/*
* Copyright (c) 1997-2009 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:
* Implements part of UsbMan USB Class Framework.
*
*/
/**
@file
*/
#include "CUsbDummyClassController.h"
#include <usb_std.h>
#include "inifile.h"
#include <usb/usblogger.h>
#ifdef __FLOG_ACTIVE
_LIT8(KLogComponent, "USBSVR");
#endif
_LIT(KDummyControllerPanic, "UsbDummyCC"); // must be <=16 chars
// Panic codes
enum
{
// Bad value for the iSynchronicity member.
EDummyPanicBadSynchronicity = 0,
// Used for environment errors we do not handle.
EDummyPanicUnhandledError = 1,
// Used for bad iStatus and other state errors.
EDummyPanicBadState = 2,
// Error reading ini file.
EDummyPanicBadIniFile = 3,
// We already have our async request active.
EDummyPanicAlreadyActive = 4,
// We already have a request outstanding from the device class.
EDummyPanicOutstandingRequestFromDevice = 5,
// Attempt to call Start() when in illegal state
EDummyPanicBadApiCallStart = 6,
// Attempt to call Stop() when in illegal state
EDummyPanicBadApiCallStop = 7,
};
const TInt KDummyClassPriority = 1;
// Keys for reading the ini file.
_LIT(KStartup, "Startup");
_LIT(KShutdown, "Shutdown");
_LIT(KType, "Type");
_LIT(KTime, "Time");
_LIT(KError, "Error");
_LIT(KSync, "sync");
_LIT(KAsync, "async");
_LIT(KNever, "never");
CUsbDummyClassController* CUsbDummyClassController::NewL(
MUsbClassControllerNotify& aOwner,
TUint aIndex)
/**
* Constructs a CUsbDummyClassController object.
*
* @param aOwner USB Device that owns and manages the class
* @param aIndex The index number of the instance
* @return Ownership of a new CUsbDummyClassController object
*/
{
LOG_STATIC_FUNC_ENTRY
CUsbDummyClassController* self = new(ELeave) CUsbDummyClassController(aOwner, aIndex);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
CUsbDummyClassController* CUsbDummyClassController::NewL(
MUsbClassControllerNotify& aOwner,
TUint aIndex, TInt aPriority)
/**
* Constructs a CUsbDummyClassController object.
*
* @param aOwner USB Device that owns and manages the class
* @param aIndex The index number of the instance
* @param aPriority The startup priority of the instance
* @return Ownership of a new CUsbDummyClassController object
*/
{
LOG_STATIC_FUNC_ENTRY
CUsbDummyClassController* self = new(ELeave) CUsbDummyClassController(aOwner, aIndex, aPriority);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
CUsbDummyClassController::CUsbDummyClassController(
MUsbClassControllerNotify& aOwner,
TUint aIndex)
/**
* Constructor.
*
* @param aOwner USB Device that owns and manages the class
* @param aIndex The index number of the instance
*/
: CUsbClassControllerBase(aOwner, KDummyClassPriority),
iIndex(aIndex)
{
iState = EUsbServiceIdle; // needs explicit initialisation as non-zero
}
CUsbDummyClassController::CUsbDummyClassController(
MUsbClassControllerNotify& aOwner,
TUint aIndex, TInt aPriority)
/**
* Constructor.
*
* @param aOwner USB Device that owns and manages the class
* @param aIndex The index number of the instance
* @param aPriority a startup priority for the class controller
*/
: CUsbClassControllerBase(aOwner, aPriority),
iIndex(aIndex)
{
iState = EUsbServiceIdle; // needs explicit initialisation as non-zero
}
void CUsbDummyClassController::ConstructL()
/**
* Method to perform second phase construction.
*/
{
LEAVEIFERRORL(iTimer.CreateLocal());
}
CUsbDummyClassController::~CUsbDummyClassController()
/**
* Destructor.
*/
{
Cancel();
iTimer.Close();
}
void CUsbDummyClassController::GetBehaviour(CIniFile& aIniFile,
const TDesC& aSection,
TBehaviour& aBehaviour)
/**
* Reads information from the ini file, from a given section, to the given
* behaviour structure.
*
* @param aIniFile The ini file to read from.
* @param aSection The section to reads from.
* @param aBehaviour The behaviour struct to read to.
*/
{
LOG_FUNC
#ifdef __FLOG_ACTIVE
TBuf8<KMaxName> buf;
buf.Copy(aSection);
LOGTEXT2(_L8("\taSection = %S"), &buf);
#endif // __FLOG_ACTIVE
TPtrC temp;
if ( !aIniFile.FindVar(aSection, KType(), temp) )
{
LOGTEXT2(_L8("\tPANICKING: can't find Type item in section %S"), &aSection);
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadIniFile);
}
if ( temp == KSync )
{
aBehaviour.iSynchronicity = ESynchronous;
}
else if ( temp == KAsync )
{
aBehaviour.iSynchronicity = EAsynchronous;
}
else if ( temp == KNever )
{
aBehaviour.iSynchronicity = ENever;
}
else
{
LOGTEXT3(_L8("\tPANICKING: bad Type value (%S) in section %S"), &temp, &aSection);
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadIniFile);
}
TInt delay;
if ( !aIniFile.FindVar(aSection, KTime(), delay) )
{
LOGTEXT2(_L8("\tPANICKING: can't find Time item in section %S"), &aSection);
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadIniFile);
}
aBehaviour.iDelay = delay;
if ( !aIniFile.FindVar(aSection, KError(), aBehaviour.iErrorCode) )
{
LOGTEXT2(_L8("\tPANICKING: can't find Error item in section %S"), &aSection);
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadIniFile);
}
}
void CUsbDummyClassController::DoGetConfigL()
/**
* Reads the config from the ini file.
*/
{
LOG_FUNC
CIniFile* iniFile = CIniFile::NewL(_L("dummy.ini"));
CleanupStack::PushL(iniFile);
TName section;
// Read startup behaviour
section.Format(_L("%S.%d"), &KStartup(), iIndex);
GetBehaviour(*iniFile, section, iStartupBehaviour);
// Read shutdown behaviour
section.Format(_L("%S.%d"), &KShutdown(), iIndex);
GetBehaviour(*iniFile, section, iShutdownBehaviour);
CleanupStack::PopAndDestroy(iniFile);
}
void CUsbDummyClassController::GetConfig()
/**
* Reads the config from the ini file.
* Note that this is assumed to succeed. Any failure will break the test and
* it's much cleaner to panic out of the test entirely rather than leave it to
* the user to figure out what's gone wrong.
*/
{
LOG_FUNC
// Always use dummy.ini. The entity setting up the test is responsible for
// copying the correct file to c:\\dummy.ini. The first found
// by FindByDir will be used. TODO: enforce c:\\.
TRAPD(err, DoGetConfigL());
if ( err != KErrNone )
{
_USB_PANIC(KDummyControllerPanic, EDummyPanicUnhandledError);
}
LOGTEXT2(_L8("\tLogging dummy class controller behaviour for instance %d"), iIndex);
LOGTEXT2(_L8("\tiStartupBehaviour.iSynchronicity = %d"), iStartupBehaviour.iSynchronicity);
LOGTEXT2(_L8("\tiStartupBehaviour.iDelay = %d"), iStartupBehaviour.iDelay.Int());
LOGTEXT2(_L8("\tiStartupBehaviour.iErrorCode = %d"), iStartupBehaviour.iErrorCode);
LOGTEXT2(_L8("\tiShutdownBehaviour.iSynchronicity = %d"), iShutdownBehaviour.iSynchronicity);
LOGTEXT2(_L8("\tiShutdownBehaviour.iDelay = %d"), iShutdownBehaviour.iDelay.Int());
LOGTEXT2(_L8("\tiShutdownBehaviour.iErrorCode = %d"), iShutdownBehaviour.iErrorCode);
}
void CUsbDummyClassController::Start(TRequestStatus& aStatus)
/**
* Called by UsbMan to start this class.
*
* @param aStatus Will be completed with success or failure.
*/
{
LOG_FUNC
//Start() should only be called if the CC is idle or started
__ASSERT_DEBUG((iState == EUsbServiceIdle || iState == EUsbServiceStarted),
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadApiCallStart) );
// Get config from ini file. Note that can't be done once in ConstructL
// because then, in the case of a CC which doesn't Stop, we'd never be
// able to shut down USBMAN!
GetConfig();
// NB We enforce that the device doesn't re-post requests on us.
__ASSERT_DEBUG(!iReportStatus,
_USB_PANIC(KDummyControllerPanic, EDummyPanicOutstandingRequestFromDevice));
aStatus = KRequestPending;
iReportStatus = &aStatus;
iState = EUsbServiceStarting;
switch ( iStartupBehaviour.iSynchronicity )
{
case ESynchronous:
User::After(iStartupBehaviour.iDelay);
iState = EUsbServiceStarted;
User::RequestComplete(iReportStatus, iStartupBehaviour.iErrorCode);
iReportStatus = NULL;
break;
case EAsynchronous:
iTimer.After(iStatus, iStartupBehaviour.iDelay);
__ASSERT_DEBUG(!IsActive(), _USB_PANIC(KDummyControllerPanic, EDummyPanicAlreadyActive));
SetActive();
break;
case ENever:
// Don't do anything and never complete
break;
default:
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadSynchronicity);
break;
}
}
void CUsbDummyClassController::Stop(TRequestStatus& aStatus)
/**
* Called by UsbMan to stop this class.
*
* @param aStatus Will be completed with success or failure.
*/
{
LOG_FUNC
//Stop() should only be called if the CC is Started or Idle
__ASSERT_DEBUG((iState == EUsbServiceStarted || iState == EUsbServiceIdle),
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadApiCallStop));
// Get config from ini file. Note that can't be done once in ConstructL
// because then, in the case of a CC which doesn't Stop, we'd never be
// able to shutdown USBMAN!
GetConfig();
// NB We enforce that the device doesn't re-post requests on us.
__ASSERT_DEBUG(!iReportStatus,
_USB_PANIC(KDummyControllerPanic, EDummyPanicOutstandingRequestFromDevice));
aStatus = KRequestPending;
iReportStatus = &aStatus;
iState = EUsbServiceStopping;
switch ( iShutdownBehaviour.iSynchronicity )
{
case ESynchronous:
User::After(iShutdownBehaviour.iDelay);
iState = EUsbServiceIdle;
User::RequestComplete(iReportStatus, iShutdownBehaviour.iErrorCode);
iReportStatus = NULL;
break;
case EAsynchronous:
iTimer.After(iStatus, iShutdownBehaviour.iDelay);
__ASSERT_DEBUG(!IsActive(), _USB_PANIC(KDummyControllerPanic, EDummyPanicAlreadyActive));
SetActive();
break;
case ENever:
// Don't do anything and never complete
break;
default:
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadSynchronicity);
break;
}
}
void CUsbDummyClassController::GetDescriptorInfo(TUsbDescriptor& aDescriptorInfo) const
/**
* Returns information about the interfaces supported by this class.
*
* @param aDescriptorInfo Will be filled in with interface information.
*/
{
aDescriptorInfo.iNumInterfaces = 0;
aDescriptorInfo.iLength = 0;
}
void CUsbDummyClassController::RunL()
/**
* Standard active object RunL.
*/
{
LOGTEXT3(_L8(">>CUsbDummyClassController::RunL [iStatus=%d,iState=%d]"),
iStatus.Int(), iState);
if ( iStatus != KErrNone )
{
// Panic runtime errors from the timer. We can't ignore them, and
// there's no point trying to code round them. This is part of the
// test framework and if it's failing we want to alert the user
// without faffing around. (It invalidates the test.)
_USB_PANIC(KDummyControllerPanic, EDummyPanicUnhandledError);
}
__ASSERT_DEBUG(iReportStatus,
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadState));
switch ( iState )
{
case EUsbServiceStarting:
// Completion of asynchronous startup...
__ASSERT_DEBUG(iStartupBehaviour.iSynchronicity == EAsynchronous,
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadSynchronicity));
iState = EUsbServiceStarted;
User::RequestComplete(iReportStatus, iStartupBehaviour.iErrorCode);
iReportStatus = NULL;
break;
case EUsbServiceStopping:
// Completion of asynchronous shutdown...
__ASSERT_DEBUG(iShutdownBehaviour.iSynchronicity == EAsynchronous,
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadSynchronicity));
iState = EUsbServiceIdle;
User::RequestComplete(iReportStatus, iShutdownBehaviour.iErrorCode);
iReportStatus = NULL;
break;
case EUsbServiceIdle:
case EUsbServiceStarted:
default:
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadState);
break;
}
LOGTEXT(_L8("<<CUsbDummyClassController::RunL"));
}
void CUsbDummyClassController::DoCancel()
/**
* Standard active object cancellation function.
*/
{
LOG_FUNC
// Note that CActive::Cancel does not call DoCancel unless we are active.
// Therefore we are at this point active. Therefore, we should have
// iReportStatus pointing to something. This is true whether we are in
// our destructor or being cancelled by the device. It is also true that
// (for us to be active at all) our synchronicity should be set to async
// and the timer must have been CreateLocal'd successfully.
// Cancel may be called in one of the following situations:
// 1/ In our destructor.
// 2/ The device wants to cancel us in the middle of a Start before
// issuing a Stop (or vice versa). Note that the device may cancel us in
// the middle of a Start, then immediately issue another Start.
// Cancel our own asynchronous operation.
__ASSERT_DEBUG(iTimer.Handle(),
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadState));
iTimer.Cancel();
// Update our iState. If we're starting, then roll back to idle. If we're
// stopping, role back to started. Nothing else is legal.
switch ( iState )
{
case EUsbServiceStarting:
__ASSERT_DEBUG(iStartupBehaviour.iSynchronicity == EAsynchronous,
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadSynchronicity));
iState = EUsbServiceIdle;
break;
case EUsbServiceStopping:
__ASSERT_DEBUG(iShutdownBehaviour.iSynchronicity == EAsynchronous,
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadSynchronicity));
iState = EUsbServiceStarted;
break;
case EUsbServiceIdle:
case EUsbServiceStarted:
default:
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadState);
break;
}
// Complete the client's request.
__ASSERT_DEBUG(iReportStatus,
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadState));
User::RequestComplete(iReportStatus, KErrCancel);
iReportStatus = NULL;
}
TInt CUsbDummyClassController::RunError(TInt /*aError*/)
/**
* Standard active object error-handling function.
*
* Should return KErrNone to avoid an active scheduler panic. This function
* should never be called as there is another mechanism for catching errors.
*/
{
__ASSERT_DEBUG(EFalse,
_USB_PANIC(KDummyControllerPanic, EDummyPanicBadState));
return KErrNone;
}
//
// End of file