lowlevellibsandfws/pluginfw/TestExecute/EComPerfTest/src/Te_EComAccumulatedClientRequestPerfTestStep.cpp
// Copyright (c) 2005-2009 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:
// Implementation of ECom Test to determine performance of ECom client calls during different stages of start-up.
//
//
/**
@file
@internalComponent
*/
#include "Te_EComAccumulatedClientRequestPerfTestStep.h"
#include <startup.hrh>
#include <ecom/ecom.h>
#include "Interface.h"
#include "EComSessionAux.h"
#include "EComPerformance.h"
CEComAccumulatedClientRequestsPerfTest::CEComAccumulatedClientRequestsPerfTest() : CEComPerfTestBase(KEComAccumulatedClientRequestsPerfTest)
{
}
CEComAccumulatedClientRequestsPerfTest::~CEComAccumulatedClientRequestsPerfTest()
{
}
/**
This test will retrieve the timing servicing client requests for the start-up states in this list
*/
const TStartupStateIdentifier CEComAccumulatedClientRequestsPerfTest::iMeasuredStartupStates[] =
{
EStartupStateCriticalStatic,
EStartupStateCriticalDynamic,
EStartupStateNonCritical
};
const TInt CEComAccumulatedClientRequestsPerfTest::iNumMeasuredStartupStates = sizeof(iMeasuredStartupStates)/sizeof(iMeasuredStartupStates[0]);
/**
Retrieves client request timer results from the ECom server
then prints out timer results organized by startup state, client request type, and then all client requests
*/
TVerdict CEComAccumulatedClientRequestsPerfTest::doTestStepL()
{
#ifdef __ECOM_SERVER_PERFORMANCE__
// get all the timer results from the server
RClientRequestTimerResults clientTimerResults;
CleanupClosePushL(clientTimerResults);
clientTimerResults.RetrieveResultsL();
INFO_PRINTF1(_L("ECom client request start-up timing broken down by request type and startup state:\n"));
//
// ECom start-up timing broken down by request type and startup state
// This loop goes through each start-up state in iMeasuredStartupStates, and for each client request type, retrieves the timing results from the clientTimerResults array
//
for (TInt startupStateIndex = 0; startupStateIndex < iNumMeasuredStartupStates; startupStateIndex++)
{
TPtrC startupStateName = StartupStateName(iMeasuredStartupStates[startupStateIndex]);
for (TInt clientRequestTypeInt = 0; clientRequestTypeInt < EEComNumClientRequestTypes; clientRequestTypeInt++)
{
TEComClientRequestType clientRequestType = (TEComClientRequestType)clientRequestTypeInt;
TPtrC clientRequestTypeName = ClientRequestTypeName(clientRequestType);
TUint numRequestsByTypeAndStartupState = 0;
TReal timeForRequestsByTypeAndStartupState = clientTimerResults.GetAccumulatedClientRequestTime(iMeasuredStartupStates[startupStateIndex], clientRequestType, numRequestsByTypeAndStartupState);
INFO_PRINTF5(_L("Time servicing %S requests, %S State: [%f] msec, number of requests: [%d]"),
&clientRequestTypeName, &startupStateName,
timeForRequestsByTypeAndStartupState, numRequestsByTypeAndStartupState);
}
}
INFO_PRINTF1(_L("\nECom client request start-up timing broken down by request type:\n"));
//
// ECom start-up timing broken down by request type
// This loop goes through each client request type, retrieves the timing results from the clientTimerResults array
//
for (TInt clientRequestTypeInt = 0; clientRequestTypeInt < EEComNumClientRequestTypes; clientRequestTypeInt++)
{
TEComClientRequestType clientRequestType = (TEComClientRequestType)clientRequestTypeInt;
TPtrC clientRequestTypeName = ClientRequestTypeName(clientRequestType);
TUint numRequestsByType = 0;
TReal timeForRequestsByType = clientTimerResults.GetAccumulatedClientRequestTime(clientRequestType, numRequestsByType);
INFO_PRINTF4(_L("Time servicing %S requests: [%f] msec, number of requests: [%d]"),
&clientRequestTypeName, timeForRequestsByType, numRequestsByType);
}
INFO_PRINTF1(_L("\nECom client request start-up timing broken down by start-up state:\n"));
//
// ECom start-up timing broken down by start-up state
// This loop goes through start-up state in iMeasuredStartupStates, and retrieves the timing results from the clientTimerResults array
//
for (TInt startupStateIndex = 0; startupStateIndex < iNumMeasuredStartupStates; startupStateIndex++)
{
TPtrC startupStateName = StartupStateName(iMeasuredStartupStates[startupStateIndex]);
TUint numRequestsByStartupState = 0;
TReal timeForRequestsByStartupState = clientTimerResults.GetAccumulatedClientRequestTime(iMeasuredStartupStates[startupStateIndex], numRequestsByStartupState);
INFO_PRINTF4(_L("Time servicing requests in %S State: [%f] msec, number of requests: [%d]"),
&startupStateName, timeForRequestsByStartupState, numRequestsByStartupState);
}
//
// Total time servicing client requests
// This loop goes retrieves the total time spent servicing client requests
//
TUint totalNumRequests = 0;
TReal totalTimeForRequests = clientTimerResults.GetAccumulatedClientRequestTime(totalNumRequests);
INFO_PRINTF3(_L("Total time servicing all requests: [%f] msec, number of requests: [%d]"),
totalTimeForRequests, totalNumRequests);
if (totalNumRequests >= KAccumulatedClientRequestTimerResultMaxCount)
{
INFO_PRINTF2(_L("Number of client requests exceeded %d. Not all client requests may have been recorded\n"), KAccumulatedClientRequestTimerResultMaxCount);
return EFail;
}
CleanupStack::PopAndDestroy(&clientTimerResults);
#else
MacroNotDefinedError();
#endif // __ECOM_SERVER_PERFORMANCE__
return TestStepResult();
}