// Copyright (c) 2001-2009 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:
// defines test class: CTextModeTestCancelMultiTrans
//
//
#include "T_CancelMultiTrans.h"
// Constants used in test
const TInt KCancelTestEventWhenCancelled = -7398;
// CTextModeTestCancelMultiTrans-----------------------------------
CTextModeTestCancelMultiTrans* CTextModeTestCancelMultiTrans::NewL(const TDesC& aHostName, TInt aNumTrans, TInt aTestNum, TInt aDelay, TInt aIdxToCancel)
{
CTextModeTestCancelMultiTrans* me = new(ELeave)CTextModeTestCancelMultiTrans(aNumTrans, aTestNum, aDelay, aIdxToCancel);
CleanupStack::PushL(me);
me->ConstructL(aHostName);
CleanupStack::Pop();
return me;
}
CTextModeTestCancelMultiTrans::~CTextModeTestCancelMultiTrans()
{
delete iCancelTimer;
iTransStatus.Close();
iTransIds.Close();
}
const TDesC& CTextModeTestCancelMultiTrans::TestName()
{
_LIT(KHeaderTestNameFmt,"CTextModeTestCancelMultiTrans:%d");
iTestName.Format(KHeaderTestNameFmt(), iTestNum);
return iTestName;
}
TInt CTextModeTestCancelMultiTrans::MHFRunError(TInt aError,
RHTTPTransaction aTransaction,
const THTTPEvent& /*aEvent*/)
{
iEngine->Utils().LogIt(_L("TestCancelMultiTrans: failed with error code %d on transaction ID=%d\n"), aError, aTransaction.Id());
// Use the response status to convey the error code
aTransaction.Response().SetStatusCode(aError);
return KErrNone;
}
void CTextModeTestCancelMultiTrans::MHFRunL(RHTTPTransaction aTransaction,
const THTTPEvent& aEvent)
{
// look up the transaction ID in our list of launched transactions
TInt transIdx = KErrNotFound;
TInt ii = 0;
while ((ii < iMaxNumTransactions) && (transIdx == KErrNotFound))
{
if (iTransIds[ii] == aTransaction.Id())
transIdx = ii;
else
ii++;
}
// Leave with an error if the event is for the transaction which has been cancelled
if (iCancelTimer->HasFired() && (aTransaction.Id() == iTransIds[iIdxToCancel]))
{
iTransStatus[ii] = KCancelTestEventWhenCancelled;
User::Leave(KCancelTestEventWhenCancelled);
}
switch (aEvent.iStatus)
{
case THTTPEvent::EGotResponseHeaders:
{
// HTTP response headers have been received
iEngine->Utils().LogIt(_L("<Got response headers>"));
RHTTPResponse resp = aTransaction.Response();
iTransStatus[ii] = resp.StatusCode();
} break;
case THTTPEvent::ESubmit:
{
} break;
case THTTPEvent::EGotResponseBodyData:
{
// Some (more) body data has been received (in the HTTP response)
iEngine->Utils().LogIt(_L("<Got a chunk of data>"));
ValidateBodyL(aTransaction);
} break;
case THTTPEvent::EResponseComplete:
{
// The transaction's response is complete
iEngine->Utils().LogIt(_L("<Transaction Complete>"));
} break;
case THTTPEvent::ESucceeded:
{
iEngine->Utils().LogIt(_L("<Transaction validated successfully>"));
if (--iOpenTransactionCount == 0)
CActiveScheduler::Stop();
} break;
case THTTPEvent::EFailed:
{
iEngine->Utils().LogIt(_L("<Transaction NOT validated successfully>"));
if (--iOpenTransactionCount == 0)
CActiveScheduler::Stop();
iFailureError = KErrTestFailed;
}
break;
case THTTPEvent::EUnrecoverableError:
{
iEngine->Utils().LogIt(_L("<Test failed unrecoverably>"));
iFailureError = KErrTestFailed;
}
break;
default:
{
iEngine->Utils().LogIt(_L("<unrecognised event> %d"),aEvent.iStatus);
if (aEvent.iStatus < 0)
{
iFailureError = aEvent.iStatus;
CActiveScheduler::Stop();
}
}
break;
}
}
void CTextModeTestCancelMultiTrans::DoRunL()
{
iSession.OpenL();
CleanupClosePushL(iSession);
// Open the HTTP session
RHTTPConnectionInfo connInfo = iSession.ConnectionInfo();
RStringPool strP = iSession.StringPool();
connInfo.SetPropertyL(strP.StringF(HTTP::EMaxNumTransportHandlers,RHTTPSession::GetTable()), THTTPHdrVal(1));
// Create the array of transactions
CreateTransArrayL();
// Populate some other arrays used for event checking in MHFRunL
TInt ii;
for (ii = 0; ii < iMaxNumTransactions; ii++)
{
iTransIds.Append(iTransArray[ii].Id());
iTransStatus.Append(0);
}
// Create the delayed notifier
iCancelTimer = CDelayedRequestCanceller::NewL(iTransArray[iIdxToCancel], *this);
CActiveScheduler::Add(iCancelTimer);
// Set timer to fire when we want to cancel the transaction (50ms interval added per test)
iCancelTimer->After(iDelay);
// Go!
iFailureError = 0;
CActiveScheduler::Start();
// Close anything opened, and fail straight away on any failure error caught in MHFRunL
CleanupStack::PopAndDestroy(&iSession);
User::LeaveIfError(iFailureError);
// Anything other than 0 (no response received yet) or HTTP/200 status in any of the
// transactions is a failure for this test
// Difficult to be precise about which tests should run to completion (i.e. 200) and which won't, so
// set the test engine not to check status codes
iExpectedStatusCode = 0;
TInt status = 0, st = 0, id = 0;
for (ii = 0; ii < iTransStatus.Count(); ii++)
{
st = iTransStatus[ii];
if (st < 0)
{
status = st;
id = iTransIds[ii];
}
else if ((st != 0) && (st != 200))
{
status = KErrGeneral;
id = iTransIds[ii];
}
}
// Log the failure we've picked on to report
if (status < 0)
iEngine->Utils().LogIt(_L("TestCancelMultiTrans : transaction ID=%d failed with code %d"), id, status);
User::LeaveIfError(status);
}
TInt CTextModeTestCancelMultiTrans::RunError(TInt aErr)
{
iEngine->Utils().LogIt(_L("\nTest failed with error code %d\n"), aErr);
return KErrNone;
}
void CTextModeTestCancelMultiTrans::DoCancel()
{
iCancelTimer->Cancel();
}
CTextModeTestCancelMultiTrans::CTextModeTestCancelMultiTrans(TInt aNumTrans, TInt aTestNum, TInt aDelay, TInt aIdxToCancel)
: CTextModeTestMultiTrans(aNumTrans), iTestNum(aTestNum), iDelay(aDelay), iIdxToCancel(aIdxToCancel)
{
}
void CTextModeTestCancelMultiTrans::CancelFired(RHTTPTransaction aTrans)
{
aTrans.Cancel();
if (--iOpenTransactionCount == 0)
CActiveScheduler::Stop();
}
void CTextModeTestCancelMultiTrans::ConstructL(const TDesC& aHostName)
{
// call Base ConstructL
CTextModeTestMultiTrans::ConstructL(aHostName);
}
CTextModeTestCancelMultiTrans::CDelayedRequestCanceller*
CTextModeTestCancelMultiTrans::CDelayedRequestCanceller::NewL(RHTTPTransaction aTrans, CTextModeTestCancelMultiTrans& aOwningTest)
{
CDelayedRequestCanceller* me = new(ELeave)CDelayedRequestCanceller(aTrans, aOwningTest);
CleanupStack::PushL(me);
me->ConstructL();
CleanupStack::Pop();
return me;
}
CTextModeTestCancelMultiTrans::CDelayedRequestCanceller::CDelayedRequestCanceller(RHTTPTransaction aTrans, CTextModeTestCancelMultiTrans& aOwningTest)
: CTimer(EPriorityStandard), iTrans(aTrans), iOwningTest(&aOwningTest)
{
}
void CTextModeTestCancelMultiTrans::CDelayedRequestCanceller::RunL()
{
iHasFired = ETrue;
iOwningTest->CancelFired(iTrans);
}