Fixed lots of issues with installing a low-caps version of fshell from SIS file.
* Fixed issue in CCommandFactory whereby some APIs like GetCommandInfoL could trigger allocations on the wrong heap or signals to the wrong thread. The symptoms were often seen as a crash in the which_00 thread when running ciftest.
* Lots of build fixes for when FSHELL_PROTECTED_UIDS isn't defined and when all capabilities aren't available.
* Added new platform.mmh macro FSHELL_OPEN_SIGNED.
* Open signing of fshell SIS files is now supported for production S60 handsets. Build fshell with the FSHELL_OPEN_SIGNED macro defined (and without defining FSHELL_CAP_ALL or FSHELL_PROTECTED_UIDS) in your platform.mmh and submit \epoc32\fshell\fshell.unsigned.sis to https://www.symbiansigned.com/app/page/public/openSignedOnline.do . The following commands are not available when using Open Signing due to Platform Security restrictions: fdb; kerninfo; chunkinfo; svrinfo; objinfo; sudo; fsck; localdrive; ramdefrag; readmem; reboot; setcritical; setpriority. Others such as chkdeps, e32header, ps, and fshell itself will run but in a restricted capacity (for example, fshell will no longer allow you to modify files in the \sys\bin directory).
* Removed commands objinfo, svrinfo, chunkinfo, readmem, fsck completely when memory access isn't present - previously they would still appear in the help but would give an error if you tried to run them.
// load.cpp
//
// Copyright (c) 2008 - 2010 Accenture. All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the "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:
// Accenture - Initial contribution
//
#include <fshell/ioutils.h>
using namespace IoUtils;
class CCmdLoad : public CCommandBase
{
public:
static CCommandBase* NewLC();
~CCmdLoad();
private:
CCmdLoad();
private: // From CCommandBase.
virtual const TDesC& Name() const;
virtual void DoRunL();
virtual void OptionsL(RCommandOptionList& aOptions);
virtual void ArgumentsL(RCommandArgumentList& aArguments);
private:
HBufC* iDllName;
RArray<TUint> iUids;
TUint iModuleVersion;
RLibrary iLibrary;
};
//
// CCmdLoad.
//
CCommandBase* CCmdLoad::NewLC()
{
CCmdLoad* self = new(ELeave) CCmdLoad();
CleanupStack::PushL(self);
self->BaseConstructL();
return self;
}
CCmdLoad::~CCmdLoad()
{
iLibrary.Close();
delete iDllName;
iUids.Close();
}
CCmdLoad::CCmdLoad() : CCommandBase(EManualComplete)
{
}
const TDesC& CCmdLoad::Name() const
{
_LIT(KName, "load");
return KName;
}
void CCmdLoad::DoRunL()
{
if (iUids.Count() > 3)
{
LeaveIfErr(KErrArgument, _L("Too many UIDs specified"));
}
while (iUids.Count() < 3)
{
iUids.AppendL(KNullUid.iUid);
}
TUidType type(TUid::Uid(iUids[0]), TUid::Uid(iUids[1]), TUid::Uid(iUids[2]));
_LIT(KError, "Unable to load \"%S\"");
if (iOptions.IsPresent(&iModuleVersion))
{
LeaveIfErr(iLibrary.Load(*iDllName, KNullDesC, type, iModuleVersion), KError, iDllName);
}
else
{
LeaveIfErr(iLibrary.Load(*iDllName, type), KError, iDllName);
}
TFileName file = iLibrary.FileName();
TUidType uids = iLibrary.Type();
Printf(_L("Loaded %S\r\n"), &file);
Printf(_L("Uids: 0x%x, 0x%x, 0x%x\r\n"), uids[0].iUid, uids[1].iUid, uids[2].iUid);
}
void CCmdLoad::OptionsL(RCommandOptionList& aOptions)
{
_LIT(KCmdOptUid, "uid");
aOptions.AppendUintL(iUids, KCmdOptUid);
_LIT(KCmdOptVersion, "version");
aOptions.AppendUintL(iModuleVersion, KCmdOptVersion);
}
void CCmdLoad::ArgumentsL(RCommandArgumentList& aArguments)
{
_LIT(KCmdArgFileName, "dll_name");
aArguments.AppendStringL(iDllName, KCmdArgFileName);
}
EXE_BOILER_PLATE(CCmdLoad)