTestStateTranFromNormalResult, EFileRead);
INFO_PRINTF2(_L("Error in opening file: %d"), err);
TEST(err == KErrNone);
User::LeaveIfError(err);
CleanupClosePushL(fileReadStream1);
//System state before starting the test.
CurrentSystemStateForStateTranTestL(fileReadStream1, ESsmNormal);
//Scenario 1 - Request for state change from Normal to invalid state results in KErrNotSupported
INFO_PRINTF1(_L("Request for state change from Normal to invalid state"));
TInt stateTranResult = fileReadStream1.ReadInt32L();
TEST(stateTranResult == KErrNotSupported);
INFO_PRINTF2(_L("Actual : %d Expected : -5"), stateTranResult);
CurrentSystemStateForStateTranTestL(fileReadStream1, ESsmNormal);
//Scenario 2 - Request for state change from Normal to fail state with invalid substate results in KErrNotSupported
INFO_PRINTF1(_L("Request for state change from Normal to fail state with invalid substate"));
stateTranResult = fileReadStream1.ReadInt32L();
TEST(stateTranResult == KErrNotSupported);
INFO_PRINTF2(_L("Actual : %d Expected : -5"), stateTranResult);
CurrentSystemStateForStateTranTestL(fileReadStream1, ESsmNormal);
//Scenario 3 - Request for two state changes(1. fail state 2. shutdown state) one after the other without waiting
// for the first one to complete. Cancels both transition request.
INFO_PRINTF1(_L("Request for two state changes(1. fail state 2. shutdown state)"));
INFO_PRINTF1(_L("one after the other without waiting for the first one to complete."));
INFO_PRINTF1(_L("Cancel the fail state transition request."));
stateTranResult = fileReadStream1.ReadInt32L();
TEST(stateTranResult == KErrCancel);
INFO_PRINTF2(_L("First request to the fail state will be completed with %d Expected -3"), stateTranResult);
CurrentSystemStateForStateTranTestL(fileReadStream1, ESsmNormal);
stateTranResult = fileReadStream1.ReadInt32L();
TEST(stateTranResult == KErrCancel);
INFO_PRINTF2(_L("Second request to transit to the shutdown state will be completed with %d Expected -3"), stateTranResult);
CurrentSystemStateForStateTranTestL(fileReadStream1, ESsmNormal);
INFO_PRINTF2(_L("Test process exits with %d Expected -3"), stateTranResult);
CleanupStack::PopAndDestroy();
// Delete the result file
//err = fs.Delete(KGsaTestStateTranFromNormalResult);
RFileReadStream fileReadStream2;
err = fileReadStream2.Open(fs, KGsaTestStateTranToShutdownResult, EFileRead);
TEST(err == KErrNone);
User::LeaveIfError(err);
CleanupClosePushL(fileReadStream2);
//System state before starting the test.
CurrentSystemStateForStateTranTestL(fileReadStream2, ESsmNormal);
//Scenario 1 - Request for state transition to shutdown state - invalid substate
// request to transit to the shutdown state will be completed with KErrNotSupported
INFO_PRINTF1(_L("Request for state transition to shutdown state - invalid substate"));
stateTranResult = fileReadStream2.ReadInt32L();
TEST(stateTranResult == KErrNotSupported);
INFO_PRINTF2(_L("Actual : %d Expected : -5"), stateTranResult);
CurrentSystemStateForStateTranTestL(fileReadStream2, ESsmNormal);
INFO_PRINTF2(_L("Test process exits with %d Expected -5"), stateTranResult);
CleanupStack::PopAndDestroy();
// Delete the result file
//err = fs.Delete(KGsaTestStateTranToShutdownResult);
RFileReadStream fileReadStream3;
err = fileReadStream3.Open(fs, KGsaTestStateTranFromShutdownResult, EFileRead);
TEST(err == KErrNone);
User::LeaveIfError(err);
CleanupClosePushL(fileReadStream3);
//System state before starting the test.
CurrentSystemStateForStateTranTestL(fileReadStream3, ESsmNormal);
//Scenario 1 - Request for state change from Normal to shutdown state to critical substate
// Cancel the request immediately
INFO_PRINTF1(_L("Request for state change from Normal to shutdown critical substate and Cancel the request"));
stateTranResult = fileReadStream3.ReadInt32L();
TEST(stateTranResult == KErrCancel);
INFO_PRINTF2(_L("Actual : %d Expected : -3"), stateTranResult);
CurrentSystemStateForStateTranTestL(fileReadStream3, ESsmNormal);
//Scenario 2 - Request for state change from Normal to shutdown state to any substate
// Cancel the request immediately, so that we can proceed with the next test scenario.
INFO_PRINTF1(_L("Request for state change from Normal to shutdown any substate and Cancel the request"));
stateTranResult = fileReadStream3.ReadInt32L();
TEST(stateTranResult == KErrCancel);
INFO_PRINTF2(_L("Actual : %d Expected : -3"), stateTranResult);
CurrentSystemStateForStateTranTestL(fileReadStream3, ESsmNormal);
INFO_PRINTF2(_L("Test process exits with %d Expected -3"), stateTranResult);
CleanupStack::PopAndDestroy();
// Delete the result file
//err = fs.Delete(KGsaTestStateTranFromShutdownResult);
}
else if(iProcessName == KTestProcTranFromStartup)
{
RFileReadStream fileReadStream;
err = fileReadStream.Open(fs, KGsaTestStateTranFromStartupResult, EFileRead);
TEST(err == KErrNone);
User::LeaveIfError(err);
CleanupClosePushL(fileReadStream);
//System state before starting the test.
CurrentSystemStateForStateTranTestL(fileReadStream, ESsmStartup);
//Scenario 1 - Request for state change from Startup to invalid state
INFO_PRINTF1(_L("Request for state change from Startup to invalid state"));
TInt stateTranResult = fileReadStream.ReadInt32L();
TEST(stateTranResult == KErrNotSupported);
INFO_PRINTF2(_L("Actual : %d Expected : -5"), stateTranResult);
CurrentSystemStateForStateTranTestL(fileReadStream, ESsmStartup);
INFO_PRINTF2(_L("Test process exits with %d Expected -5"), stateTranResult);
CleanupStack::PopAndDestroy();
// Delete the result file
//err = fs.Delete(KGsaTestStateTranFromStartupResult);
}
else
{
TEST(err == KErrArgument);
return;
}
CleanupStack::PopAndDestroy();
INFO_PRINTF1(_L("case completed\n"));
}
void CJournalFile::ReadEntryL(RFileReadStream& aJournalStream, TInt aDrive)
{
TIntegrityServicesEvent event = static_cast<TIntegrityServicesEvent> (aJournalStream.ReadInt32L());
HBufC* removedFile = NULL;
HBufC* backupFile = NULL;
HBufC* tempFile = NULL;
HBufC* addedFile = NULL;
switch(event)
{
case ERemovedFile:
{
VerifyIsEmptyOrFileEventL(iLastEvent);
removedFile = HBufC::NewLC(aJournalStream, KMaxFileName);
// should be followed by the backup event
if(aJournalStream.ReadInt32L() != EBackupFile)
{
User::Leave(KErrCorrupt);
}
backupFile = HBufC::NewLC(aJournalStream, KMaxFileName);
// make sure files are located on the same drive as the journal
if(CJournalFile::CheckFileNameL(iFs, *removedFile) != aDrive
|| CJournalFile::CheckFileNameL(iFs, *backupFile) != aDrive)
{
User::Leave(KErrCorrupt);
}
CIntegrityTreeLeaf* removeLeaf = iTreeRoot->AddNodeL(*removedFile, ERemovedFile, iJournalFileName);
CIntegrityTreeLeaf* backupLeaf = iTreeRoot->AddNodeL(*backupFile, EBackupFile, iJournalFileName);
removeLeaf->SetPeer(backupLeaf);
backupLeaf->SetPeer(removeLeaf);
CleanupStack::PopAndDestroy(backupFile);
CleanupStack::PopAndDestroy(removedFile);
iBackupFilesCount++;
iLastEvent = ERemovedFile;
}
break;
case EBackupFile:
// cannot have a backup file on its own
User::Leave(KErrCorrupt);
break;
case ETempFile:
VerifyIsEmptyOrFileEventL(iLastEvent);
tempFile = HBufC::NewLC(aJournalStream, KMaxFileName);
// make the file is located on the same drive as the journal
if(CJournalFile::CheckFileNameL(iFs, *tempFile) != aDrive)
{
User::Leave(KErrCorrupt);
}
iTreeRoot->AddNodeL(*tempFile, ETempFile, iJournalFileName);
CleanupStack::PopAndDestroy(tempFile);
iLastEvent = ETempFile;
break;
case EAddedFile:
VerifyIsEmptyOrFileEventL(iLastEvent);
addedFile = HBufC::NewLC(aJournalStream, KMaxFileName);
// make the file is located on the same drive as the journal
if(CJournalFile::CheckFileNameL(iFs, *addedFile) != aDrive)
{
User::Leave(KErrCorrupt);
}
iTreeRoot->AddNodeL(*addedFile, EAddedFile, iJournalFileName);
CleanupStack::PopAndDestroy(addedFile);
iLastEvent = EAddedFile;
break;
case ECommitted:
VerifyIsFileEventL(iLastEvent);
iLastEvent = ECommitted;
break;
case EBackupFilesRemoved:
if(iLastEvent != ECommitted)
{
User::Leave(KErrCorrupt);
}
iLastEvent = EBackupFilesRemoved;
break;
case EAddedFilesRemoved:
if(iLastEvent != ECommitted)
VerifyIsFileEventL(iLastEvent); // The last event can be only a commit, or one of the file events
iLastEvent = EAddedFilesRemoved;
break;
case ETempFilesRemoved:
if(iLastEvent != EBackupFilesRemoved && iLastEvent != ERemovedFilesRestored)
{
User::Leave(KErrCorrupt);
}
iLastEvent = ETempFilesRemoved;
break;
case ERemovedFilesRestored:
if(iLastEvent != EAddedFilesRemoved)
{
User::Leave(KErrCorrupt);
}
iLastEvent = ERemovedFilesRestored;
break;
default:
User::Leave(KErrCorrupt);
break;
}
}
void CVideoEntry::ImportL( RFileReadStream &aStream )
{
delete iBitmap;
iBitmap = NULL;
delete iScaledBitmap;
iScaledBitmap = NULL;
delete iMediaTitle;
iMediaTitle = NULL;
delete iUrl;
iUrl = NULL;
delete iThumbnailUrl;
iThumbnailUrl = NULL;
delete iThumbnailFile;
iThumbnailFile = NULL;
delete iVideoId;
iVideoId = NULL;
delete iAuthorName;
iAuthorName = NULL;
delete iAuthorUrl;
iAuthorUrl = NULL;
delete iRelatedUrl;
iRelatedUrl = NULL;
delete iAuthorVideosUrl;
iAuthorVideosUrl = NULL;
TInt len;
len = aStream.ReadInt16L();
if( len )
{
iMediaTitle = HBufC::NewL( len );
TPtr tmp(iMediaTitle->Des());
aStream.ReadL(tmp, len);
}
else
{
iMediaTitle = KNullDesC().AllocL();
}
len = aStream.ReadInt16L();
if( len )
{
iUrl = HBufC::NewL( len );
TPtr tmp(iUrl->Des());
aStream.ReadL(tmp, len);
}
else
{
iUrl = KNullDesC().AllocL();
}
len = aStream.ReadInt16L();
if( len )
{
iThumbnailUrl = HBufC::NewL( len );
TPtr tmp(iThumbnailUrl->Des());
aStream.ReadL(tmp, len);
}
else
{
iThumbnailUrl = KNullDesC().AllocL();
}
len = aStream.ReadInt16L();
if( len )
{
iThumbnailFile = HBufC::NewL( len );
TPtr tmp(iThumbnailFile->Des());
aStream.ReadL(tmp, len);
}
else
{
iThumbnailFile = KNullDesC().AllocL();
}
len = aStream.ReadInt16L();
if( len )
{
iVideoId = HBufC::NewL( len );
TPtr tmp(iVideoId->Des());
aStream.ReadL(tmp, len);
}
else
{
iVideoId = KNullDesC().AllocL();
}
len = aStream.ReadInt16L();
if( len )
{
iAuthorName = HBufC::NewL( len );
TPtr tmp(iAuthorName->Des());
aStream.ReadL(tmp, len);
}
else
{
iAuthorName = KNullDesC().AllocL();
}
len = aStream.ReadInt16L();
if( len )
{
iAuthorUrl = HBufC::NewL( len );
TPtr tmp(iAuthorUrl->Des());
aStream.ReadL(tmp, len);
}
else
{
iAuthorUrl = KNullDesC().AllocL();
}
len = aStream.ReadInt16L();
if( len )
{
iRelatedUrl = HBufC::NewL( len );
TPtr tmp(iRelatedUrl->Des());
aStream.ReadL(tmp, len);
}
else
{
iRelatedUrl = KNullDesC().AllocL();
}
len = aStream.ReadInt16L();
if( len )
{
iAuthorVideosUrl = HBufC::NewL( len );
TPtr tmp(iAuthorVideosUrl->Des());
aStream.ReadL(tmp, len);
}
else
{
iAuthorVideosUrl = KNullDesC().AllocL();
}
iThumbnailHeight = aStream.ReadInt32L();
iThumbnailWidth = aStream.ReadInt32L();
iDuration = aStream.ReadInt32L();
iAverageRating = aStream.ReadReal32L();
iViewCount = aStream.ReadInt32L();
}
// ---------------------------------------------------------------------------
// CLbtCleanupHandler::ReadCleanupDataFromFileL
// ---------------------------------------------------------------------------
//
void CLbtCleanupHandler::ReadCleanupDataFromFileL()
{
FUNC_ENTER("CLbtCleanupHandler::ReadCleanupDataFromFileL");
// First reset the cleanup data
iCleanupItems.ResetAndDestroy();
// Open handle to file system
RFs fs;
User::LeaveIfError(fs.Connect());
CleanupClosePushL(fs);
// Obtain the file path
TFileName file;
// Gets the path in which the file can be created
fs.SessionPath(file);
// Create the file Directory ie the private directory of the process
fs.MkDirAll(file);
// Append the name of the file
file.Append(KLbtAppCleanupFileName);
// Open read stream
RFileReadStream readStream;
TInt error = readStream.Open( fs, file, EFileRead );
if( error != KErrNone )
{
// File may not exists
ERROR("Opening of cleanup file failed with : %d", error);
readStream.Close();
CleanupStack::PopAndDestroy(); //fs
return;
}
CleanupClosePushL( readStream );
// Get the count in the cleanup array
TInt count = readStream.ReadInt16L();
for(TInt i=0; i<count; ++i)
{
RArray<TLbtTriggerId> triggers;
CleanupClosePushL(triggers);
// Read the trigger ids
TInt triggerCount = readStream.ReadInt16L();
for(TInt j=0;j<triggerCount;++j)
{
triggers.Append( readStream.ReadUint32L() );
}
// Read the universal time
TInt year = readStream.ReadInt32L();
TMonth month = static_cast<TMonth>( readStream.ReadInt32L() );
TInt day = readStream.ReadInt32L();
TDateTime dateTime( year,
month,
day,
0,
0,
0,
0 );
TTime time( dateTime );
CLbtCleanupItem* cleanupItem = new (ELeave) CLbtCleanupItem();
cleanupItem->AddCleanupItem( triggers, time );
CleanupStack::Pop(); // triggers
triggers.Close();
// Append cleanup item to the cleaup items array
iCleanupItems.Append( cleanupItem );
}
CleanupStack::PopAndDestroy(2); // fs and readStream
}
// ----------------------------------------------------------------------------
// WidgetPreferences::PreferenceL
// Get preference for a key
//
//
// ----------------------------------------------------------------------------
TInt WidgetPreferences::preferenceL( const TDesC& akey, HBufC*& avalue)
{
TInt rSuccess = KErrNotFound;
TInt size = 0;
if ( !m_basepath || (m_basepath->Length() <= 0) )
return rSuccess;
if ( akey.Length() <= KMaxKeyValueSize ) {
HBufC* k = HBufC::NewLC( akey.Length() + KMaxIntLength + 1 );
k->Des().Format( KKeyFormat, m_widgetid, &akey );
PrefElement* pref = m_preferences->Find( *k );
if ( !pref ) {
CleanupStack::PopAndDestroy( k );
return rSuccess;
}
size = pref->valueSize();
if ( size > KMaxKeyValueSize ) {
// return contents from temp file whose name is stored
// in the m_value member of m_preferences
RFs fs;
if ( fs.Connect() == KErrNone ) {
CleanupClosePushL( fs );
HBufC* filePath = HBufC::NewLC( pref->value().Length() );
TPtr fName( filePath->Des() );
fName.Append( pref->value() );
RFileReadStream readStream;
if ( readStream.Open( fs, *filePath, EFileRead ) == KErrNone ) {
CleanupClosePushL( readStream );
TInt len( readStream.ReadInt32L() );
if ( len > 0 ) {
HBufC* v = HBufC::NewLC( len );
TPtr ptrvalue = v->Des();
readStream.ReadL( ptrvalue, len );
avalue = v; // ownership xfered
CleanupStack::Pop( v );
rSuccess = KErrNone;
}
CleanupStack::PopAndDestroy();//readStream
}
CleanupStack::PopAndDestroy( 2 ); //filePath,fs
}
}
else if ( size >= 0 ) {
avalue = pref->value().AllocL();
rSuccess = KErrNone;
}
CleanupStack::PopAndDestroy( k );
}
return rSuccess;
}
TBool CSupLoginServiceProvider::ReadDataFromFileL()
{
__LOGSTR_TOFILE("CSupLoginServiceProvider::ReadDataFromFileL() begins");
// If current operation should be cancelled
if (iCancelStatus)
return EFalse;
TBool retValue = ETrue;
RFs fsSession;
RFileReadStream readStream; // Read stream from file
// Install read file session
User::LeaveIfError(fsSession.Connect());
CleanupClosePushL(fsSession);
TInt err = readStream.Open(fsSession, iSettingsFile, EFileStream | EFileRead | EFileShareExclusive);
CleanupClosePushL(readStream);
// If file does not exist - return EFalse
if (err != KErrNone)
{
retValue = EFalse;
__LOGSTR_TOFILE("CSupLoginServiceProvider::ReadDataFromFileL() failed to open");
}
if (retValue)
{
TInt valueMaxLen = 0;
HBufC8* tempValue = NULL;
// iMemberID
valueMaxLen = readStream.ReadInt32L();
__LOGSTR_TOFILE("CSupLoginServiceProvider::ReadDataFromFileL() reading member id");
tempValue = HBufC8::NewL(readStream, valueMaxLen);
if (tempValue)
{
if (iMemberID)
{
delete iMemberID;
iMemberID = NULL;
}
iMemberID = tempValue->Des().AllocL();
delete tempValue;
tempValue = NULL;
}
// iUsername
valueMaxLen = readStream.ReadInt32L();
__LOGSTR_TOFILE("CSupLoginServiceProvider::ReadDataFromFileL() reading username");
tempValue = HBufC8::NewL(readStream, valueMaxLen);
if (tempValue)
{
if (iUsername)
{
delete iUsername;
iUsername = NULL;
}
iUsername = tempValue->Des().AllocL();
delete tempValue;
tempValue = NULL;
}
// iPassword
valueMaxLen = readStream.ReadInt32L();
__LOGSTR_TOFILE("CSupLoginServiceProvider::ReadDataFromFileL() reading password");
tempValue = HBufC8::NewL(readStream, valueMaxLen);
if (tempValue)
{
if (iPassword)
{
delete iPassword;
iPassword = NULL;
}
iPassword = tempValue->Des().AllocL();
delete tempValue;
tempValue = NULL;
}
}
// Free resource handlers
CleanupStack::PopAndDestroy(&readStream);
CleanupStack::PopAndDestroy(&fsSession);
__LOGSTR_TOFILE("CSupLoginServiceProvider::ReadDataFromFileL() ends");
return retValue;
}