Added ENotifyKeypresses and ECaptureCtrlC flags to CCommandBase.
Commands can now get keypresses and handle ctrl-C via callbacks instead of having to implement custom active objects. As part of this extended the CCommandBase extension interface to MCommandExtensionsV2 for the new virtual functions KeyPressed(TUint aKeyCode, TUint aModifiers) and CtrlCPressed(). sudo now cleans up correctly by using ECaptureCtrlC.
// usb.cpp
//
// Copyright (c) 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>
#include <fshell/common.mmh>
#include <usbman.h>
using namespace IoUtils;
class CCmdUsb : public CCommandBase
{
public:
static CCommandBase* NewLC();
~CCmdUsb();
private:
CCmdUsb();
private: // From CCommandBase.
virtual const TDesC& Name() const;
virtual void DoRunL();
virtual void ArgumentsL(RCommandArgumentList& aArguments);
virtual void OptionsL(RCommandOptionList& aOptions);
private:
RUsb iUsb;
TInt iPersonality;
};
EXE_BOILER_PLATE(CCmdUsb)
CCommandBase* CCmdUsb::NewLC()
{
CCmdUsb* self = new(ELeave) CCmdUsb();
CleanupStack::PushL(self);
self->BaseConstructL();
return self;
}
CCmdUsb::~CCmdUsb()
{
iUsb.Close();
}
CCmdUsb::CCmdUsb()
{
}
const TDesC& CCmdUsb::Name() const
{
_LIT(KName, "usb");
return KName;
}
void CCmdUsb::ArgumentsL(RCommandArgumentList& aArguments)
{
aArguments.AppendIntL(iPersonality, _L("personality"));
}
void CCmdUsb::OptionsL(RCommandOptionList& /*aOptions*/)
{
}
#define CASE_LIT(x) case x: { _LIT(KName, #x); return &KName; }
const TDesC* DeviceState(TUsbDeviceState aState)
{
switch (aState)
{
CASE_LIT(EUsbDeviceStateUndefined);
CASE_LIT(EUsbDeviceStateDefault);
CASE_LIT(EUsbDeviceStateAttached);
CASE_LIT(EUsbDeviceStatePowered);
CASE_LIT(EUsbDeviceStateConfigured);
CASE_LIT(EUsbDeviceStateAddress);
CASE_LIT(EUsbDeviceStateSuspended);
default:
{
_LIT(KUnknown, "?");
return &KUnknown;
}
}
}
const TDesC* ServiceState(TUsbServiceState aState)
{
switch (aState)
{
CASE_LIT(EUsbServiceIdle);
CASE_LIT(EUsbServiceStarting);
CASE_LIT(EUsbServiceStarted);
CASE_LIT(EUsbServiceStopping);
CASE_LIT(EUsbServiceFatalError);
default:
{
_LIT(KUnknown, "?");
return &KUnknown;
}
}
}
void CCmdUsb::DoRunL()
{
LeaveIfErr(iUsb.Connect(), _L("Couldn't connect to RUsb"));
TUsbDeviceState dev;
LeaveIfErr(iUsb.GetDeviceState(dev), _L("Couldn't get device state"));
Printf(_L("Usb Device state = %S (%d)\r\n"), DeviceState(dev), dev);
TUsbServiceState servicestate;
LeaveIfErr(iUsb.GetServiceState(servicestate), _L("Couldn't get service state"));
Printf(_L("Usb Service state = %S (%d)\r\n"), ServiceState(servicestate), servicestate);
RArray<TInt> ids;
LeaveIfErr(iUsb.GetPersonalityIds(ids), _L("Couldn't get personalities ids"));
for (TInt i = 0; i < ids.Count(); i++)
{
Printf(_L("Personality %d\r\n"), ids[i]);
}
if (iArguments.IsPresent(&iPersonality))
{
TRequestStatus stat;
iUsb.TryStart(iPersonality, stat);
User::WaitForRequest(stat);
LeaveIfErr(stat.Int(), _L("Couldn't start USB personality %d"), iPersonality);
Printf(_L("USB started ok.\r\n"));
}
}