Trying to figure out how to implement my WINC like compatibility layer. Going the emulation way is probably not so smart. We should not use the kernel but rather hook native functions in the Exec calls.
// 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:
// @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 "testcase0465.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-0465");
const TTestCaseFactoryReceipt<CTestCase0465> CTestCase0465::iFactoryReceipt(KTestCaseId);
CTestCase0465* CTestCase0465::NewL(TBool aHost)
{
LOG_FUNC
CTestCase0465* self = new (ELeave) CTestCase0465(aHost);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
CTestCase0465::CTestCase0465(TBool aHost)
: CTestCaseRoot(KTestCaseId, aHost)
{
LOG_FUNC
}
/**
ConstructL
*/
void CTestCase0465::ConstructL()
{
LOG_FUNC
iWDTimer = CTestCaseWatchdog::NewL();
BaseConstructL();
}
CTestCase0465::~CTestCase0465()
{
LOG_FUNC
Cancel();
delete iWDTimer;
}
void CTestCase0465::ExecuteTestCaseL()
{
LOG_FUNC
iCaseStep = EPreconditions;
iRepeats = KOperationRetriesMax; // VBus event rise retries
CActiveScheduler::Add(this);
SelfComplete();
}
void CTestCase0465::DoCancel()
{
LOG_FUNC
// cancel our timer
iTimer.Cancel();
}
void CTestCase0465::CancelKB(CTestCaseRoot *pThis)
{
CTestCase0465 * p = REINTERPRET_CAST(CTestCase0465 *,pThis);
// cancel the pending call
p->iConsole->ReadCancel();
}
void CTestCase0465::CancelDrive(CTestCaseRoot *pThis)
{
CTestCase0465 * p = REINTERPRET_CAST(CTestCase0465 *,pThis);
// cancel any pending call, and then complete our active obj with a timeout value
p->SelfComplete(KTestCaseWatchdogTO);
}
// This test result depends on all the ID detection tests and the VBus driving and dropping tests have not yet passed
void CTestCase0465::DescribePreconditions()
{
test.Printf(_L("BEFORE running this test\n"));
test.Printf(_L("\n"));
test.Printf(_L("Insert 'A' connector\n"));
test.Printf(_L("\n"));
test.Printf(_L("Confirm passing tests\n"));
test.Printf(_L("\n"));
test.Printf(_L("ID_PIN detection\n"));
test.Printf(_L("VBus Driving\n"));
test.Printf(_L("\n"));
}
// handle event completion
void CTestCase0465::RunStepL()
{
LOG_FUNC
// Obtain the completion code for this CActive obj.
TInt completionCode(iStatus.Int());
TBuf<MAX_DSTRLEN> aDescription;
TInt err(0);
switch(iCaseStep)
{
case EPreconditions:
iCaseStep = ELoadLdd;
if (iAutomated)
{
iCaseStep = ELoadLdd;
SelfComplete();
break;
}
// prompt to insert connector
test.Printf(_L("\n"));
test.Printf(KInsertAConnectorPrompt);
test.Printf(_L("\n"));
test.Printf(KPressAnyKeyToContinue);
test.Printf(_L("\n"));
RequestCharacter();
break;
case ELoadLdd:
// 1. load the LDD and init.
if (!StepLoadLDD())
{
break;
}
iCaseStep = EDriveVBus;
SelfComplete();
break;
case EDriveVBus:
// 2. DRIVE VBUS
// wait for 100 ms to allow the stack time to settle
User::After(100000);
err = otgBusRequest();
if (KErrNone != err)
{
return TestFailed(KErrAbort, _L("Raise VBus - RUsbOtgDriver::BusRequest() FAILED!"));
}
// wait for 1000 ms as per test document
User::After(1000000);
// test for VBus rise next
otgQueueOtgEventRequest( iOTGEvent, iStatus );
SetActive();
iCaseStep = EVerifyVBus;
break;
case EVerifyVBus:
// 3. get VBus rise event
iCaseStep = EUnloadLdd;
OtgEventString(iOTGEvent, aDescription);
test.Printf(_L("Received event %d '%S' status(%d)\n"), iOTGEvent, &aDescription, completionCode);
if (iOTGEvent != RUsbOtgDriver::EEventVbusRaised)
{
iCaseStep = EVerifyVBus;
iRepeats--;
if (iRepeats <0)
{
return TestFailed(KErrAbort, _L("Raise VBus event not detected. FAILED!"));
}
otgQueueOtgEventRequest( iOTGEvent, iStatus );
SetActive();
break;
}
test.Printf(_L("VBus seen OK.\n"));
SelfComplete();
break;
case EUnloadLdd:
// unload
if (EFalse == StepUnloadLDD())
{
return TestFailed(KErrAbort,_L("unload Ldd failure"));
}
// wait for 100 ms to allow the stack time to settle
User::After(100000);
test.Printf(_L("Use meter or oscilloscope\n"));
test.Printf(_L("to measure VBUS, which should\n"));
test.Printf(_L("have dropped\n"));
test.Printf(_L("\n"));
test.Printf(_L("Is it below 0.2 volts?\n"));
test.Printf(_L("\n"));
test.Printf(_L("Select Y or N to continue\n"));
RequestCharacter();
iWDTimer->IssueRequest(KDelayDurationForUserActivityMS, this, &CancelKB);
iCaseStep = EVerifyBusGone;
break;
case EVerifyBusGone:
// since the LDD is gone, there is no OTGDI API from here on
if (KTestCaseWatchdogTO == iStatus.Int())
{
return TestFailed(KErrAbort, _L("Operator response timeout"));
}
iWDTimer->Cancel();
// user intput
if (('y' == iKeyCodeInput) ||('Y' == iKeyCodeInput))
{
test.Printf(_L("VBUS 'drop' seen\n"));
SelfComplete();
}
else
{
return TestFailed(KErrAbort, _L("VBus drop NOT 'seen' - FAILED!"));
}
iCaseStep = ELastStep;
break;
case ELastStep:
TestPassed();
break;
default:
test.Printf(_L("<Error> unknown test step\n"));
Cancel();
return (TestFailed(KErrCorrupt, _L("<Error> unknown test step")));
}
}