Convert Kernelhwsrv package from SFL to EPL
kernel\eka\compsupp is subject to the ARM EABI LICENSE
userlibandfileserver\fatfilenameconversionplugins\unicodeTables is subject to the Unicode license
kernel\eka\kernel\zlib is subject to the zlib license
// 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:
// @file PBASE-T_USBDI-0472.cpp
// @internalComponent
//
//
#include "PBASE-T_USBDI-0472.h"
#include <e32test.h>
#include <d32usbc.h>
#include <e32debug.h>
#include "UsbDescriptorOffsets.h"
#include "TestPolicy.h"
namespace NUnitTesting_USBDI
{
_LIT(KTestCaseId,"PBASE-T_USBDI-0472");
const TFunctorTestCase<CUT_PBASE_T_USBDI_0472,TBool> CUT_PBASE_T_USBDI_0472::iFunctor(KTestCaseId);
CUT_PBASE_T_USBDI_0472* CUT_PBASE_T_USBDI_0472::NewL(TBool aHostRole)
{
CUT_PBASE_T_USBDI_0472* self = new (ELeave) CUT_PBASE_T_USBDI_0472(aHostRole);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
CUT_PBASE_T_USBDI_0472::CUT_PBASE_T_USBDI_0472(TBool aHostRole)
: CBaseTestCase(KTestCaseId,aHostRole)
{
}
void CUT_PBASE_T_USBDI_0472::ConstructL()
{
iTestDevice = new RUsbDeviceVendor(this);
BaseConstructL();
}
CUT_PBASE_T_USBDI_0472::~CUT_PBASE_T_USBDI_0472()
{
LOG_FUNC
Cancel();
delete iClientAction;
delete iActorFDF;
if(!IsHost() && iTestDevice)
{
iTestDevice->Close();
}
delete iTestDevice;
}
void CUT_PBASE_T_USBDI_0472::ExecuteHostTestCaseL()
{
LOG_FUNC
iActorFDF = CActorFDF::NewL(*this);
iClientAction = new (ELeave) CEp0Transfer(iInterface0);
iCaseStep = EConnectDevice;
iActorFDF->Monitor();
TimeoutIn(30);
}
void CUT_PBASE_T_USBDI_0472::ExecuteDeviceTestCaseL()
{
LOG_FUNC
iTestDevice->OpenL(TestCaseId());
iTestDevice->SubscribeToReports(iStatus);
SetActive();
iTestDevice->SoftwareConnect();
}
void CUT_PBASE_T_USBDI_0472::HostDoCancel()
{
LOG_FUNC
// Cancel the test step action timeout timer
CancelTimeout();
}
void CUT_PBASE_T_USBDI_0472::DeviceDoCancel()
{
LOG_FUNC
// Cancel the test device
iTestDevice->CancelSubscriptionToReports();
}
void CUT_PBASE_T_USBDI_0472::DeviceInsertedL(TUint aDeviceHandle)
{
LOG_FUNC
Cancel();
TInt err(KErrNone);
// Validate that device is as expected
CUsbTestDevice& testDevice = iActorFDF->DeviceL(aDeviceHandle);
if(testDevice.SerialNumber().Compare(TestCaseId()) != 0)
{
// Incorrect device for this test case
RDebug::Printf("<Warning %d> Incorrect device serial number (%S) connected for this test case (%S)",
KErrNotFound,&testDevice.SerialNumber(),&TestCaseId());
// Start the connection timeout again
TimeoutIn(30);
return;
}
// Perform the correct test step
switch(iCaseStep)
{
case EConnectDevice:
{
// Validate vendor identity
RDebug::Printf("Vendor identity: 0x%04x",testDevice.VendorId());
if(testDevice.VendorId() != 0x0E22)
{
RDebug::Printf("<Error> Vendor identity is not 0x0E22");
return TestFailed(KErrCorrupt);
}
// Validate product information
RDebug::Printf("Usb device supported specification: 0x%04x",testDevice.DeviceSpec());
if(testDevice.DeviceSpec() != 0x0200)
{
RDebug::Printf("<Error> Usb device supported specification is not 2.0");
return TestFailed(KErrCorrupt);
}
RDebug::Printf("Usb product identity: 0x%04x",testDevice.ProductId());
if(testDevice.ProductId() != 0x0040)
{
RDebug::Printf("<Error> Usb product idenity is not 0x0040");
return TestFailed(KErrCorrupt);
}
RDebug::Printf("testDevice.ConfigurationString() = %S",&testDevice.ConfigurationString());
gtest(KErrNone == testDevice.ConfigurationString().Compare(KConfigurationString()));
RDebug::Printf("testDevice.Manufacturer() = %S",&testDevice.Manufacturer());
gtest(KErrNone == testDevice.Manufacturer().Compare(KManufacturer()));
RDebug::Printf("testDevice.SerialNumber = %s",&testDevice.SerialNumber());
gtest(KErrNone == testDevice.SerialNumber().Compare(KTestCaseId()));
RDebug::Printf("Waiting for device removal");
iCaseStep = ERemoveDevice;
TUint32 token;
err = testDevice.Device().GetTokenForInterface(0,token);
if(err != KErrNone)
{
RDebug::Printf("<Error %d> Unable to get token for interface 0",err);
return TestFailed(err);
}
err = iInterface0.Open(token);
if(err != KErrNone)
{
RDebug::Printf("<Error %d> Unable to open interface 0",err);
return TestFailed(err);
}
// Send request to client to reconnect in 3 seconds
TReconnectRequest request(3);
iClientAction->SendRequest(request,this);
// Monitor for the reconnection from the client
iActorFDF->Monitor();
TimeoutIn(30);
}
break;
case EConnectCancelled:
RDebug::Printf("<Error> Bus event cancellation not successful");
TestFailed(KErrCorrupt);
break;
case EPassed: // Test case has been successfully concluded
{
TUint32 token;
err = testDevice.Device().GetTokenForInterface(0,token);
if(err != KErrNone)
{
RDebug::Printf("<Error %d> Unable to get token for interface 0",err);
return TestFailed(err);
}
err = iInterface0.Open(token);
if(err != KErrNone)
{
RDebug::Printf("<Error %d> Unable to open interface 0",err);
return TestFailed(err);
}
// Send test case passed request to client
TTestCasePassed request;
iClientAction->SendRequest(request,this);
}
break;
default:
RDebug::Printf("<Error> Test case actions out of sync");
TestFailed(KErrCorrupt);
break;
}
}
void CUT_PBASE_T_USBDI_0472::Ep0TransferCompleteL(TInt aCompletionCode)
{
LOG_FUNC
switch(iCaseStep)
{
case EPassed:
{
TestPassed();
}
break;
case EFailed:
{
TestFailed(KErrCompletion);
}
break;
case ERemoveDevice:
{
// Doing nothing, client should be re-connecting
}
break;
default:
RDebug::Printf("<Error %d> Unknown test step",KErrCorrupt);
TestFailed(KErrCorrupt);
break;
}
}
void CUT_PBASE_T_USBDI_0472::DeviceRemovedL(TUint aDeviceHandle)
{
LOG_FUNC
Cancel();
switch(iCaseStep)
{
case ERemoveDevice:
{
iCaseStep = EConnectCancelled;
// start timer now
TimeoutIn(5);
}
break;
default:
RDebug::Printf("<Error> Test case actions out of sync");
TestFailed(KErrCorrupt);
break;
}
}
void CUT_PBASE_T_USBDI_0472::BusErrorL(TInt aError)
{
// This test case handles no failiures on the bus
TestFailed(aError);
}
void CUT_PBASE_T_USBDI_0472::DeviceStateChangeL(RUsbDevice::TDeviceState aPreviousState,
RUsbDevice::TDeviceState aNewState,TInt aCompletionCode)
{
LOG_FUNC
}
void CUT_PBASE_T_USBDI_0472::HostRunL()
{
LOG_FUNC
// Obtain the completion code
TInt completionCode(iStatus.Int());
if(completionCode == KErrNone)
{
if(iCaseStep == EConnectCancelled)
{
// not a time-out
RDebug::Printf("Timer elapsed, reactivating notifications now");
iCaseStep = EPassed;
iActorFDF->Monitor();
}
else
{
// Action timeout
RDebug::Printf("<Error> Action timeout");
TestFailed(KErrTimedOut);
}
}
else
{
RDebug::Printf("<Error %d> Timeout timer could not complete",completionCode);
TestFailed(completionCode);
}
}
void CUT_PBASE_T_USBDI_0472::DeviceRunL()
{
LOG_FUNC
// Disconnect the device
iTestDevice->SoftwareDisconnect();
// Complete the test case request
TestPolicy().SignalTestComplete(iStatus.Int());
}
}