traceservices/tracefw/integ_test/ost/TEF/te_ostv2integsuite_common/src/te_instrumentationpoints_disabled.cpp
// 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 "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:
// Ost Performance Tests Ost Call.
//
/**
@file te_instrumentationpoints_disabled.cpp
@internalTechnology
@prototype
*/
#include "te_instrumentationpoints.h"
#include "te_instrumentationpoints_disabledTraces.h"
#ifndef __KERNEL_MODE__
#include <e32base.h> //for cleanupstack
#endif
#include "te_perfstackinfo.h"
#include "te_dataparameters.h"
#include "sanity/te_perfsanityhelpers.h"
#include "te_ctor.h"
/*dummy function for Test function - used to calibrate and debug the timer class with the Lauterbach*/
void tracefoo()
{
volatile int gt[100]; //expect 400 bytes stack use - i.e. 100 words of 4bytes each
for(int i=0; i<100;++i)
gt[i] = i;
}
TBool TUptTraceCalls::IsKernelTrace(TInt aApiId)
{
TBool isKernelTrace = EFalse;
switch(aApiId)
{
case EUptKernelPrintfchar:
case EUptKernelPrintfDesc8_big:
case EUptKernelPrintfDesc8_huge:
case EUptKernelTrace:
case EUptKernelTraceTUint32:
case EUptKernelTraceTUint32TUint32:
case EUptKernelTraceTAnySmallStruct:
case EUptKernelTraceTAnyBigStruct:
case EUptKernelTraceTAnyHugeStruct:
case EUptKernelTraceTemplatedSmallStruct:
case EUptKernelTraceTemplatedBigStruct:
case EUptKernelTraceTemplatedHugeStruct:
case EUptKernelIsTraceActive:
case UPTKernelTraceTest:
case UPTKernelNegativeFunctionalityTest:
case UPTKernelMultipleFunctionalityTest:
case UPTKernelBaseline:
isKernelTrace = ETrue;
break;
default:
break;
}
return isKernelTrace;
}
TInt TUptTraceCalls::DoSendTraceL(const TApiRunConfig& aApiRunConfig, TApiRunResults& aApiRunResults)
{
TInt error = KErrGeneral;
TBool logged = EFalse;
TUint32 stackbase=0;
TUint32 before=0;
aApiRunResults.iApiStackUsage = 0;
switch(aApiRunConfig.iApiId)
{
case EUptPrintTDesC8_big:
case EUptKernelPrintfDesc8_big:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstPrint(attributes, KStringDesc8 );//TPtrC8((const TUint8*)KBigData8, KBigSize8)
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptPrintTDesC8_huge:
case EUptKernelPrintfDesc8_huge:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstPrint(attributes, KStringDescHuge8);//TPtrC8((const TUint8*)KHugeData8, KHugeSize8)
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptPrintTDesC16_big:
#ifndef __KERNEL_MODE__
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstPrint(attributes, KStringDesc16);//TPtrC16((const TUint16*)KBigData16, KBigSize16)
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
#endif
break;
case EUptPrintTDesC16_huge:
#ifndef __KERNEL_MODE__
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstPrint(attributes, KStringDescHuge16);//TPtrC16((const TUint16*)KHugeData16, KHugeSize16)
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
#endif
break;
case EUptTraceTDesC8_big:
case EUptKernelTraceDesc8_big:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KStringDesc8);//TPtrC8((const TUint8*)KBigData8, KBigSize8));
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTDesC8_huge:
case EUptKernelTraceDesc8_huge:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KStringDescHuge8);//TPtrC8((const TUint8*)KHugeData8, KHugeSize8));
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTDesC16_big:
#ifndef __KERNEL_MODE__
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KStringDesc16);//TPtrC16((const TUint16*)KBigData16, KBigSize16));
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
#endif
break;
case EUptTraceTDesC16_huge:
#ifndef __KERNEL_MODE__
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KStringDescHuge16);//TPtrC16((const TUint16*)KHugeData16, KHugeSize16));
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
#endif
break;
case EUptPrintfchar:
case EUptKernelPrintfchar:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstPrintf(attributes, KPrintfCStyleString);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptPrintfTRefByValueTDesC8:
case EUptKernelPrintfTRefByValueTDesC8:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstPrintf(attributes, KDesC8Formatted,2);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptPrintfTRefByValueTDesC16:
#ifndef __KERNEL_MODE__
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstPrintf(attributes, KDesCFormatted16,2);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
#endif
break;
case EUptTrace:
case EUptKernelTrace:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTUint32:
case EUptKernelTraceTUint32:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KData1);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTUint32TUint32:
case EUptKernelTraceTUint32TUint32:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KData1, KData2);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTAnySmallStruct:
case EUptKernelTraceTAnySmallStruct:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KSmallData, KSmallSize);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTAnyBigStruct:
case EUptKernelTraceTAnyBigStruct:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KBigData8, KBigSize8);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTAnyHugeStruct:
case EUptKernelTraceTAnyHugeStruct:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KHugeData8, KHugeSize8);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTemplatedSmallStruct:
case EUptKernelTraceTemplatedSmallStruct:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KStructForTemplated);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTemplatedBigStruct:
case EUptKernelTraceTemplatedBigStruct:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KBigData8);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptTraceTemplatedHugeStruct:
case EUptKernelTraceTemplatedHugeStruct:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = OstTrace(attributes, KTraceId, KHugeData8);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EUptIsTraceActive:
case EUptKernelIsTraceActive:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTraceContext attributes(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter);
logged = IsTraceActive(attributes);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case UPTTraceTest:
case UPTKernelTraceTest:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
SanityFoo();
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case UPTKernelNegativeFunctionalityTest:
{
logged = OstTrace(TTraceContext(KComponentId+1, KGroupId+1, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
logged = OstTrace(TTraceContext(KComponentId+2, KGroupId+2, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
}
break;
case UPTKernelMultipleFunctionalityTest:
{
logged = OstTrace(TTraceContext(KComponentId, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
logged = OstTrace(TTraceContext(KComponentId + 1, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
logged = OstTrace(TTraceContext(KComponentId + 2, KGroupId, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
logged = OstTrace(TTraceContext(KComponentId, KGroupId + 2, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
logged = OstTrace(TTraceContext(KComponentId + 2, KGroupId + 2, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
logged = OstTrace(TTraceContext(KComponentId + 1, KGroupId + 2, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
logged = OstTrace(TTraceContext(KComponentId, KGroupId + 1, aApiRunConfig.iHasContext, aApiRunConfig.iHasProgramCounter), KTraceId);
}
break;
case BTraceFiltered4:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
logged = BTraceFiltered4(KGroupId,0 ,KComponentId);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case BTraceFiltered8:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
logged = BTraceFiltered8(KGroupId,0 ,KComponentId,KData1);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case BTraceFiltered12:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
logged = BTraceFiltered12(KGroupId,0 ,KComponentId,KData1,KData2);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case BTraceFilteredBig:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
logged = BTraceFilteredBig(KGroupId,0 ,KComponentId,KHugeData8,sizeof(KHugeData8));
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case BTrace0:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
logged = BTrace0(KGroupId,0 );
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case BTrace4:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
logged = BTrace4(KGroupId,0 ,KData1);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case BTrace8:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
logged = BTrace8(KGroupId,0 ,KData1, KData2);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case BTrace12:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
logged = BTrace12(KGroupId,0 ,KData1, KData2, KData3);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case UPTKernelBaseline:
case UPTBaseline:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceDef0:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceDef0( OST_TRACE_CATEGORY_ALL, TRACE_FATAL, TEST_OstTraceDef0, "EOstTraceDef0" ) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceDef1:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceDef1( OST_TRACE_CATEGORY_ALL, TRACE_FATAL, TEST_OstTraceDef1, "EOstTraceDef1 - %u" , KData1) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceDefData:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
//const TAny* y = &KData1;
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceDefData( OST_TRACE_CATEGORY_ALL, TRACE_FATAL, TEST_OstTraceDefData, "EOstTraceDefData", &KData1, sizeof(KData1) ) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceDefExt1:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceDefExt1( OST_TRACE_CATEGORY_ALL, TRACE_FATAL, TEST_OstTraceDefExt1, "OstTraceDefExt1 - %s", KDefault8 ) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceDefExt2:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceDefExt2( OST_TRACE_CATEGORY_ALL, TRACE_FATAL, TEST_OstTraceDefExt2, "OstTraceDefExt2 - %u - %u", KData1 , KData1) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceDefExt3:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceDefExt3( OST_TRACE_CATEGORY_ALL, TRACE_FATAL, TEST_OstTraceDefExt3, "OstTraceDefExt3 - %u - %u - %u", KData1 , KData1, KData1) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceDefExt4:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceDefExt4( OST_TRACE_CATEGORY_ALL, TRACE_FATAL, TEST_OstTraceDefExt4, "OstTraceDefExt4 - %u - %u - %u - %u", KData1 , KData1, KData1, KData1) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceDefExt5:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceDefExt5( OST_TRACE_CATEGORY_ALL, TRACE_FATAL, TEST_OstTraceDefExt5, "OstTraceDefExt5 - %u - %u - %u - %u - %u", KData1, KData1, KData1, KData1, KData1 ) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTrace0:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTrace0( TRACE_FATAL, TEST_OSTTRACE0, "EOstTrace0" );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTrace1:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTrace1( TRACE_FATAL, TEST_OSTTRACE1, "EOstTrace1 - %u" , KData1);
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceData:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
//const TAny* y = &KData1;
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceData( TRACE_FATAL, TEST_OSTTRACEDATA, "EOSTTraceData", &KData1, sizeof(KData1) );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceExt1:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceExt1( TRACE_FATAL, TEST_OSTTRACEEXT1, "OSTTraceExt1 - %hhd", KData8 ) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceExt2:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceExt2( TRACE_FATAL, TEST_OSTTRACEEXT2, "OSTTraceExt2 - %u - %u", KData1 ,KData1) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceExt3:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceExt3( TRACE_FATAL, TEST_OSTTRACEEXT3, "OSTTraceExt3 - %u - %u - %u", KData1 ,KData1, KData1) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceExt4:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceExt4( TRACE_FATAL, TEST_OSTTRACEEXT4, "OSTTraceExt4 - %u - %u - %u - %u", KData1 ,KData1, KData1, KData1) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceExt5:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceExt5( TRACE_FATAL, TEST_OSTTRACEEXT5, "OSTTraceExt5 - %u - %u - %u - %u - %u", KData1 ,KData1, KData1, KData1, KData1) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceFunctionEntry0:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceFunctionEntry0( TEST_OSTTraceFunctionalityEntry0 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceFunctionEntry1:
{
//const TAny* y = &KData1;
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceFunctionEntry1( TEST_OSTTraceFunctionalityEntry1, KData1 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceFunctionEntryExt:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceFunctionEntryExt( TEST_OSTTraceFunctionalityExt, (const TAny*)&KData1 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceFunctionEntryExtCtorInitList:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTestCtor testCtorA( 1, 2 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceFunctionEntryExtCtorNoInitList:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
TTestCtor testCtorB( 3 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceFunctionExit0:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceFunctionExit0( TEST_OstTraceFunctionExit0 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceFunctionExit1:
{
//const TAny* y = &KData1;
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceFunctionExit1( TEST_OSTTRACEFUNCTIONEXIT1, KData1 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceFunctionExitExt:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceFunctionExitExt( TEST_OSTTRACEFUNCTIONEXITEXT, (const TAny*)&KData1, TInt(0) );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceEventStart0:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceEventStart0( TEST_OSTTRACEEVENTSTART0, "EOstTraceEventStart0" );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceEventStart1:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceEventStart1( TEST_OSTTRACEEVENTSTART1, "EOstTraceEventStart1 - %u", KData1 ) ;
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceEventStop:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceEventStop( TEST_OSTTRACEEVENTSTOP, "EOstTraceEventStop", TEST_OSTTRACEEVENTSTART0 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceState0:
{
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceState0( TEST_OSTTRACESTATE0, "Test State Name", "Test State Value" );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceState1:
{
//const TAny* y = &KData1;
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceState1( TEST_OSTTRACESTATE1, "Test State Name", "Test State Value", KData1 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceData96:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceData( TRACE_FATAL, TEST_OSTTRACEDATA96, "EOSTTraceData96", KBigData8, KBigSize8 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
case EOstTraceData1000:
{
/**
Preprocessor level for all traces on.
This should not be used from traces
*/
#define OST_TRACE_CATEGORY_ALL 0xFFFFFFFF
__MARK_INITIAL_STACK(aApiRunConfig.iDoStack, stackbase, before);
OstTraceData( TRACE_FATAL, TEST_OSTTRACEDATA1000, "EOSTTraceData1000", KHugeData8, KHugeSize8 );
logged = EFalse;
__RETURN_STACK_SIZE(aApiRunConfig.iDoStack, stackbase, before, aApiRunResults.iApiStackUsage);
}
break;
default:
error = KErrNotSupported;
break;
}
//if the "trace" is in fact not an actual trace and trace not sent - this is a true result
TBool realTrace = ETrue;
switch(aApiRunConfig.iApiId)
{
case UPTTraceTest:
case UPTKernelTraceTest:
case UPTKernelNegativeFunctionalityTest:
case UPTKernelMultipleFunctionalityTest:
case UPTBaseline:
case UPTKernelBaseline:
case UPTFooUserTime:
case UPTFooKernelTime:
realTrace = EFalse;
break;
default:
break;
}
//ensure correct error values for the current test configurations are returned to the test framework
if(!logged)
{
if(error!=KErrNotSupported)
error = KErrGeneral;
}
else
error = KErrNone;
//if trace has been disabled and trace not sent - this is a true result
#ifdef TE_UPT_TRACE_DISABLED
if(error == KErrGeneral)
error = KErrNone;
#endif
if(error == KErrGeneral && realTrace == EFalse)
error = KErrNone;
//returns KErrNone if logged, KErrNotLogged if not logged, KErrGeneral if any other problem...
return error;
}
//eof