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) 2008-2009 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-0492.cpp
// @internalComponent
//
//
#include "PBASE-T_USBDI-0492.h"
#include "testpolicy.h"
#include "modelleddevices.h"
#include "testliterals.h"
namespace NUnitTesting_USBDI
{
const TInt KBulkTransferSize = 583;
const TUint KHostNumWriteBytes1 = 210;
const TUint KHostNumWriteBytes2 = 350;
const TUint KHostNumWriteBytes3 = KBulkTransferSize - KHostNumWriteBytes1 - KHostNumWriteBytes2; // 23
const TUint KHostNumReadBytes1 = 301;
const TUint KHostNumReadBytes2 = 21;
const TUint KHostNumReadBytes3 = KBulkTransferSize - KHostNumReadBytes1 - KHostNumReadBytes2; // 261
//Make these single bit values ...
// ... so that their completion can be easily recorded in a bit mask!
const TInt KBulkTransferInId0 = 1<<0;
const TInt KBulkTransferInId1 = 1<<1;
const TInt KBulkTransferInId2 = 1<<2;
const TInt KBulkTransferOutId0 = 1<<3;
const TInt KBulkTransferOutId1 = 1<<4;
const TInt KBulkTransferOutId2 = 1<<5;
const TInt KUnexpectedTransferID = -101;
const TInt KUndefinedStep = -102;
_LIT(KTestCaseId,"PBASE-T_USBDI-0492");
const TFunctorTestCase<CUT_PBASE_T_USBDI_0492,TBool> CUT_PBASE_T_USBDI_0492::iFunctor(KTestCaseId);
CUT_PBASE_T_USBDI_0492* CUT_PBASE_T_USBDI_0492::NewL(TBool aHostRole)
{
CUT_PBASE_T_USBDI_0492* self = new (ELeave) CUT_PBASE_T_USBDI_0492(aHostRole);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
CUT_PBASE_T_USBDI_0492::CUT_PBASE_T_USBDI_0492(TBool aHostRole)
: CBaseBulkTestCase(KTestCaseId,aHostRole),
iCaseStep(EInProgress)
{
}
void CUT_PBASE_T_USBDI_0492::ConstructL()
{
BaseBulkConstructL();
}
CUT_PBASE_T_USBDI_0492::~CUT_PBASE_T_USBDI_0492()
{
LOG_FUNC
}
void CUT_PBASE_T_USBDI_0492::Ep0TransferCompleteL(TInt aCompletionCode)
{
LOG_FUNC
RDebug::Printf("Ep0TransferCompleteL with aCompletionCode = %d",aCompletionCode);
if(aCompletionCode != KErrNone)
{
if(iCaseStep == EFailed)
{// ignore error, nad catch the TestFailed method called further down.
RDebug::Printf("***Failure sending FAIL message to client on endpoint 0***");
}
else
{
TBuf<256> msg;
msg.Format(_L("<Error %d> Transfer to control endpoint 0 was not successful"),aCompletionCode);
RDebug::Print(msg);
iCaseStep = EFailed;
TTestCaseFailed request(aCompletionCode,msg);
iControlEp0->SendRequest(request,this);
return;
}
}
switch(iCaseStep)
{
// Test case passed
case EPassed:
TestPassed();
break;
// Test case failed
case EFailed:
TestFailed(KErrCompletion);
break;
case ETransferOut:
RDebug::Printf("Try to send data");
iOutTransfer[0]->TransferOut(KLiteralEnglish8().Mid(0, KHostNumWriteBytes1), EFalse);
iOutTransfer[1]->TransferOut(KLiteralEnglish8().Mid(KHostNumWriteBytes1, KHostNumWriteBytes2), EFalse);
iOutTransfer[2]->TransferOut(KLiteralEnglish8().Mid(KHostNumWriteBytes1+KHostNumWriteBytes2, KHostNumWriteBytes3), ETrue); //do not suppress ZLP on this last one (though should be irrelevant here)
break;
case ETransferIn:
RDebug::Printf("Try to receive data");
iInTransfer[0]->TransferIn(KHostNumReadBytes1);
iInTransfer[1]->TransferIn(KHostNumReadBytes2);
iInTransfer[2]->TransferIn(KHostNumReadBytes3);
break;
default:
RDebug::Printf("<Error> Unknown test step");
TestFailed(KErrUnknown);
break;
}
}
void CUT_PBASE_T_USBDI_0492::TransferCompleteL(TInt aTransferId,TInt aCompletionCode)
{
LOG_FUNC
Cancel();
TInt err(KErrNone);
TBuf<256> msg;
RDebug::Printf("Transfer completed (id=%d), aCompletionCode = %d",aTransferId, aCompletionCode);
switch(iCaseStep)
{
case ETransferOut:
if(aCompletionCode != KErrNone)
{
err = KErrCorrupt;
msg.Format(_L("<Error %d> No data sent on bulk OUT request"),aCompletionCode);
break; // switch(iCaseStep)
}
switch(aTransferId)
{
case KBulkTransferOutId0:
case KBulkTransferOutId1:
case KBulkTransferOutId2:
iTransferComplete |= aTransferId;
RDebug::Printf("Transfer %d completed", aTransferId);
break; // switch(aTransferId)
default:
iTransferComplete = 0; //reset
err = KUnexpectedTransferID;
msg.Format(_L("<Error %d> Unexpected transfer ID, wanted %d, %d or %d, got %d"),
err, KBulkTransferOutId0, KBulkTransferOutId1, KBulkTransferOutId2, aTransferId);
break; // switch(aTransferId)
}
if(err==KErrNone && iTransferComplete == (KBulkTransferOutId0 | KBulkTransferOutId1 | KBulkTransferOutId2))
{
RDebug::Printf("Try to receive back sent data. Transfers Completed %d", iTransferComplete);
iCaseStep = ETransferIn;
TUint numBytes[KNumSplitWriteSections] = {KHostNumReadBytes1, KHostNumReadBytes2, KHostNumReadBytes3};
TSplitWriteCachedReadDataRequest request(1,1,1,numBytes);
iControlEp0->SendRequest(request,this);
iTransferComplete = 0; //reset
}
break; // switch(iCaseStep)
case ETransferIn:
if(aCompletionCode != KErrNone)
{
err = KErrCorrupt;
msg.Format(_L("<Error %d> No data sent on bulk IN request"),aCompletionCode);
break; // switch(iCaseStep)
}
switch(aTransferId)
{
case KBulkTransferInId0:
case KBulkTransferInId1:
case KBulkTransferInId2:
iTransferComplete |= aTransferId;
break; // switch(aTransferId)
default:
iTransferComplete = 0; //reset
err = KUnexpectedTransferID;
msg.Format(_L("<Error %d> Unexpected transfer ID, wanted %d, %d or %d, got %d"),
err, KBulkTransferInId0, KBulkTransferInId1, KBulkTransferInId2, aTransferId);
break; // switch(aTransferId)
}
if(err==KErrNone && iTransferComplete == (KBulkTransferInId0 | KBulkTransferInId1 | KBulkTransferInId2))
{
// compare data rcvd now
TPtrC8 data1(iInTransfer[0]->DataPolled());
TPtrC8 data2(iInTransfer[1]->DataPolled());
TPtrC8 data3(iInTransfer[2]->DataPolled());
if(ValidateData(data1, KLiteralEnglish8().Mid(0, KHostNumReadBytes1)) == EFalse)
{
err = KErrCompletion; //indicates data validation failure
break; // switch(iCaseStep)
}
if(ValidateData(data2, KLiteralEnglish8().Mid(KHostNumReadBytes1, KHostNumReadBytes2)) == EFalse)
{
err = KErrCompletion; //indicates data validation failure
break; // switch(iCaseStep)
}
if(ValidateData(data3, KLiteralEnglish8().Mid(KHostNumReadBytes1+KHostNumReadBytes2, KHostNumReadBytes3)) == EFalse)
{
err = KErrCompletion; //indicates data validation failure
break; // switch(iCaseStep)
}
// Comparison is a match
RDebug::Printf("Comparison for IN transfer is a match");
iCaseStep = EPassed;
TTestCasePassed request;
iControlEp0->SendRequest(request,this);
iTransferComplete = 0; //reset
}
break; // switch(iCaseStep)
default:
err = KUndefinedStep;
msg.Format(_L("<Error %d> Undefined case step %d reached"),KUndefinedStep, iCaseStep);
break; // switch(iCaseStep)
}
if(err == KErrCompletion)
{
//indicates data validation failure
msg.Format(_L("<Error %d> Bulk transfer IN data received does not match Bulk Transfer OUT data"), err);
}
if(err!=KErrNone)
{
RDebug::Print(msg);
iCaseStep = EFailed;
TTestCaseFailed request(err,msg);
iControlEp0->SendRequest(request,this);
}
}
void CUT_PBASE_T_USBDI_0492::DeviceInsertedL(TUint aDeviceHandle)
{
LOG_FUNC
Cancel();
if(BaseBulkDeviceInsertedL(aDeviceHandle) == EDeviceConfigurationError)
// Prepare for response from control transfer to client
{
iCaseStep = EFailed;
}
// Create the bulk transfers
iInTransfer[0] = new (ELeave) CBulkTransfer(iTestPipeInterface1BulkIn,iUsbInterface1,KBulkTransferSize,*this,KBulkTransferInId0);
iInTransfer[1] = new (ELeave) CBulkTransfer(iTestPipeInterface1BulkIn,iUsbInterface1,KBulkTransferSize,*this,KBulkTransferInId1);
iInTransfer[2] = new (ELeave) CBulkTransfer(iTestPipeInterface1BulkIn,iUsbInterface1,KBulkTransferSize,*this,KBulkTransferInId2);
iOutTransfer[0] = new (ELeave) CBulkTransfer(iTestPipeInterface1BulkOut,iUsbInterface1,KBulkTransferSize,*this,KBulkTransferOutId0);
iOutTransfer[1] = new (ELeave) CBulkTransfer(iTestPipeInterface1BulkOut,iUsbInterface1,KBulkTransferSize,*this,KBulkTransferOutId1);
iOutTransfer[2] = new (ELeave) CBulkTransfer(iTestPipeInterface1BulkOut,iUsbInterface1,KBulkTransferSize,*this,KBulkTransferOutId2);
// Initialise the descriptors for transfer
RDebug::Printf("Initialising the transfer descriptors");
TInt err = iUsbInterface1.InitialiseTransferDescriptors();
if(err != KErrNone)
{
TBuf<256> msg;
msg.Format(_L("<Error %d> Unable to initialise transfer descriptors"),err);
RDebug::Print(msg);
iCaseStep = EFailed;
TTestCaseFailed request(err,msg);
iControlEp0->SendRequest(request,this);
return;
}
iCaseStep = ETransferOut;
TEndpointReadRequest request(1,1,KBulkTransferSize);// EP1 means endpoint index 1 not the actual endpoint number
iControlEp0->SendRequest(request,this);
}
} //end namespace