We need a way to pass flags to rombuilds in Raptor via extension flm interfaces, so that the CPP pass
of the rom input files can be informed what toolchain we are building with and conditionally
include or exclude files depending on whether the toolchain could build them.
// Copyright (c) 2007-2009 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:
// CTestCase0461.cpp
// @internalComponent
//
//
#include <e32std.h>
#include <e32std_private.h>
#include <u32std.h> // unicode builds
#include <e32base.h>
#include <e32base_private.h>
#include <e32Test.h> // RTest headder
#include "testcaseroot.h"
#include "testcasewd.h"
#include "testcase0461.h"
// the name below is used to add a pointer to our construction method to a pointer MAP in
// the class factory
_LIT(KTestCaseId,"PBASE-USB_OTGDI-0461");
const TTestCaseFactoryReceipt<CTestCase0461> CTestCase0461::iFactoryReceipt(KTestCaseId);
CTestCase0461* CTestCase0461::NewL(TBool aHost)
{
LOG_FUNC
CTestCase0461* self = new (ELeave) CTestCase0461(aHost);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
CTestCase0461::CTestCase0461(TBool aHost)
: CTestCaseRoot(KTestCaseId, aHost)
{
LOG_FUNC
}
/**
ConstructL
*/
void CTestCase0461::ConstructL()
{
LOG_FUNC
iRepeats = KOperationRetriesMax;
BaseConstructL();
iWDTimer = CTestCaseWatchdog::NewL();
}
CTestCase0461::~CTestCase0461()
{
LOG_FUNC
Cancel();
delete iWDTimer;
}
void CTestCase0461::ExecuteTestCaseL()
{
LOG_FUNC
iCaseStep = ELoadLdd;
CActiveScheduler::Add(this);
SelfComplete();
}
void CTestCase0461::DescribePreconditions()
{
test.Printf(_L("Insert 'A' connector beforehand.\n"));
}
void CTestCase0461::DoCancel()
{
LOG_FUNC
// cancel our timer
iTimer.Cancel();
}
void CTestCase0461::CancelKB(CTestCaseRoot *pThis)
{
CTestCase0461 * p = REINTERPRET_CAST(CTestCase0461 *,pThis);
// cancel any pending call, and then complete our active obj with a timeout value
p->iConsole->ReadCancel();
}
// handle event completion
void CTestCase0461::RunStepL()
{
LOG_FUNC
// Obtain the completion code for this CActive obj.
TInt completionCode(iStatus.Int());
TBuf<MAX_DSTRLEN> aDescription;
switch(iCaseStep)
{
case EPreconditions:
iCaseStep = ELoadLdd;
if (iAutomated)
{
iCaseStep = ELoadLdd;
SelfComplete();
break;
}
// prompt to insert connector
test.Printf(KInsertAConnectorPrompt);
test.Printf(KPressAnyKeyToContinue);
RequestCharacter();
break;
case ELoadLdd:
if (!StepLoadLDD())
{
break;
}
iCaseStep = ERegisterForEvents;
SelfComplete();
iDequeAttempts = 0;
break;
// 2. Prepare to wait on ID_PIN
case ERegisterForEvents:
// prompt to remove connector
test.Printf(KRemoveAConnectorPrompt);
if (iDequeAttempts > 3)
{
return (TestFailed(KErrCorrupt, _L("<Error> too many irrelevant/incorrect events")));
}
otgQueueOtgEventRequest( iOTGEvent, iStatus);
iIDcheckStart.HomeTime();
iCaseStep = EGetAndCancelEvent;
SetActive();
break;
// 3. pick up events already buffered when we start
case EEmptyQueue:
{
TInt aMillisec;
iIDcheckEnd.HomeTime();
TTimeIntervalMicroSeconds ivlMicro(iIDcheckEnd.MicroSecondsFrom(iIDcheckStart));
aMillisec = (TInt)(ivlMicro.Int64())/1000; // USB times are in uSec, but in ms for the user layer
iCaseStep = EGetAndCancelEvent;
// test if too quick!
if ((aMillisec < KDelayDurationForQEmpty) &&(!gSemiAutomated)) // use 200ms - clocked at 17ms
{
iCaseStep = ERegisterForEvents;
iDequeAttempts++;
SelfComplete();
break;
}
}// drop through to next step
case EGetAndCancelEvent: //4.
OtgEventString(iOTGEvent, aDescription);
test.Printf(_L("Received event %d '%S' status(%d)"), iOTGEvent, &aDescription, completionCode);
if (RUsbOtgDriver::EEventAPlugRemoved == iOTGEvent)
{
otgQueueOtgEventRequest( iOTGEvent, iStatus);
// cancel it and then go into a loop
otgCancelOtgEventRequest();
// swallow the cancelation now
User::WaitForRequest(iStatus);
iCaseStep = ECancelNotify;
}
else
{
// wrong event in the Q already, keep at it
iCaseStep = ERegisterForEvents;
iDequeAttempts++;
}
SelfComplete();
break;
// 5. prepare to go into a loop
case ECancelNotify: // insert 'A'
iRepeats = 3; // #times to insert+remove
iExpectedEvents = 0;
iEventsInQueue = 0;
iCaseStep = EInsertA;
SelfComplete();
break;
// 6
case EInsertA: // insert 'A' plug
iWDTimer->Cancel();
iConsole->ReadCancel();
test.Printf(KInsertAConnectorPrompt);
iCaseStep = ERemoveA;
test.Printf(KPressAnyKeyToContinue);
RequestCharacter();
iWDTimer->IssueRequest(KDelayDurationForUserActivityMS, this, &CancelKB);
iExpectedEvents++;
break;
// 7. remove 'A' plug
case ERemoveA:
iWDTimer->Cancel();
iConsole->ReadCancel();
test.Printf(KRemoveAConnectorPrompt);
if (iRepeats-- >0)
{
// Do it again please
iCaseStep = EInsertA;
}
else
{ // got enough events in Q, let's count them up
iCaseStep = ETallyEvents;
}
test.Printf(KPressAnyKeyToContinue);
RequestCharacter();
iWDTimer->IssueRequest(KDelayDurationForUserActivityMS, this, &CancelKB);
iExpectedEvents++;
break;
// 8.
case ETallyEvents:
// Getting here tests if the object does not get double-signalled.
// a stray signal anywhere would Panic the scheduler when we self complete
iCaseStep = ETallyNewEvent;
iStatus = KRequestPending;
otgQueueOtgEventRequest( iOTGEvent, iStatus);
SetActive();
break;
// 9.
case ETallyNewEvent:
iEventsInQueue++; // got one, add it
if (iExpectedEvents == iEventsInQueue)
{
iCaseStep = EUnloadLdd;
}
else
{
iCaseStep = ETallyEvents;
}
SelfComplete();
break;
case EUnloadLdd:
case ELastStep:
if (EFalse == StepUnloadLDD())
return TestFailed(KErrAbort,_L("unload Ldd failure"));
return TestPassed();
default:
test.Printf(_L("<Error> unknown test step"));
Cancel();
return (TestFailed(KErrCorrupt, _L("<Error> unknown test step")));
}
}