// 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/defrag/perf/t_perf.cpp
// t_pagemove loads and opens the logical device driver ("D_PAGEMOVE.LDD").
// Following this, it requests that the driver attempt to move various kinds of pages
// directly amd notes time taken for each of the moves.
// Platforms/Drives/Compatibility:
// Hardware only. No defrag support on emulator.
// 2 - Test the performance of moving user chunk pages
// 3 - Test the performance of moving dll pages
// 4 - Test the performance of moving kernel stack pages
//
//
//! @SYMTestCaseID KBASE-T_DEFRAGPERF-0601
//! @SYMTestType CT
//! @SYMPREQ PREQ308
//! @SYMTestCaseDesc Testing performace of page moving
//! @SYMTestActions 1 - Test the performance of moving code chunk pages
//! @SYMTestExpectedResults Finishes if the system behaves as expected, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//--------------------------------------------------------------------------------------------------
#define __E32TEST_EXTENSION__
#include <e32test.h>
#include <e32std.h>
#include <e32std_private.h>
#include "..\d_pagemove.h"
#include "..\..\mmu\mmudetect.h"
#include "t_perf.h"
LOCAL_D RTest test(_L("T_DEFRAGPERF"));
const TPtrC KLddFileName=_L("D_PAGEMOVE.LDD");
const TUint KRepetitions=50;
const TUint KPageMoves = 2000; // default to moving a page 2000 times
TInt gPageSize;
#define DEFRAG_CHUNK_MAX (4 * 1024 * 1024)
#define DEFRAG_CHUNK_MIN (1 * 1024 * 1024)
#define MIN_PROCS 10
#define MAX_PROCS 50
#define PROC_INCREMENTS 10
_LIT(BaseFileName, "t_defragtestperf");
_LIT(BaseFileNameExt, ".exe");
LOCAL_C void TestUserDataMove(RPageMove& pagemove)
{
RChunk chunk;
TInt size;
TInt r = KErrGeneral;
DefragLatency timer;
timer.CalibrateTimer(test);
size = DEFRAG_CHUNK_MAX;
while (size > DEFRAG_CHUNK_MIN)
{
/* Create a local chunk */
r = chunk.CreateLocal(size,size);
if (r == KErrNone)
{
TEST_PRINTF(_L("Created %dMB chunk\n"), size/(1024 * 1024));
break;
}
size = size / 2;
}
test(r == KErrNone);
/* Initialise the Chunk */
TUint8* base = (TUint8 *)chunk.Base();
for (TUint i = 0; i < size/sizeof(*base); i++)
{
base[i] = i;
}
TEST_PRINTF(_L("Starting to move chunk pages (%x %d) ...\n"), chunk.Base(), size);
TUint j = 0;
for (; j < KRepetitions; j++)
{
TInt size2 = size;
base = (TUint8 *)chunk.Base();
timer.StartTimer();
while (size2)
{
test_KErrNone(pagemove.TryMovingUserPage(base));
base += gPageSize;
size2 -= gPageSize;
}
test(timer.StopTimer(test) > 0);
}
DTime_t average, max, min, delay;
TEST_PRINTF(_L("Finished moving chunk pages\n"));
average = timer.GetResult(max, min, delay);
test.Printf(_L("Fast counter ticks to move %d chunk pages: Av %d Min %d Max %d (Overhead %d)\n"), size/gPageSize, average, min, max, delay);
test.Printf(_L("Average of %d ticks to move one page\n\n"), average / (size/gPageSize));
base = (TUint8 *)chunk.Base();
for (TUint i = 0; i < size/sizeof(*base); i++)
{
test_Equal((TUint8)i, base[i]);
}
}
TInt CreateProc(RProcess& aProcess, TInt aIndex)
{
TFileName filename;
TRequestStatus status;
TBuf<64> command;
filename.Format(_L("%S%S"), &BaseFileName, &BaseFileNameExt);
TInt r=aProcess.Create(filename, command);
if (r!=KErrNone)
{
test.Printf(_L("Process %d could not be loaded!\n"), aIndex);
return r;
}
aProcess.Rendezvous(status);
aProcess.Resume();
User::WaitForRequest(status);
return KErrNone;
}
void KillAllProcs(RProcess *aProcess, TInt aNum, TInt aError)
{
TInt i;
for (i = 0; i < aNum; i++)
{
aProcess[i].Kill(aError);
}
}
TInt TestDLL(int aNumProcess, RPageMove& aPageMove)
{
RProcess *process;
TInt retVal;
process = new RProcess[aNumProcess];
if (process == NULL)
return KErrGeneral;
TEST_PRINTF(_L("Starting %d processes\n"), aNumProcess);
for (TInt i = 0; i < aNumProcess; i++)
{
retVal = CreateProc(process[i], i);
if (retVal != KErrNone)
{
// More Cleanup ?
KillAllProcs(process, i, KErrNone);
delete[] process;
return retVal;
}
}
/* Now Map the DLL to this process and Run the tests */
DllDefrag dll;
TEST_PRINTF(_L("Main Proc Loading The DLL ... \n"));
retVal = dll.LoadTheLib(0, test);
if (retVal != KErrNone)
{
KillAllProcs(process, aNumProcess, retVal);
test.Printf(_L("Error (%d) Loading The DLLs!\n"), retVal);
delete[] process;
return KErrGeneral;
}
retVal = dll.TestDLLPerformance(0, aPageMove, test);
KillAllProcs(process, aNumProcess, KErrNone);
delete[] process;
return retVal;
}
/*
* Is this portable .. Hell No, so dont ask.
*/
#define isNum(a) ((a) >= '0' && (a) <= '9')
TInt atoi(const TBuf<64>& buf, TInt pos)
{
TInt i = pos;
TInt num = 0;
TInt len = User::CommandLineLength();
while(i < len)
{
TInt8 ch = buf[i++];
if (!isNum(ch))
{
test.Printf(_L("Invalid Argument!\n"));
return KErrGeneral;
}
num = (num * 10) + (ch - '0');
}
return num;
}
void TestCodeChunkMoving(RPageMove aPageMove)
{
_LIT(ELOCL_DEFAULT, "");
_LIT(ELOCLUS, "T_LOCLUS_RAM");
// Change locale and move the locale page repeatedly
// On multiple memmodel this is the easiest way to move CodeChunk pages.
// Setup the RAM loaded US Locale DLL
test_KErrNone(UserSvr::ChangeLocale(ELOCLUS));
TLocale locale;
locale.Refresh();
// Now get a pointer to some data in the DLL. This will be used to move a
// page from the dll
SLocaleLanguage localeLanguage;
TPckg<SLocaleLanguage> localeLanguageBuf(localeLanguage);
TInt r = RProperty::Get(KUidSystemCategory, KLocaleLanguageKey, localeLanguageBuf);
test_KErrNone(r);
TAny* localeAddr = (TAny *) localeLanguage.iDateSuffixTable;
test(localeAddr != NULL);
// Now we have a RAM loaded locale page determine the performance
TEST_PRINTF(_L("Start moving a RAM loaded locale page\n"));
// Setup the timer
DefragLatency timer;
timer.CalibrateTimer(test);
TUint reps = 0;
for (; reps < KRepetitions; reps++)
{
timer.StartTimer();
TUint i = 0;
for (; i < KPageMoves; i++)
{
test_KErrNone(aPageMove.TryMovingLocaleDll(localeAddr));
}
test_Compare(timer.StopTimer(test), >, 0);
}
DTime_t max, min, delay;
TUint average = timer.GetResult(max, min, delay);
test.Printf(_L("Fast counter ticks to move code chunk page %d times: Av %d Min %d Max %d (Overhead %d)\n"), KPageMoves, average, min, max, delay);
test.Printf(_L("Average of %d ticks to move one page\n\n"), average/ KPageMoves);
// Reset the Locale to the default
r=UserSvr::ChangeLocale(ELOCL_DEFAULT);
test(r==KErrNone);
locale.Refresh();
}
GLDEF_C TInt E32Main()
{
test.Title();
TInt procs = 1;
_LIT(KStart,"-procs=");
const TInt offset = KStart().Length();
TBuf<64> cmd;
User::CommandLine(cmd);
if (!HaveMMU())
{
test.Printf(_L("This test requires an MMU\n"));
return KErrNone;
}
test.Start(_L("Load test LDD"));
TInt r=User::LoadLogicalDevice(KLddFileName);
test(r==KErrNone || r==KErrAlreadyExists);
r=UserHal::PageSizeInBytes(gPageSize);
test_KErrNone(r);
RPageMove pagemove;
test.Next(_L("Open test LDD"));
r=pagemove.Open();
test_KErrNone(r);
DefragLatency timer;
timer.CalibrateTimer(test);
test.Printf(_L("\nFast Counter Frequency = %dHz \n\n"), timer.iFastCounterFreq);
test.Next(_L("Test performance of moving code chunk pages"));
TestCodeChunkMoving(pagemove);
/*
* Test User Data.
* Create a large chunk ~ 4MB (> L2 Cache) and move pages from that chunk
*/
test.Next(_L("Test performance of moving user chunk pages"));
TestUserDataMove(pagemove);
/* Test DLL Move */
test.Next(_L("Test performance of moving dll pages"));
TInt pos = cmd.FindF(KStart);
if (pos >= 0)
{
pos += offset;
procs = atoi(cmd, pos);
}
if (procs < MIN_PROCS)
procs = MIN_PROCS;
else if (procs > MAX_PROCS)
procs = MAX_PROCS;
for (TInt i = 1; ; )
{
test.Printf(_L("Testing with %d Processes mapping a DLL\n"), i);
TestDLL(i, pagemove);
if (i >= procs)
break;
if (i + PROC_INCREMENTS >= procs)
i = procs;
else
i += PROC_INCREMENTS;
}
if ((MemModelAttributes()&EMemModelTypeMask) != EMemModelTypeFlexible)
{
test.Next(_L("Test performance of moving kernel stack pages"));
r = pagemove.TestKernelDataMovePerformance();
test_KErrNone(r);
}
test.Next(_L("Close test LDD"));
pagemove.Close();
User::FreeLogicalDevice(KLddFileName);
test.End();
return(KErrNone);
}