--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/kerneltest/e32test/mmu/t_cache.cpp Mon Oct 19 15:55:17 2009 +0100
@@ -0,0 +1,1008 @@
+// Copyright (c) 2006-2009 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:
+// e32test\debug\t_cache.cpp
+// Overview:
+// Performs cache checking in order to ensure it is running correctly.
+// Runs automatically or as manual test. (Type "t_cache help" for details.)
+// API Information:
+// class Cache
+// class L2Cache
+// Details:
+// -Test1 - Displays cache properties.
+// -Test2 - Gets thresholds.
+// -Test3 - Sets thresholds.
+// -Test4 - Compares different memory mappings of data.
+// -Test5 - Compares different memory mappings of code.
+// -Test6 - Tests Write Back mode.
+// -Test7 - Tests cache maintenance functions
+// It can also perform more specified tests if run manually:
+// - t_cache info Test1 only
+// - t_cache data <size_hex> Runs data chunk test (Test 4) with specified chunk size. For example,
+// "t_cache data 10000" will run data chunk test against 64KB chunk.
+// - t_cache code <size_hex> Runs code chunk test (Test 5) for specified chink size. For example,
+// "t_cache code 10000" will run code chunk test against 64KB chunk.
+// - t_cache data+<size_hex> Runs data chunk test for specified set of chunk sizes. For example,
+// "t_cache data+1000" will perform data chunk test for sizes 4K, 8K,... up to 512K.
+// - t_cache code+<size_hex> Runs code chunk test for specified set of sizes. For example,
+// "t_cache code+1000" will perform code chunk test for sizes 4K, 8K,... up to 512K.
+// - t_cache threshold Diplays thresholds for all caches on the platform.
+// - t_cache threshold T P C H Sets new values for cache thresholds:
+// - "T" specifies the type of cache to whose threshould are to be chenged:
+// 1 for Instruction (or Unified) Cache.
+// 2 for Data Cache (for ARMv7 and later, this is Point-of-Coherency threshold.
+// 4 for XScale AltData Cache.
+// 8 for Point-of-Unification Data Cache Threshold for ARMv7 and later platforms.
+// 10 for L2 (L210 or XScale L2 cache)
+// - "P" "C" & "H" are hex values for purge, clean & flush thresholds.
+// For example: "t_cache 1 10000 10000 10000" sets 64KB for all thresholds in Instruction Cache.
+// - t_cache usecase Runs particular use case tests.
+// - t_cache help Displays the list of manual commands.
+// Platforms/Drives/Compatibility:
+// Hardware - ARM only (Manual). Not supported on emulator.
+// Assumptions/Requirement/Pre-requisites:
+// Failures and causes:
+// Base Port information:
+// d_cache.mmp to be built from the baseport.
+//
+//
+
+#include <e32test.h>
+#include "d_cache.h"
+
+//------------globals---------------------
+LOCAL_D RTest test(_L("T_CACHE"));
+_LIT(KPrintCacheInfos,"info");
+_LIT(KTestData,"data");
+_LIT(KTestCode,"code");
+_LIT(KHelp,"help");
+_LIT(KThreshold,"threshold");
+_LIT(KIncremental,"+");
+_LIT(KUseCase,"usecase");
+
+RCacheTestDevice Device;
+RCacheTestDevice::TCacheInfo CacheInfo;
+TBuf<KCacheDescSize> TempBuff;
+
+const TInt KDefaultDataSize = 0x20000;
+const TInt KDefaultCodeSize = 0x804; //2K+4. Should be <= TestCodeFuncSize(). Otherwise, code test won't run against rom image.
+const TInt KMaxChunkSize = 0x80000; //512KB Incremental tests limit
+const TInt KWriteBackTestSizeSize = 0x4000; // Shouldn't go over cache thresholds (where purge becomes flush).
+
+extern void DataSegmetTestFunct(void* aBase, TInt aSize);
+
+/** Loads & opens LDD.*/
+void StartDriver()
+ {
+ TInt r = User::LoadLogicalDevice(KCacheTestDriverName);
+ test( r==KErrNone || r==KErrAlreadyExists);
+ if((r = Device.Open())!=KErrNone)
+ {
+ User::FreeLogicalDevice(KCacheTestDriverName);
+ test.Printf(_L("Could not open LDD"));
+ test(0);
+ }
+ }
+
+/** Closes and unloads LDD.*/
+void StopDriver()
+ {
+ Device.Close();
+ User::FreeLogicalDevice(KCacheTestDriverName);
+ }
+
+/** Get cache info from device driver. This will update CacheInfo global variable.*/
+void GetCacheInfo()
+ {
+ TInt r = Device.GetCacheInfo(CacheInfo);
+ test(r==KErrNone);
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID MMU-T_CACHE-01
+//! @SYMTestType ST
+//! @SYMPREQ PREQ305
+//! @SYMREQ REQ5795
+//! @SYMTestCaseDesc Displays cache properties.
+//! @SYMTestExpectedResults KErrNone
+//! @SYMTestPriority Low
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void Test1()
+ {
+ TInt i;
+
+ test.Printf(_L("General Info:\n"));
+ TPtr ptr = CacheInfo.iDesc.Expand();
+ test.Printf(ptr);
+ test.Printf(_L("CacheCount:%d, MaxCacheSize:%xH, MemoryRemapping:%d, OuterCache:%d\n"),CacheInfo.iCacheCount, CacheInfo.iMaxCacheSize, CacheInfo.iMemoryRemapping, CacheInfo.iOuterCache);
+ test.Printf(_L("DMAMemoryAlignement:%d\n"),CacheInfo.iDmaBufferAlignment);
+
+
+ test.Printf(_L("Per Level Info:\n"));
+ test.Printf(_L("Level\tData\tInstr\tSize(b)\tLine(b)\tWays\tSets\tDescription\n"));
+
+ for (i = 0; i<CacheInfo.iCacheCount; i++)
+ {
+ TempBuff.SetLength(0);
+ RCacheTestDevice::TCacheSingle& cs = CacheInfo.iCache[i];
+ TempBuff.Format(_L("%d\t%d\t%d\t%xH\t%xH\t%xH\t%xH\t"), cs.iLevel, cs.iData, cs.iCode, cs.iSize, cs.iLineSize, cs.iWays, cs.iSets);
+ ptr = cs.iDesc.Expand();
+ TempBuff.Append(ptr);
+ TempBuff.Append(_L("\n"));
+ test.Printf(TempBuff);
+ }
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID MMU-T_CACHE-02
+//! @SYMTestType ST
+//! @SYMPREQ PREQ1068
+//! @SYMREQ REQ5909
+//! @SYMTestCaseDesc Gets thresholds.
+//! @SYMTestActions Fetches Cache Thresholds from the driver.
+//! @SYMTestExpectedResults KErrNone
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void Test2()
+ {
+ RCacheTestDevice::TThresholdInfo info;
+
+ test.Printf(_L("Cache: Purge Clear Flush\n"));
+
+ info.iCacheType=1;
+ if (KErrNone == Device.GetThreshold(info))
+ test.Printf(_L("Instr:%6x %6x %6x\n"),info.iPurge,info.iClean,info.iFlush);
+
+ info.iCacheType=2;
+ if (KErrNone == Device.GetThreshold(info))
+ test.Printf(_L("Data: %6x %6x %6x\n"),info.iPurge,info.iClean,info.iFlush);
+
+ info.iCacheType=4;
+ if (KErrNone == Device.GetThreshold(info))
+ test.Printf(_L("AltD: %6x %6x %6x\n"),info.iPurge,info.iClean,info.iFlush);
+
+ info.iCacheType=8;
+ if (KErrNone == Device.GetThreshold(info))
+ test.Printf(_L("D_IMB:%6x %6x %6x\n"),info.iPurge,info.iClean,info.iFlush);
+
+ info.iCacheType=16;
+ if (KErrNone == Device.GetThreshold(info))
+ test.Printf(_L("L2: %6x %6x %6x\n"),info.iPurge,info.iClean,info.iFlush);
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID MMU-T_CACHE-03
+//! @SYMTestType ST
+//! @SYMPREQ PREQ1068
+//! @SYMREQ REQ5909
+//! @SYMTestCaseDesc Sets thresholds.
+//! @SYMTestActions Sets new values forr Cache Thresholds. Then, sets back the old values.
+//! @SYMTestExpectedResults KErrNone
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void Test3()
+ {
+ TInt i, tested=0;
+ RCacheTestDevice::TThresholdInfo info[5]; //for 5 types og cache
+ TInt returned[5];
+
+
+ //Get the old values
+ for (i=0;i<5;i++)
+ {
+ info[i].iCacheType= 1<<i;
+ returned[i] = Device.GetThreshold(info[i]);
+ }
+
+ //Double them all
+ for (i=0;i<5;i++)
+ {
+ if (returned[i] != KErrNone) continue; //not a valid cache type for running platform
+ tested++;
+ info[i].iPurge <<=1;
+ info[i].iClean <<=1;
+ info[i].iFlush <<=1;
+ test(KErrNone==Device.SetThreshold(info[i]));
+ }
+
+ //Put back the old values
+ for (i=0;i<5;i++)
+ {
+ if (returned[i] != KErrNone) continue; //not a valid cache type for running platform
+ info[i].iPurge >>=1;
+ info[i].iClean >>=1;
+ info[i].iFlush >>=1;
+ test(KErrNone==Device.SetThreshold(info[i]));
+ }
+ test.Printf(_L(" ... %d caches present & tested\n"), tested);
+ }
+
+
+
+void DoTest4(RCacheTestDevice::TCacheAttr aCacheAttr, RCacheTestDevice::TChunkTest& aDC, TInt& aTime1, TInt& aTime2)
+ {
+ aDC.iCacheAttr = aCacheAttr;
+
+ aDC.iShared = EFalse;
+ test(KErrNone==Device.TestDataChunk(aDC));
+ aTime1 = aDC.iTime;
+
+ aDC.iShared = ETrue;
+ test(KErrNone==Device.TestDataChunk(aDC));
+ aTime2 = aDC.iTime;
+ }
+//---------------------------------------------
+//! @SYMTestCaseID MMU-T_CACHE-04
+//! @SYMTestType ST
+//! @SYMPREQ PREQ305
+//! @SYMREQ REQ5795
+//! @SYMTestCaseDesc Compares different memory mappings of data.
+//! @SYMTestActions Runs the same performance test against data in the chunks with different cache attributes.
+//! Also, runs the same test against data from user & kernel heaps.
+//! @SYMTestExpectedResults KErrNone
+//! @SYMTestPriority Low
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void Test4(TInt aSize)
+ {
+ RCacheTestDevice::TChunkTest dC;
+ dC.iSize = aSize;
+ dC.iUseCase = 0; //not used
+ dC.iLoops = 0; //not used
+ TInt timeNS=0, timeS=0;
+
+ test.Printf(_L(" Time\n"));
+ test.Printf(_L("Mem_Type ActualMapAttr NotShared Shared\n"));
+ test.Printf(_L("----------------------------------------------\n"));
+
+ DoTest4(RCacheTestDevice::E_FullyBlocking, dC, timeNS, timeS);
+ test.Printf(_L("FullyBlocking %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_Buffered_NC, dC, timeNS, timeS);
+ test.Printf(_L("Buffered_NC %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_Buffered_C, dC, timeNS, timeS);
+ test.Printf(_L("Buffered_C %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+
+ DoTest4(RCacheTestDevice::E_InnerWT, dC, timeNS, timeS);
+ test.Printf(_L("InnerWT %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_InnerWBRA, dC, timeNS, timeS);
+ test.Printf(_L("InnerWBRA %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_InnerWB, dC, timeNS, timeS);
+ test.Printf(_L("InnerWB %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ if(CacheInfo.iOuterCache)
+ {
+ DoTest4(RCacheTestDevice::E_OuterWT, dC, timeNS, timeS);
+ test.Printf(_L("OuterWT %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_OuterWBRA, dC, timeNS, timeS);
+ test.Printf(_L("OuterWBRA %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_OuterWB, dC, timeNS, timeS);
+ test.Printf(_L("OuterWB %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ DoTest4(RCacheTestDevice::E_InOutWT, dC, timeNS, timeS);
+ test.Printf(_L("InOutWT %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_InOutWBRA, dC, timeNS, timeS);
+ test.Printf(_L("InOutWBRA %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_InOutWB, dC, timeNS, timeS);
+ test.Printf(_L("InOutWB %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ }
+
+
+ DoTest4(RCacheTestDevice::E_StronglyOrder, dC, timeNS, timeS);
+ test.Printf(_L("StronglyOrder %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_Device, dC, timeNS, timeS);
+ test.Printf(_L("Device %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_Normal_Uncached, dC, timeNS, timeS);
+ test.Printf(_L("Normal_Uncached %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_Normal_Cached, dC, timeNS, timeS);
+ test.Printf(_L("Normal_Cached %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ if(CacheInfo.iMemoryRemapping)
+ {
+ DoTest4(RCacheTestDevice::E_KernelInternal4, dC, timeNS, timeS);
+ test.Printf(_L("KernelInternal4 %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_PlatformSpecific5, dC, timeNS, timeS);
+ test.Printf(_L("PlatSpecific5 %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_PlatformSpecific6, dC, timeNS, timeS);
+ test.Printf(_L("PlatSpecific6 %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_PlatformSpecific7, dC, timeNS, timeS);
+ test.Printf(_L("PlatSpecific7 %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+
+ DoTest4(RCacheTestDevice::E_InnerWT_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InnerWT_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_InnerWBRA_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InnerWBRA_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_InnerWB_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InnerWB_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ if(CacheInfo.iOuterCache)
+ {
+ DoTest4(RCacheTestDevice::E_OuterWT_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("OuterWT_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_OuterWBRA_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("OuterWBRA_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_OuterWB_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("OuterWB_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ DoTest4(RCacheTestDevice::E_InOutWT_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InOutWT_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_InOutWBRA_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InOutWBRA_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest4(RCacheTestDevice::E_InOutWB_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InOutWB_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ }
+ }
+
+ //Run against kernel heap - allow the test to fail due to OOM
+ dC.iCacheAttr = RCacheTestDevice::E_Default;
+ TInt r = Device.TestDataChunk(dC);
+ if (r==KErrNone) test.Printf(_L("Kernel Heap ---------\t%7d\t-------\n"), dC.iTime);
+ else if (r==KErrNoMemory) test.Printf(_L("Kernel Heap Cannot allocate memory\n"));
+ else test(0);//fail
+
+ //Run against user heap - allow the test to fail due to OOM
+ void* buffer = User::Alloc(dC.iSize);
+ if (buffer == NULL)
+ {
+ test.Printf(_L("User Heap Cannot allocate memory\n"));
+ return;
+ }
+ TInt time = User::NTickCount();
+ DataSegmetTestFunct(buffer , dC.iSize);
+ time = User::NTickCount() - time;
+ User::Free(buffer);
+ test.Printf(_L("User Heap ---------\t%7d\t-------\n"), time);
+
+ }
+
+
+void DoTest5(RCacheTestDevice::TCacheAttr aCacheAttr, RCacheTestDevice::TChunkTest& aDC, TInt& aTime1, TInt& aTime2)
+ {
+ aDC.iCacheAttr = aCacheAttr;
+
+ aDC.iShared = EFalse;
+ test(KErrNone==Device.TestCodeChunk(aDC));
+ aTime1 = aDC.iTime;
+
+ aDC.iShared = ETrue;
+ test(KErrNone==Device.TestCodeChunk(aDC));
+ aTime2 = aDC.iTime;
+ }
+//---------------------------------------------
+//! @SYMTestCaseID MMU-T_CACHE-05
+//! @SYMTestType ST
+//! @SYMPREQ PREQ305
+//! @SYMREQ REQ5795
+//! @SYMTestCaseDesc Compares different memory mappings of code.
+//! @SYMTestActions Runs the same performance test against code in chunks with different cache attributes.
+//! Also, runs the same test against code from rom..
+//! @SYMTestExpectedResults KErrNone
+//! @SYMTestPriority Low
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void Test5(TInt aSize)
+ {
+ RCacheTestDevice::TChunkTest dC;
+ dC.iSize = aSize;
+ dC.iUseCase = 0; //not used
+ dC.iLoops = 0; //not used
+ TInt timeNS=0, timeS=0;
+
+ test.Printf(_L(" Time\n"));
+ test.Printf(_L("Mem_Type AttemptedMapAttr NotShared Shared\n"));
+ test.Printf(_L("----------------------------------------------\n"));
+
+ DoTest5(RCacheTestDevice::E_FullyBlocking, dC, timeNS, timeS);
+ test.Printf(_L("FullyBlocking %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_Buffered_NC, dC, timeNS, timeS);
+ test.Printf(_L("Buffered_NC %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_Buffered_C, dC, timeNS, timeS);
+ test.Printf(_L("Buffered_C %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+
+ DoTest5(RCacheTestDevice::E_InnerWT, dC, timeNS, timeS);
+ test.Printf(_L("InnerWT %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_InnerWBRA, dC, timeNS, timeS);
+ test.Printf(_L("InnerWBRA %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_InnerWB, dC, timeNS, timeS);
+ test.Printf(_L("InnerWB %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ if(CacheInfo.iOuterCache)
+ {
+ DoTest5(RCacheTestDevice::E_OuterWT, dC, timeNS, timeS);
+ test.Printf(_L("OuterWT %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_OuterWBRA, dC, timeNS, timeS);
+ test.Printf(_L("OuterWBRA %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_OuterWB, dC, timeNS, timeS);
+ test.Printf(_L("OuterWB %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ DoTest5(RCacheTestDevice::E_InOutWT, dC, timeNS, timeS);
+ test.Printf(_L("InOutWT %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_InOutWBRA, dC, timeNS, timeS);
+ test.Printf(_L("InOutWBRA %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_InOutWB, dC, timeNS, timeS);
+ test.Printf(_L("InOutWB %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ }
+
+
+ DoTest5(RCacheTestDevice::E_StronglyOrder, dC, timeNS, timeS);
+ test.Printf(_L("StronglyOrder %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_Device, dC, timeNS, timeS);
+ test.Printf(_L("Device %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_Normal_Uncached, dC, timeNS, timeS);
+ test.Printf(_L("Normal_Uncached %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_Normal_Cached, dC, timeNS, timeS);
+ test.Printf(_L("Normal_Cached %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ if(CacheInfo.iMemoryRemapping)
+ {
+ DoTest5(RCacheTestDevice::E_InnerWT_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InnerWT_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_InnerWBRA_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InnerWBRA_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_InnerWB_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InnerWB_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ if(CacheInfo.iOuterCache)
+ {
+ DoTest5(RCacheTestDevice::E_OuterWT_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("OuterWT_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_OuterWBRA_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("OuterWBRA_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_OuterWB_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("OuterWB_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+
+ DoTest5(RCacheTestDevice::E_InOutWT_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InOutWT_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_InOutWBRA_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InOutWBRA_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ DoTest5(RCacheTestDevice::E_InOutWB_Remapped, dC, timeNS, timeS);
+ test.Printf(_L("InOutWB_Remap %08xH\t%7d\t%7d\n"),dC.iActualMapAttr, timeNS, timeS);
+ }
+ }
+
+ //Run against kernel heap - allow the test to fail due to OOM
+ dC.iCacheAttr = RCacheTestDevice::E_Default;
+ TInt r = Device.TestCodeChunk(dC);
+ if (r==KErrNone) test.Printf(_L("Run from rom ---------\t%7d\t-------\n"), dC.iTime);
+ else if (r==KErrNoMemory) test.Printf(_L("Run from rom Cannot allocate memory\n"));
+ else test(0);//fail
+
+ }
+
+
+
+//---------------------------------------------
+//! @SYMTestCaseID MMU-T_CACHE-06
+//! @SYMTestType ST
+//! @SYMPREQ PREQ305
+//! @SYMREQ REQ5795
+//! @SYMTestCaseDesc Tests Write Back mode.
+//! @SYMTestActions The driver allocates write back chunk, write data into it and invalidate (aka purge)
+// the chunk from the cache. Then, it counts the number of bytes of the chunk that
+// reached the physical memory.
+//! @SYMTestExpectedResults KErrNone
+//! @SYMTestPriority Low
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+
+void Test6()
+ {
+ test.Printf(_L("Test4: Testing WriteBack cache mode...\n"));
+ RCacheTestDevice::TChunkTest dC;
+
+
+ test.Printf(_L("Cache\tMemType\tChecking\tSize\tBytesInRAM\tVerdict\n"));
+ test.Printf(_L("-----\t-------\t--------\t----\t----------\t-------\n"));
+//
+ dC.iSize = KWriteBackTestSizeSize;
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_InnerWBRA_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_InnerWBRA;
+ test(Device.TestWriteBackReadAllocate(dC)==KErrNone);
+ if (dC.iSize<KWriteBackTestSizeSize)test.Printf(_L("Inner\tWBRA\tReadAlloc\t%xH\t%xH\tOK\n"), KWriteBackTestSizeSize, dC.iSize);
+ else test.Printf(_L("Inner\tWBRA\tReadAlloc\t%xH\t%xH\tWarning: Didn't pass\n"), KWriteBackTestSizeSize, dC.iSize);
+//
+ dC.iSize = KWriteBackTestSizeSize;
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_InnerWB_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_InnerWB;
+ test(Device.TestWriteBackReadAllocate(dC)==KErrNone);
+ if (dC.iSize<KWriteBackTestSizeSize)test.Printf(_L("Inner\tWBWA\tReadAlloc\t%xH\t%xH\tOK\n"), KWriteBackTestSizeSize, dC.iSize);
+ else test.Printf(_L("Inner\tWBWA\tReadAlloc\t%xH\t%xH\tWarning: Didn't pass\n"), KWriteBackTestSizeSize, dC.iSize);
+//
+ dC.iSize = KWriteBackTestSizeSize;
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_InnerWB_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_InnerWB;
+ test(Device.TestWriteBackWriteAllocate(dC)==KErrNone);
+ if (dC.iSize<KWriteBackTestSizeSize)test.Printf(_L("Inner\tWBWA\tWriteAlloc\t%xH\t%xH\tOK\n"), KWriteBackTestSizeSize, dC.iSize);
+ else test.Printf(_L("Inner\tWBWA\tWriteAlloc\t%xH\t%xH\tWarning: Didn't pass\n"), KWriteBackTestSizeSize, dC.iSize);
+
+ if(!CacheInfo.iOuterCache) return;
+
+ dC.iSize = KWriteBackTestSizeSize;
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_OuterWBRA_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_OuterWBRA;
+ test(Device.TestWriteBackReadAllocate(dC)==KErrNone);
+ if (dC.iSize<KWriteBackTestSizeSize)test.Printf(_L("Outer\tWBRA\tReadAlloc\t%xH\t%xH\tOK\n"), KWriteBackTestSizeSize, dC.iSize);
+ else test.Printf(_L("Outer\tWBRA\tReadAlloc\t%xH\t%xH\tWarning: Didn't pass\n"), KWriteBackTestSizeSize, dC.iSize);
+//
+ dC.iSize = KWriteBackTestSizeSize;
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_OuterWB_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_OuterWB;
+ test(Device.TestWriteBackReadAllocate(dC)==KErrNone);
+ if (dC.iSize<KWriteBackTestSizeSize)test.Printf(_L("Outer\tWBWA\tReadAlloc\t%xH\t%xH\tOK\n"), KWriteBackTestSizeSize, dC.iSize);
+ else test.Printf(_L("Outer\tWBWA\tReadAlloc\t%xH\t%xH\tWarning: Didn't pass\n"), KWriteBackTestSizeSize, dC.iSize);
+//
+ dC.iSize = KWriteBackTestSizeSize;
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_OuterWB_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_OuterWB;
+ test(Device.TestWriteBackWriteAllocate(dC)==KErrNone);
+ if (dC.iSize<KWriteBackTestSizeSize)test.Printf(_L("Outer\tWBWA\tWriteAlloc\t%xH\t%xH\tOK\n"), KWriteBackTestSizeSize, dC.iSize);
+ else test.Printf(_L("Outer\tWBWA\tWriteAlloc\t%xH\t%xH\tWarning: Didn't pass\n"), KWriteBackTestSizeSize, dC.iSize);
+ }
+
+
+
+//---------------------------------------------
+//! @SYMTestCaseID MMU-T_CACHE-07
+//! @SYMTestType UT
+//! @SYMPREQ PREQ305
+//! @SYMREQ REQ5795
+//! @SYMTestCaseDesc Tests Cache Maintanence Functions.
+//! @SYMTestActions Does not do any sort of functional test. Just makes sure nothing panics.
+//! @SYMTestExpectedResults KErrNone
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void Test7()
+ {
+ test(KErrNone== Device.TestL2Maintenance());
+ }
+
+// The main function of automatic test.
+void AutoTestL()
+ {
+ test.Start(_L("Test1: Display cache attributes:"));
+ test.Printf(_L("Starting Driver...\n"));
+ StartDriver();
+ test.Printf(_L("Getting CacheInfo...\n"));
+ GetCacheInfo();
+ Test1();
+
+ test.Next(_L("Test2:Thresholds (hex)..."));
+ Test2();
+
+ test.Next(_L("Test3:Setting Cache Thresholds..."));
+ Test3();
+
+ test.Next(_L("Test4: Data chunk test..."));
+ test.Printf(_L("chunk size=%xH \n"),KDefaultDataSize);
+ Test4(KDefaultDataSize);
+
+ test.Next(_L("Test5: Code chunk test..."));
+ test.Printf(_L("chunk size=%xH \n"),KDefaultCodeSize);
+ Test5(KDefaultCodeSize);
+
+ test.Next(_L("Test6: Testing WriteBack cache mode..."));
+ Test6();
+
+ test.Next(_L("Test7: Testing L2 cache maintenance..."));
+ Test7();
+
+ StopDriver();
+ test.End();
+ }
+
+//////////////////////Manual tests start here///////////////////////////////
+
+// Gets the size of the chunk from the command line
+TInt GetSizeFromCommandLine(TBuf<64>& command)
+ {
+ TUint arg;
+ TInt length = command.Length()-5;
+ if (length <=0)
+ return KErrArgument;
+ TPtrC ptr = command.Mid(5,length);
+ TLex lex(ptr);
+ lex.Val(arg, EHex);
+ return arg;
+ }
+
+/** Invoked by "t_cache info"*/
+void ManualCacheInfo()
+ {
+
+ test.Start(_L("Cache Info:"));
+ StartDriver();
+ GetCacheInfo();
+ Test1();
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ StopDriver();
+ test.End();
+ return;
+ }
+
+/** Invoked by "t_cache code threshold [<C> <P> <C> <F>]"*/
+TInt ManualThresholds(TBuf<64>& command)
+ {
+ TUint arg[4];
+ TInt argCurrent=0;
+ TInt argStart = 9; //jump over "threshold"
+ TInt argEnd;
+ TChar c;
+
+ test.Start(_L("Thresholds:"));
+ StartDriver();
+ GetCacheInfo();
+
+
+ // Decode input arguments from the command line
+ while (argCurrent<4)
+ {
+ find_arg_start:
+ if (argStart >= command.Length()) break;
+ c = command[argStart];
+ if (c.IsSpace())
+ {
+ argStart++;
+ goto find_arg_start;
+ }
+
+ argEnd = argStart+1;
+ find_arg_end:
+ if (argEnd >= command.Length()) goto get_arg;
+ c = command[argEnd];
+ if (c.IsSpace()) goto get_arg;
+ argEnd++;
+ goto find_arg_end;
+
+ get_arg:
+ TPtrC ptr = command.Mid(argStart,argEnd-argStart);
+ TLex lex(ptr);
+ lex.Val(arg[argCurrent++], EHex);
+ argStart=argEnd;
+ }
+
+ test.Printf(_L("%d argument(s) decoded\n"),argCurrent);
+
+ RCacheTestDevice::TThresholdInfo info;
+
+ //If te values are provided in the command line, set thresholds with the given paramaters.
+ if (argCurrent == 4)
+ {
+ test.Printf(_L("Setting thresholds: ...\n"));
+ test.Printf(_L("Cache Type:%xh P:%xh C:%xh F:%xh\n"),arg[0], arg[1], arg[2], arg[3]);
+ info.iCacheType=arg[0];
+ info.iPurge = arg[1];
+ info.iClean = arg[2];
+ info.iFlush = arg[3];
+ TInt r = Device.SetThreshold(info);
+ test.Printf(_L("... returned %d\n"),r);
+ }
+
+ //Read thresholds from Kernel.
+ test.Printf(_L("Reading thresholds(hex)...\n"));
+ Test2();
+
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ StopDriver();
+ test.End();
+ return 0;
+ }
+
+
+/** Invoked by "t_cache data <size>"*/
+void ManualDataTest(TInt aSize)
+ {
+ StartDriver();
+ GetCacheInfo();
+
+ Test4(aSize);
+
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ StopDriver();
+ test.End();
+ }
+
+/** Invoked by "t_cache code <size>"*/
+void ManualCodeTest(TInt aSize)
+ {
+ StartDriver();
+ GetCacheInfo();
+
+ Test5(aSize);
+
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ StopDriver();
+ test.End();
+ }
+
+void DoUseCase(TInt aUseCase, TInt aMaxSize, TInt aLoops )
+ {
+ RCacheTestDevice::TChunkTest dC(aUseCase, 0x1000, aLoops);
+
+ TInt time[5];
+
+ test.Printf(_L("size(H)\tloops\tNormal/NC\tNormal/WT\tFullyCached\n"));
+ test.Printf(_L("-------\t-----\t---------\t---------\t-----------\n"));
+
+ while (dC.iSize<=aMaxSize)
+ {
+ dC.iCacheAttr = RCacheTestDevice::E_Normal_Cached;
+ test(Device.TestUseCase(dC)==KErrNone);
+ time[2]=dC.iTime;
+
+ if(time[2] < 20)
+ {dC.iLoops *=2; continue;} //Time too short. Double the loops and try the same chunk size.
+
+ dC.iCacheAttr = RCacheTestDevice::E_Normal_Uncached;
+ test(Device.TestUseCase(dC)==KErrNone);
+ time[0]=dC.iTime;
+
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_InOutWT_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_InOutWT;
+ test(Device.TestUseCase(dC)==KErrNone);
+ time[1]=dC.iTime;
+
+
+ test.Printf(_L("%6xH\t%5d\t%9d\t%9d\t%11d\n"),dC.iSize,dC.iLoops,time[0],time[1],time[2]);
+
+ if ((time[2] > 100) && (dC.iLoops >= 8))
+ dC.iLoops /=2; //Time too long. Half the loops.
+
+ dC.iSize+=0x1000; // Next chunk size.
+ }
+ }
+
+/** Invoked by "t_cache usecase"*/
+void ManualUseCase()
+ {
+ test.Start(_L("Use Case manual tests"));
+ StartDriver();
+ GetCacheInfo();
+
+ test.Printf(_L("\nUseCase: Read From Chunk\n"));
+ DoUseCase(0,Min(CacheInfo.iMaxCacheSize*4, 0x40000),32);
+
+ test.Printf(_L("\nUseCase: Read From Chunk & Read From Heap\n"));
+ DoUseCase(1,Min(CacheInfo.iMaxCacheSize*4, 0x40000),32);
+
+ test.Printf(_L("\nUseCase: Write To Chunk\n"));
+ DoUseCase(2,Min(CacheInfo.iMaxCacheSize*4, 0x40000),32);
+
+ test.Printf(_L("\nUseCase: Write To Chunk & Read From Heap\n"));
+ DoUseCase(3,Min(CacheInfo.iMaxCacheSize*4, 0x40000),32);
+
+
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ StopDriver();
+ test.End();
+ }
+
+
+// Invoked by "t_cache data+<size_hex>"
+void ManualDataTestIncremental(TInt aIncrement)
+ {
+ TInt time[4];
+ TInt r = KErrNone;
+ TInt size = aIncrement;
+ RCacheTestDevice::TChunkTest dC;
+
+ StartDriver();
+ GetCacheInfo();
+
+ test.Printf(_L("Chunk\t\tTime(KernelTicks):\n"));
+ test.Printf(_L("Size(KB)\tUnCached\tInner\tOuter\tIn&Out\n"));
+
+ while(size < KMaxChunkSize)
+ {
+ dC.iSize = size;
+
+ dC.iCacheAttr = RCacheTestDevice::E_Buffered_C;
+ r = Device.TestDataChunk(dC);
+ if (r!=KErrNone) break;
+ time[0] = dC.iTime;
+
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_InnerWB_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_InnerWB;
+ r = Device.TestDataChunk(dC);
+ if (r!=KErrNone) break;
+ time[1] = dC.iTime;
+
+ if(CacheInfo.iOuterCache)
+ {
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_OuterWB_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_OuterWB;
+ r = Device.TestDataChunk(dC);
+ if (r!=KErrNone) break;
+ time[2] = dC.iTime;
+
+ dC.iCacheAttr = RCacheTestDevice::E_InOutWB;
+ r = Device.TestDataChunk(dC);
+ if (r!=KErrNone) break;
+ time[3] = dC.iTime;
+ }
+ else
+ {
+ time[2]= time[3]=0;
+ }
+ test.Printf(_L("%d\t%d\t%d\t%d\t%d\n"),size/0x400, time[0],time[1],time[2],time[3]);
+ size += aIncrement;
+ }
+
+ test.Printf(_L("The test exited with %d\n"), r);
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ StopDriver();
+ test.End();
+ }
+
+// Invoked by "t_cache code+<size_hex>"
+void ManualCodeTestIncremental(TInt aIncrement)
+ {
+ TInt time[4];
+ TInt r = KErrNone;
+ TInt size = aIncrement;
+ RCacheTestDevice::TChunkTest dC;
+
+ StartDriver();
+ GetCacheInfo();
+
+ test.Printf(_L("Chunk\t\tTime(KernelTicks):\n"));
+ test.Printf(_L("Size(KB)\tUnCached\tInner\tOuter\tIn&Out\n"));
+
+ while(size < KMaxChunkSize)
+ {
+ TempBuff.SetLength(0);
+
+ dC.iSize = size;
+
+ dC.iCacheAttr = RCacheTestDevice::E_Buffered_C;
+ r = Device.TestCodeChunk(dC);
+ if (r!=KErrNone) break;
+ time[0] = dC.iTime;
+
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_InnerWB_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_InnerWB;
+ r = Device.TestCodeChunk(dC);
+ if (r!=KErrNone) break;
+ time[1] = dC.iTime;
+
+ if(CacheInfo.iOuterCache)
+ {
+ if(CacheInfo.iMemoryRemapping) dC.iCacheAttr = RCacheTestDevice::E_OuterWB_Remapped;
+ else dC.iCacheAttr = RCacheTestDevice::E_OuterWB;
+ r = Device.TestCodeChunk(dC);
+ if (r!=KErrNone) break;
+ time[2] = dC.iTime;
+ //
+ dC.iCacheAttr = RCacheTestDevice::E_InOutWB;
+ r = Device.TestCodeChunk(dC);
+ if (r!=KErrNone) break;
+ time[3] = dC.iTime;
+ }
+ else
+ {
+ time[2]=time[3] = 0;
+ }
+
+ test.Printf(_L("%d\t%d\t%d\t%d\t%d\n"),size/0x400, time[0],time[1],time[2],time[3]);
+ size += aIncrement;
+ }
+
+ test.Printf(_L("The test exited with %d\n"), r);
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ StopDriver();
+ test.End();
+ }
+
+TInt E32Main()
+ {
+
+ TBuf<64> c;
+ TInt size;
+ User::CommandLine(c);
+ if (c.FindF(KPrintCacheInfos) >= 0) {ManualCacheInfo(); return 0;}
+ if (c.FindF(KUseCase) >= 0) {ManualUseCase(); return 0;}
+ if (c.FindF(KThreshold) >= 0) {ManualThresholds(c); return 0;}
+
+ if (c.FindF(KTestData) >= 0)
+ {
+ test.Start(_L("Data Chunk"));
+ size = GetSizeFromCommandLine(c);
+ // Always round up the size to 1K boundary (because of DataSegmetTestFunct)
+ size +=0x3ff; size &=~0x3ff;
+
+ if (c.FindF(KIncremental) >= 0)
+ {
+ // Invoked by "t_cache data+<size>"
+ test.Printf(_L(" size + %xH\n"),size);
+ if (size<=0)
+ return KErrArgument;
+ ManualDataTestIncremental(size);
+ }
+ else
+ {
+ // Invoked by "t_cache data <size>"
+ test.Printf(_L("chunk size %xH\n"),size);
+ if (size<=0)
+ return KErrArgument;
+ ManualDataTest(size);
+ }
+ return 0;
+ }
+
+ if (c.FindF(KTestCode) >= 0)
+ {
+ test.Start(_L("Code Chunk"));
+ size = GetSizeFromCommandLine(c);
+ // Always round up the size to 1K boundary
+ size +=0x3ff; size &=~0x3ff;
+ if (c.FindF(KIncremental) >= 0)
+ {
+ // Invoked by "t_cache code+<size>"
+ test.Printf(_L(" size + %xH\n"),size);
+ if (size<=0)
+ return KErrArgument;
+ ManualCodeTestIncremental(size);
+ }
+ else
+ {
+ // Invoked by "t_cache code <size>"
+ test.Printf(_L("chunk size %xH\n"),size);
+ if (size<=0)
+ return KErrArgument;
+ ManualCodeTest(size);
+ }
+ return 0;
+ }
+
+ if (c.FindF(KHelp) >= 0)
+ {
+ // Invoked by "t_cache help"
+ test.Start(_L("t_cache usage:\n"));
+ test.Printf(_L("t_cache info\n"));
+ test.Printf(_L("t_cache data <size_hex>\n"));
+ test.Printf(_L("t_cache code <size_hex>\n"));
+ test.Printf(_L("t_cache data+<size_hex>\n"));
+ test.Printf(_L("t_cache code+<size_hex>\n"));
+ test.Printf(_L("t_cache usecase\n\n"));
+ test.Printf(_L("t_cache threshold [<cache> <purge> <clean> <flush>]\n\n"));
+ test.Printf(_L("... where <cache>= 1,2,4,8 or 10\n\n"));
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ test.End();
+ return 0;
+ }
+
+
+ // auto test starts here
+ CTrapCleanup* trap = CTrapCleanup::New();
+ if (!trap)
+ return KErrNoMemory;
+ test.Title();
+ __UHEAP_MARK;
+ TRAPD(r,AutoTestL());
+ __UHEAP_MARKEND;
+ delete trap;
+ return r;
+ }