Fix for bug 1301. Added bld.inf to rootcertificates component for exporting the SWI certificate store.
/*
* Copyright (c) 2003-2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "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:
*
*/
#include <caf/caftypes.h>
#include <caf/metadataarray.h>
#include <caf/supplier.h>
#include "resolver.h"
#include <caf/importfile.h>
#include "agentinfo.h"
#include <caf/agentinterface.h>
#ifndef REMOVE_CAF1
#include <caf/cafmimeheader.h>
#include <apmstd.h>
#endif // REMOVE_CAF1
using namespace ContentAccess;
EXPORT_C CSupplier* CSupplier::NewLC()
{
CSupplier* self = new (ELeave) CSupplier();
CleanupStack::PushL(self);
self->ConstructL();
return self;
}
EXPORT_C CSupplier* CSupplier::NewL()
{
CSupplier* self = NewLC();
CleanupStack::Pop(self);
return self;
}
CSupplier::CSupplier()
{
}
CSupplier::~CSupplier()
{
delete iAgentResolver;
delete iOutputDirectory;
}
void CSupplier::ConstructL()
{
iAgentResolver = CAgentResolver::NewL(EFalse);
iOutputDirectory=HBufC::NewL(0);
}
EXPORT_C TBool CSupplier::IsImportSupported(const TDesC8& aMimeType)
{
TBuf8 <KMaxDataTypeLength> mimeLowerCase;
if(aMimeType.Length() > KMaxDataTypeLength)
{
return EFalse;
}
// Convert supplied mime type to lower case
mimeLowerCase.Copy(aMimeType);
mimeLowerCase.LowerCase();
// Search for the mime type in the agents
for(TInt i = 0; i < iAgentResolver->SupplierMimeTypes().Count(); i++)
{
if(mimeLowerCase.Compare(iAgentResolver->SupplierMimeTypes()[i]) == 0)
{
return ETrue;
}
}
return EFalse;
}
EXPORT_C void CSupplier::PrepareHTTPRequestHeaders(RStringPool& aStringPool, RHTTPHeaders& aRequestHeaders) const
{
// Ignore errors from any particular agent because we can't
// let one agent ruin things for everyone else.
TInt i = 0;
TInt err = KErrNone;
CAgentManager* manager = NULL;
for(i = 0; i < iAgentResolver->AgentInfoCount(); i++)
{
TRAP(err, manager = &iAgentResolver->AgentInfo(i).AgentManagerL());
if(err == KErrNone)
{
manager->PrepareHTTPRequestHeaders(aStringPool, aRequestHeaders);
}
}
}
EXPORT_C void CSupplier::SetOutputDirectoryL(const TDesC &aOutputDirectory)
{
HBufC *newOutputDirectory;
// Make sure the path has a backslash at the end
TInt pos = aOutputDirectory.LocateReverse(TChar(KPathDelimiter));
if(pos + 1 != aOutputDirectory.Length())
{
// Append a trailing backslash
newOutputDirectory=HBufC::NewL(aOutputDirectory.Length()+1);
newOutputDirectory->Des().Append(aOutputDirectory);
newOutputDirectory->Des().Append(TChar(KPathDelimiter));
}
else
{
newOutputDirectory=aOutputDirectory.AllocL();
}
// replace the existing output path
delete iOutputDirectory;
iOutputDirectory = newOutputDirectory;
}
EXPORT_C CImportFile* CSupplier::ImportFileL(const TDesC8& aMimeType, const CMetaDataArray& aImportMetaData, const TDesC& aSuggestedFileName)
{
CAgentInfo& agentInfo = iAgentResolver->ResolveSupplierMimeL(aMimeType);
TUid agentUid = agentInfo.Agent().ImplementationUid();
// Create import object, agent creates output files
CImportFile* import = CImportFile::NewL (agentUid, aMimeType, aImportMetaData, *iOutputDirectory, aSuggestedFileName);
return import;
}
EXPORT_C CImportFile* CSupplier::ImportFileL(const TDesC8& aMimeType, const CMetaDataArray& aImportMetaData)
{
// Create import object, client provides output files
CAgentInfo& agentInfo = iAgentResolver->ResolveSupplierMimeL(aMimeType);
TUid agentUid = agentInfo.Agent().ImplementationUid();
// Create import object, agent creates output files
CImportFile* import = CImportFile::NewL (agentUid, aMimeType, aImportMetaData);
return import;
}
#ifndef REMOVE_CAF1
EXPORT_C CImportFile * CSupplier::ImportFileL (CCafMimeHeader &aMimeHeader, const TDesC &aSuggestedFileName)
{
TBuf8 <KMaxDataTypeLength> mimeType;
// string constants used to fill in CMetaDataArray
_LIT8(KContentType, "Content-Type");
_LIT8(KContentLength, "Content-Length");
_LIT8(KContentId, "Content-Id");
_LIT8(KContentTransferEncoding, "Content-Tranfer-Encoding");
_LIT8(KBoundary, "Content-Boundary");
// create new CMetaDataArray to hold the information previously supplied in CCafMimeHeader
CMetaDataArray *array = CMetaDataArray::NewLC();
// Copy "standard mime data" to the CMetaDataArray
if(aMimeHeader.StandardMimeData(EContentType).Length() != 0)
{
array->AddL(KContentType(),aMimeHeader.StandardMimeData(EContentType));
mimeType.Append(aMimeHeader.StandardMimeData(EContentType));
}
if(aMimeHeader.StandardMimeData(EContentLength).Length() != 0)
{
array->AddL(KContentLength(),aMimeHeader.StandardMimeData(EContentLength));
}
if(aMimeHeader.StandardMimeData(EContentLength).Length() != 0)
{
array->AddL(KContentLength(),aMimeHeader.StandardMimeData(EContentLength));
}
if(aMimeHeader.StandardMimeData(EContentId).Length() != 0)
{
array->AddL(KContentId(),aMimeHeader.StandardMimeData(EContentId));
}
if(aMimeHeader.StandardMimeData(EContentTransferEncoding).Length() != 0)
{
array->AddL(KContentTransferEncoding(),aMimeHeader.StandardMimeData(EContentTransferEncoding));
}
if(aMimeHeader.StandardMimeData(EBoundary).Length() != 0)
{
array->AddL(KBoundary(),aMimeHeader.StandardMimeData(EBoundary));
}
// Add "non-standard" mime fields to CMetaDataArray
TInt count = aMimeHeader.NonStandardMimeCount();
for( TInt i = 0; i < count; i++)
{
array->AddL(aMimeHeader.NonStandardMimeField(i), aMimeHeader.NonStandardMimeData(i));
}
// Create new CImportFile object
CImportFile *importFile = ImportFileL(mimeType, *array, aSuggestedFileName);
CleanupStack::PopAndDestroy(array);
return importFile;
}
#endif // REMOVE_CAF1