MCL/sf/os/kernelhwsrv: comparison kerneltest/f32test/demandpaging/t

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+:a41df078684a
+// 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\mmu\t_nandpaging.cpp
+// Suite of tests specifically to test the demand paging subsystem when
+// booted from NAND.
+// 002 Read/Write and Page test
+// 003 Defering test
+//
+//
+//! @SYMTestCaseID			KBASE-T_NANDPAGING-0332
+//! @SYMTestType			UT
+//! @SYMPREQ				PREQ1110
+//! @SYMTestCaseDesc		Demand Paging Nand Paging tests.
+//! @SYMTestActions			001 Check that the rom is paged
+//! @SYMTestExpectedResults All tests should pass.
+//! @SYMTestPriority        High
+//! @SYMTestStatus          Implemented
+#include <e32test.h>
+RTest test(_L("T_NANDPAGING"));
+#include <e32rom.h>
+#include <u32hal.h>
+#include <f32file.h>
+#include <f32dbg.h>
+#include "testdefs.h"
+#include <hal.h>
+TInt DriveNumber=-1;   // Parameter - Which drive?  -1 = autodetect.
+TInt locDriveNumber;
+TInt MaxDeferLoops=40; // Parameter - Defer test, for how long?
+TInt Maxloops=400;	   // Parameter - RW Soak, for how long?
+TBool Forever=EFalse;  // Parameter - RW Soak forever?
+TBool Testing=ETrue;	// Used to communicate when testing has finished between threads.
+RFs TheFs;
+TBusLocalDrive Drive;
+TLocalDriveCapsV4 DriveCaps;
+TInt PagedTrashCount=0; // Incremented by threads, is used to detect preemption.
+TInt GlobError=KErrNone; // To communicate an error between threads.
+TBool CtrlIoCollectGarbageSupported = ETrue;
+TBool CtrlIoGetDeferStatsSupported = ETrue;
+const TInt KDiskSectorShift=9;
+const TInt KBufSizeInSectors=8;
+const TInt KBufSizeInBytes=(KBufSizeInSectors<<KDiskSectorShift)*40;
+LOCAL_D TBuf8<KBufSizeInBytes> Buffer;
+// Three functions for the garbage test.
+// CreateFile creates a file, and sets up the buffer for WriteNumber.
+// After the code has finished writing numbers to the start,
+// CloseAndDestroy cleans up.
+void CreateFile(RFile &aFile,const TDesC& aFileName)
+	{
+	TBuf<256> fileName;
+	fileName.Append((TChar)('A'+DriveNumber));
+	fileName+=_L(":\\f32-tst\\");
+	TInt r=TheFs.MkDirAll(fileName);
+	test(r==KErrNone || r== KErrAlreadyExists);
+	fileName += aFileName;
+	r=aFile.Replace(TheFs,fileName,EFileWrite);
+	if (r!=KErrNone)
+		test.Printf(_L("Error %d: file '%S' could not be created\n"),r,&fileName);
+	test(r==KErrNone);
+	Buffer.SetLength(4);
+	}
+void CloseAndDestroy(RFile &aFile)
+	{
+	TBuf<256> fileName;
+	aFile.FullName(fileName);
+	aFile.Close();
+	TheFs.Delete(fileName);
+	}
+TInt WriteNumber(RFile &aFile)
+	{
+	TInt r;
+	Buffer[0]++;
+	r = aFile.Write(0,Buffer);
+	if (r==KErrNone)
+		return aFile.Flush();
+	else
+		return r;
+	}
+// The r/w soaktest leaves the drive in a mess.
+// Formatting is needed afterwards.
+void silentFormat(TInt driveNo)
+	{
+TBuf<4> driveBuf=_L("?:\\");
+RFormat format;
+TInt    count;
+	driveBuf[0] = (TText)(driveNo + 'A');
+TInt r = format.Open(TheFs, driveBuf, EHighDensity, count);
+test(r == KErrNone);
+while(count)
+		{
+r=format.Next(count);
+test(r == KErrNone);
+		}
+format.Close();
+	}
+// Finds the 1st r/w NAND drive, or checks the specified one fits requirements
+static TInt FindFsNANDDrive()
+	{
+	TDriveList driveList;
+	TDriveInfo driveInfo;
+	TInt r=TheFs.DriveList(driveList);
+test(r == KErrNone);
+	for (TInt drvNum= (DriveNumber<0)?0:DriveNumber; drvNum<KMaxDrives; ++drvNum)
+		{
+	    if(!driveList[drvNum])
+	        continue;   //-- skip unexisting drive
+	    test(TheFs.Drive(driveInfo, drvNum) == KErrNone);
+		if ((driveInfo.iMediaAtt&KMediaAttPageable) &&
+			(driveInfo.iType == EMediaNANDFlash) &&
+			(driveInfo.iDriveAtt & KDriveAttInternal))
+			{
+			TBool readOnly = driveInfo.iMediaAtt & KMediaAttWriteProtected;		// skip ROFS partitions
+			if(!readOnly)
+				{
+				if ((drvNum==DriveNumber) || (DriveNumber<0))		// only test if running on this drive
+					{
+					return (drvNum);
+					}
+				}
+			}
+		}
+	return (-1);
+	}
+//
+// Writes to main area for the entire disk and reads back to verify.
+// The function is called from TestNandAccuratcy, which will have also
+// started the background RepeatedPagingThread
+//
+void testWriteMain()
+	{
+	TInt i;
+	TInt r;
+	TInt changeCount=0;
+	TInt totChangeCount=0;
+	TInt cCount=0;
+	TInt fullcCount=0;
+	TInt oldPagedTrashCount=0;
+	TInt delta=0;
+	TInt high=0;
+	TInt tot=0;
+	TInt fullTot=0;
+	TInt blockNo;
+	// read size is 64K
+	TInt readSize = (64*1024);
+	TInt64 size = DriveCaps.iSize - (DriveCaps.iSize % readSize);
+	// print position every 128K
+	TInt64 printBlockPos = 128 * 1024;
+	test (size > printBlockPos);
+	// check for paging activity every 1MB
+	TInt64 checkChangePos = 1024*1024;
+	while (checkChangePos > size)
+		checkChangePos>>= 1;
+	SDeferStats stats;
+	TInt pageGarbageCount=0;
+	TInt pageOtherCount=0;
+	TInt normalGarbageCount=0;
+	TInt normalOtherCount=0;
+	Buffer.SetLength(2*readSize);
+	TPtr8 subBuf1(&Buffer[0],readSize);
+	TPtrC8 subBuf2(&Buffer[readSize], readSize);
+	test.Printf(_L("Page size = %d\n"), DriveCaps.iNumBytesMain);
+	test.Printf(_L("Erase block size = %d\n"), DriveCaps.iEraseBlockSize);
+	test.Printf(_L("Media size (rounded down) = %ld\n"), size);
+	for(i = 0; i<readSize; i++)
+		Buffer[readSize+i] = (char)(i%100);
+	// Zero Stats
+	if(CtrlIoGetDeferStatsSupported)
+		{
+		TPtr8 statsBuf((TUint8*) &stats, sizeof(stats));
+		test(Drive.ControlIO(KNandGetDeferStats,statsBuf,0)==KErrNone);
+		}
+	while (((totChangeCount<Maxloops) || Forever) && (GlobError==KErrNone))
+		{
+		for(TInt64 pos=0;
+			(pos<size) && ((totChangeCount<Maxloops) || Forever) && (GlobError==KErrNone);
+			pos+=(TUint)(readSize))
+			{
+			blockNo=I64LOW(pos / DriveCaps.iEraseBlockSize);
+			if ((pos % printBlockPos) == 0)
+				test.Printf(_L("Block %d at pos %lu \r"), blockNo, pos);
+			//write the pattern
+			r = Drive.Write(pos,subBuf2);
+			test(r==KErrNone);
+			//read back and verify
+			r = Drive.Read(pos,readSize,subBuf1);
+			test(r==KErrNone);
+			for(i=0;i<readSize;i++)
+				if(Buffer[i]!=Buffer[readSize+i])
+					{
+					r = KErrCorrupt;
+					break;
+					}
+			delta = PagedTrashCount-oldPagedTrashCount;
+			cCount++;
+			if (delta)
+				{
+				if (delta>high)
+					high=delta;
+				tot+=delta;
+				oldPagedTrashCount=PagedTrashCount;
+				changeCount++;
+				}
+			if ((pos > 0) && (pos % checkChangePos) == 0)
+				{
+				totChangeCount+=changeCount;
+				if(CtrlIoGetDeferStatsSupported)
+					{
+					test.Printf(_L("\nHigh%4d Avg%2d %d%% CC=%4d \n"), high, (TInt) (tot/cCount), (TInt)(changeCount*100)/cCount, totChangeCount);
+					TPtr8 statsBuf((TUint8*) &stats, sizeof(stats));
+					Drive.ControlIO(KNandGetDeferStats,statsBuf,0);
+					test.Printf(_L("PG %d PO %d(%d%%) NG %d NO %d\n"),stats.iPageGarbage,  stats.iPageOther, (TInt) ((stats.iPageOther*100)/cCount), stats.iNormalGarbage,  stats.iNormalOther);
+					test(stats.iPageOther>0);
+				 	pageGarbageCount+=stats.iPageGarbage;
+				 	pageOtherCount+=stats.iPageOther;
+				 	normalGarbageCount+=stats.iNormalGarbage;
+				 	normalOtherCount+=stats.iNormalOther;
+					}
+				high=0;
+				fullTot+=tot;
+				tot=0;
+				fullcCount+=cCount;
+				cCount=0;
+				changeCount=0;
+				}
+			test(r==KErrNone);
+			}	// for loop
+		if (CtrlIoGetDeferStatsSupported)
+			{
+			test.Printf(_L("\nTotals: Avg %2d %d%% CC=%4d \n"), fullTot/fullcCount, (TInt)(totChangeCount*100)/fullcCount, totChangeCount);
+			test.Printf(_L("PG %d PO %d(%d%%) NG %d NO %d\n"),pageGarbageCount,  pageOtherCount,(TInt) (pageOtherCount*100/fullcCount), normalGarbageCount,  normalOtherCount );
+			}
+		// If totChangeCount does not change, nand maybe busy waiting.
+		test(totChangeCount>0);
+		}	// while ()
+	if (GlobError!=KErrNone)
+		{
+		test.Printf(_L("\nPaging failed with %x\n"), GlobError);
+		test(0);
+		}
+	else
+		test.Printf(_L("\ndone\n"));
+	}
+TUint8 ReadByte(volatile TUint8* aPtr)
+	{
+	return *aPtr;
+	}
+#define READ(a) ReadByte((volatile TUint8*)(a))
+TUint32 RandomNo =0;
+TUint32 Random()
+	{
+	RandomNo = RandomNo*69069+1;
+	return RandomNo;
+	}
+// Many instances of this run while testWriteMain runs,
+// to cause random background paging.
+LOCAL_C TInt RepeatedPagingThread(TAny* aUseTb)
+	{
+	TBool trashBurst = EFalse;
+	// This makes the paging system continually page stuff.
+	// get info about a paged ROM...
+	TRomHeader* romHeader = (TRomHeader*)UserSvr::RomHeaderAddress();
+	TUint8* start = (TUint8*)romHeader+romHeader->iPageableRomStart;
+	TUint size = romHeader->iPageableRomSize;
+	TInt pageSize = 0;
+	PagedTrashCount=1;
+	UserSvr::HalFunction(EHalGroupKernel,EKernelHalPageSizeInBytes,&pageSize,0);
+	RandomNo=123;
+	PagedTrashCount++;
+	while (Testing)
+		{
+		TInt r=UserSvr::HalFunction(EHalGroupVM,EVMHalFlushCache,0,0);
+		if (Random() & 1)
+			User::AfterHighRes(500+Random() & 2047);
+		if (r<0)
+			{
+			GlobError=r;
+			PagedTrashCount=99;
+			return (KErrNone);
+			}
+		if (trashBurst)
+			{
+			if ((Random() & 0xf) == 0xf)
+				trashBurst=EFalse;
+			PagedTrashCount++;
+			}
+		else
+			{
+			for(TInt i=size/(pageSize); (i>0) && !trashBurst; --i)
+				{
+				READ(start+((TInt64(Random())*TInt64(size))>>32));
+				if ((RandomNo & 0x3f) == 0x3f)
+					{
+					trashBurst= (TBool) aUseTb;
+					}
+				PagedTrashCount++;
+				if (RandomNo & 1)
+					User::AfterHighRes(500+Random() & 2047);
+				}
+			}
+		}
+	return(KErrNone);
+	}
+// This starts up multiple instances of repeatedPagingThread, and runs testWriteMain.
+// After its done, it calls format, to clean up the drive.
+void TestNandAccuratcy()
+	{
+	RThread thisThread;
+	const TInt KNoThreads=10;
+	TInt i;
+	test.Printf(_L("Reset concurrency stats\n"));
+	i=UserSvr::HalFunction(EHalGroupMedia,EMediaHalResetConcurrencyInfo,(TAny*)locDriveNumber,(TAny*)EMediaPagingStatsRom);
+	test(i==KErrNone || i==KErrNotSupported);
+	if(i==KErrNotSupported)
+		test.Printf(_L("Concurrency stats not supported on this build\n"));
+	i=UserSvr::HalFunction(EHalGroupMedia,EMediaHalResetPagingBenchmark,(TAny*)locDriveNumber,(TAny*)EMediaPagingStatsRom);
+	test(i==KErrNone || i==KErrNotSupported);
+	if(i==KErrNotSupported)
+		test.Printf(_L("Benchmark stats not supported on this build\n"));
+	if (Maxloops>0)
+		{
+		TRequestStatus stat[KNoThreads];
+		// Start Read Test
+		RThread repeatedPagingThread[KNoThreads];
+		test.Next(_L("Read/Write and Page test"));
+		Testing=ETrue;
+		for (i=0; i<KNoThreads; i++)
+			{
+			test(repeatedPagingThread[i].Create(_L(""),RepeatedPagingThread,KDefaultStackSize,NULL,(TAny*) ETrue)==KErrNone);
+			repeatedPagingThread[i].Logon(stat[i]);
+			test(stat[i]==KRequestPending);
+			repeatedPagingThread[i].Resume();
+			}
+		// Start repeated paging.
+		thisThread.SetPriority(EPriorityMore);
+		testWriteMain();
+		Testing = 0;
+		thisThread.SetPriority(EPriorityNormal);
+		for (i=0; i<KNoThreads; i++)
+	 		User::WaitForRequest(stat[i]);
+		test.Printf(_L("Collect concurrency stats\n"));
+		SMediaROMPagingConcurrencyInfo info;
+		SPagingBenchmarkInfo infoBench;
+		i=UserSvr::HalFunction(EHalGroupMedia,EMediaHalGetROMConcurrencyInfo,(TAny*)locDriveNumber,&info);
+		test(i==KErrNone || i==KErrNotSupported);
+		TInt r=UserSvr::HalFunction(EHalGroupMedia,EMediaHalGetROMPagingBenchmark,(TAny*)locDriveNumber,&infoBench);
+		test(r==KErrNone || r==KErrNotSupported);
+		if(i==KErrNone)
+			{
+			test.Printf(_L("Media concurrency stats:\n\n"));
+			test.Printf(_L("The total number of page in requests issued whilst processing other page in requests: %d\n"),info.iTotalConcurrentReqs);
+			test.Printf(_L("The total number of page in requests issued with at least one queue not empty: %d\n"),info.iTotalReqIssuedNonEmptyQ);
+			test.Printf(_L("The maximum number of pending page in requests in the main queue any time during this session: %d\n"),info.iMaxReqsInPending);
+			test.Printf(_L("The maximum number of pending page in requests in the deferred queue any time during this session: %d\n"),info.iMaxReqsInDeferred);
+			test.Printf(_L("The total number of page in requests first-time deferred during this session: %d\n"),info.iTotalFirstTimeDeferrals);
+			test.Printf(_L("The total number of page in requests re-deferred during this session: %d\n"),info.iTotalReDeferrals);
+			test.Printf(_L("The maximum number of deferrals of any single page in request during this session: %d\n"),info.iMaxDeferrals);
+			test.Printf(_L("The total number of times the main queue was emptied when completing an asynchronous request during this session: %d\n"),info.iTotalSynchEmptiedMainQ);
+			test.Printf(_L("The total number of page in requests serviced from main queue when completing an asynchronous request: %d\n"),info.iTotalSynchServicedFromMainQ);
+			test.Printf(_L("The total number of page in requests deferred after being picked out of main queue when completing an asynchronous request: %d\n"),info.iTotalSynchDeferredFromMainQ);
+			test.Printf(_L("The total number of times the page in DFC run with an empty main queue during this session: %d\n"),info.iTotalRunDry);
+			test.Printf(_L("The total number of dry runs of paging DFC avoided during this session: %d\n"),info.iTotalDryRunsAvoided);
+			}
+		if(r==KErrNone)
+			{
+			TInt freq = 0;
+			r = HAL::Get(HAL::EFastCounterFrequency, freq);
+			if (r==KErrNone)
+				{
+				TReal mult = 1000000.0 / freq;
+				TReal min = 0.0;
+				TReal max = 0.0;
+				TReal avg = 0.0;
+				if (infoBench.iCount != 0)
+					{
+					min = infoBench.iMinTime * mult;
+					max = infoBench.iMaxTime * mult;
+					avg = (infoBench.iTotalTime * mult) / infoBench.iCount;
+					}
+				test.Printf(_L("Media benchmarks:\n\n"));
+				test.Printf(_L("The total number of page in requests issued: %d\n"),infoBench.iCount);
+				test.Printf(_L("The average latency of any page in request in the Media subsystem: %9.1f(us)\n"),avg);
+				test.Printf(_L("The maximum latency of any page in request in the Media subsystem: %9.1f(us)\n"),max);
+				test.Printf(_L("The minimum latency of any page in request in the Media subsystem: %9.1f(us)\n"),min);
+				}
+			}
+		test.Printf(_L("Formatting...\n"));
+		silentFormat(DriveNumber);
+		}
+		else
+			test.Next(_L("Read/Write test - Skipped!"));
+	}
+// ************************************************************************************
+// This code causes a flush
+// It is done in a second thread to see if you really do get just
+// one deferral, with the other page requests just waiting in line.
+// (Paging is not re-entrant)
+TInt PagesBeingPaged=0;
+RMutex PageMutex;
+RSemaphore PageSemaphore;
+RSemaphore PageDoneSemaphore;
+LOCAL_C TInt CausePage(TAny*)
+	{
+	TRomHeader* romHeader = (TRomHeader*)UserSvr::RomHeaderAddress();
+	TUint8* start = (TUint8*)romHeader+romHeader->iPageableRomStart;
+	TUint size = romHeader->iPageableRomSize;
+	TUint8* addr=NULL;
+	TBool flush;
+	while (Testing)
+		{
+			PageSemaphore.Wait(); // wait for main thread to want paging.
+			flush = (PagesBeingPaged==0);
+			addr=start+((TInt64(Random())*TInt64(size))>>32);
+			PageDoneSemaphore.Signal(); // Acknolage request.
+			PageMutex.Wait();
+			PagesBeingPaged++;
+			PageMutex.Signal();
+			if (flush)
+				UserSvr::HalFunction(EHalGroupVM,EVMHalFlushCache,0,0);
+			READ(addr);
+			PageMutex.Wait();
+			PagesBeingPaged--;
+			PageMutex.Signal();
+		}
+	return 0;
+	}
+// TestDefered causes garbage collection, and then triggers paging to happen, which should be defered.
+// One would only expect one defered request, as the paging system is not reentrant, but this is checked.
+void TestDefered()
+	{
+	if (MaxDeferLoops==0)
+		{
+		test.Next(_L("Defering test - Skipped!"));
+		return;
+		}
+	TInt timeout;
+	TInt writesNeeded=100;
+	TInt r = KErrNone;
+	RFile tempFile;
+	TInt i;
+	TInt ii;
+	TInt runs=0;
+	SDeferStats stats;
+	TInt pageGarbageCount=0;
+	TInt pageOtherCount=0;
+	TInt normalGarbageCount=0;
+	TInt normalOtherCount=0;
+	// Set up thread sync
+	test(PageMutex.CreateLocal()==KErrNone);
+	test(PageSemaphore.CreateLocal(0)==KErrNone);
+	test(PageDoneSemaphore.CreateLocal(0)==KErrNone);
+	const TInt KMaxPageThreads = 2;
+	UserSvr::HalFunction(EHalGroupVM,EVMHalFlushCache,0,0);
+	// Set up threads
+	RThread pageThread[KMaxPageThreads];
+	TRequestStatus stat[KMaxPageThreads];
+	Testing=ETrue;
+	for (i=0; i<KMaxPageThreads; i++)
+		{
+		test(pageThread[i].Create(_L(""),CausePage,KDefaultStackSize,NULL,NULL)==KErrNone);
+		pageThread[i].Logon(stat[i]);
+		test(stat[i]==KRequestPending);
+		pageThread[i].SetPriority(EPriorityMore);
+		pageThread[i].Resume();
+		}
+	test.Next(_L("Defering test"));
+	// clear counters
+	TPtr8 statsBuf((TUint8*) &stats, sizeof(stats));
+	test(Drive.ControlIO(KNandGetDeferStats,statsBuf,0)==KErrNone);
+	CreateFile(tempFile,_L("nandpage.txt"));
+	for (ii=0; ii<MaxDeferLoops; ii++)  // Repeat the test, 'MaxDeferLoops' number of times.  This can be set on cammand line.
+		{
+		timeout=20;
+		do  // while ((pageGarbageCount==0) && (timeout>0));
+			// ie, while garbage collection hasn't happened, or timed out
+			{
+			timeout--;
+			pageGarbageCount=0;
+			pageOtherCount=0;
+			normalGarbageCount=0;
+			normalOtherCount=0;
+			// Give somethng for garbage collector to collect
+			for (i=0; i<writesNeeded; i++)
+		 		test(WriteNumber(tempFile)==KErrNone);
+			// Force Collection.  (Normally only happens in Idle)
+		 	r = Drive.ControlIO(KNandCollectGarbage,NULL,NULL);
+		 	test(r==KErrNone);
+		 	// Since garbage Colleciton should be going now, watch it, until its finished.
+			do
+		 		{
+				runs = PagesBeingPaged;
+				for (i=runs; i<KMaxPageThreads; i++)
+		 			PageSemaphore.Signal(); // Trigger Paging.
+				for (i=runs; i<KMaxPageThreads; i++)
+		 			PageDoneSemaphore.Wait();
+				TInt tries = 10;
+				do { // If we get zero hits, maybe the page hasnt hit yet.
+					tries--;
+					User::AfterHighRes(1000+Random() & 2047);  // Throw some uncertainly into things
+					TPtr8 statsBuf((TUint8*) &stats, sizeof(stats));
+			 		r = Drive.ControlIO(KNandGetDeferStats,statsBuf,0);
+					test (r == KErrNone);
+			 		pageGarbageCount+=stats.iPageGarbage;
+			 		pageOtherCount+=stats.iPageOther;
+			 		normalGarbageCount+=stats.iNormalGarbage;
+			 		normalOtherCount+=stats.iNormalOther;
+					} while ((pageGarbageCount==0) && (tries>0)); // If we get zero hits, maybe the page hasnt hit yet
+		 		}
+		 	while (stats.iPageGarbage>0); // Keep going until collection seems to have finished.
+		 	// The paging system is not reentrant, so should never get more then one.
+		 	test(stats.iPageGarbage<2);
+			test.Printf(_L("%d: PG %d PO %d NG %d NO %d\n"),ii,pageGarbageCount,  pageOtherCount, normalGarbageCount,  normalOtherCount );
+			// if no collection, probebly didnt write enough to trigger it, so up the quantity.
+			if (pageGarbageCount==0)
+				{
+				writesNeeded+=writesNeeded/2;
+				test.Printf(_L("Writes needed = %d\n"),writesNeeded);
+				}
+			}
+		while ((pageGarbageCount==0) && (timeout>0));
+		test(timeout>0);
+		} // end for MaxDeferLoops.
+	// Clean up. . . . .
+	Testing=EFalse;  // Setting this causes the CausePage threads to exit.
+	// Wait for threads to exit, signaling the semaphore in case they where waiting on it.
+	for (i=0; i<KMaxPageThreads; i++)
+		PageSemaphore.Signal();
+	for (i=0; i<KMaxPageThreads; i++)
+		User::WaitForRequest(stat[i]);
+	PageMutex.Close();
+	PageSemaphore.Close();
+	PageDoneSemaphore.Close();
+	CloseAndDestroy(tempFile);
+	}
+// ************************************************************************************
+//
+// The gubbins that starts all the tests
+//
+// ParseCommandLine reads the arguments and sets globals accordingly.
+//
+void ParseCommandLine()
+	{
+	TBuf<32> args;
+	User::CommandLine(args);
+	TLex lex(args);
+	FOREVER
+		{
+		TPtrC token=lex.NextToken();
+		if(token.Length()!=0)
+			{
+			if ((token.Length()==2) && (token[1]==':'))
+				DriveNumber=User::UpperCase(token[0])-'A';
+			else if (token.Length()==1)
+				{
+				TChar driveLetter = User::UpperCase(token[0]);
+				if ((driveLetter>='A') && (driveLetter<='Z'))
+					DriveNumber=driveLetter - (TChar) 'A';
+				else
+					test.Printf(_L("Unknown argument '%S' was ignored.\n"), &token);
+				}
+			else if ((token==_L("help")) || (token==_L("-h")) || (token==_L("-?")))
+				{
+				test.Printf(_L("\nUsage:  t_nandpaging <driveletter> [rwsoak <cc>] [defer <c>]\n'-' indicated infinity.\n\n"));
+				test.Getch();
+				Maxloops=0;
+				}
+			else if (token==_L("rwsoak"))
+				{
+				TPtrC val=lex.NextToken();
+				TLex lexv(val);
+				TInt v;
+				if (val==_L("-"))
+					Forever=ETrue;
+				else
+					if (lexv.Val(v)==KErrNone)
+						Maxloops=v;
+					else
+						test.Printf(_L("Bad value for rwsoak '%S' was ignored.\n"), &val);
+				}
+			else if (token==_L("defer"))
+				{
+				TPtrC val=lex.NextToken();
+				TLex lexv(val);
+				TInt v;
+				if (val==_L("-"))
+					MaxDeferLoops=KMaxTInt;
+				else
+					if (lexv.Val(v)==KErrNone)
+						MaxDeferLoops=v;
+					else
+						test.Printf(_L("Bad value for defer '%S' was ignored.\n"), &val);
+				}
+			else
+				test.Printf(_L("Unknown argument '%S' was ignored.\n"), &token);
+			}
+		else
+			break;
+		}
+	}
+//
+// E32Main
+//
+TInt E32Main()
+	{
+	TInt r;
+	test.Title();
+	test.Printf(_L("key\n---\n"));
+	test.Printf(_L("PG: Paging requests defered due to Garbage\n"));
+	test.Printf(_L("PO: Paging requests defered due to other operations\n"));
+	test.Printf(_L("NG: Normal requests defered due to Garbage\n"));
+	test.Printf(_L("NO: Normal requests defered due to other operations\n\n"));
+	test.Start(_L("Check that the rom is paged"));
+	TRomHeader* romHeader = (TRomHeader*)UserSvr::RomHeaderAddress();
+	if (romHeader->iPageableRomStart==NULL)
+		test.Printf(_L("Test ROM is not paged - test skipped!\r\n"));
+	else
+		{
+		ParseCommandLine();
+		test(TheFs.Connect()==KErrNone);
+		r=UserSvr::HalFunction(EHalGroupVM,EVMHalFlushCache,0,0);
+		if(r<0)
+			{
+			test.Printf(_L("DemandPagingFlushPages Error = %d\n"),r);
+			test(0);
+			}
+		DriveNumber = FindFsNANDDrive();
+		if(DriveNumber<0)
+			test.Printf(_L("NAND Flash not found - test skipped!\r\n"));
+		else
+			{
+			RFile file;
+			TBuf<256> fileName;
+			fileName.Append((TChar)('A'+DriveNumber));
+			fileName+=_L(":\\f32-tst\\");
+			TInt r=TheFs.MkDirAll(fileName);
+			test(r==KErrNone || r== KErrAlreadyExists);
+			fileName += _L("annoyingflies.txt");
+			r=file.Replace(TheFs,fileName,EFileWrite);
+			if (r!=KErrNone)
+				test.Printf(_L("Error %d: file '%S' could not be created\n"),r,&fileName);
+			test(r==KErrNone);
+			r=file.Write(_L8("Flies as big as sparrows indoletly buzzing in the warm air, heavy with the stench of rotting carcasses"));
+			if (r!=KErrNone)
+				test.Printf(_L("Error %d: could not write to file\n"),r);
+			test(r==KErrNone);
+			test(file.Flush() == KErrNone);
+			SBlockMapInfo info;
+			TInt64 start=0;
+			r=file.BlockMap(info,start, -1,ETestDebug);
+			if (r!=KErrNone && r!=KErrCompletion)
+				test.Printf(_L("Error %d: could not obtain block map\n"),r);
+			test(r==KErrNone || r==KErrCompletion);
+			locDriveNumber=info.iLocalDriveNumber;
+			test.Printf(_L("Found drive: %c (NAND drive %d)\r\n"), DriveNumber+'A',locDriveNumber);
+			file.Close();
+			// Connect to device driver
+			TBool changeFlag = EFalse;
+			r = Drive.Connect(locDriveNumber,changeFlag);
+			TPckg<TLocalDriveCapsV4>	capsPack(DriveCaps);
+			Drive.Caps(capsPack);
+			test(r == KErrNone);
+			r = Drive.ControlIO(KNandCollectGarbage,NULL,NULL);
+			if (r!=KErrNone)
+				{
+				test.Printf(_L("LocalDrive does not support the KNandCollectGarbage ControlIO request\n"));
+				CtrlIoCollectGarbageSupported = EFalse;
+				}
+			SDeferStats stats;
+			TPtr8 statsBuf((TUint8*) &stats, sizeof(stats));
+	 		r = Drive.ControlIO(KNandGetDeferStats,statsBuf,0);
+			if (r == KErrNone)
+				{
+				if (stats.iSynchronousMediaDriver)
+					{
+					test.Printf(_L("Media drive is synchronous - test skipped!\r\n"));
+					test.End();
+					return 0;
+					}
+				}
+			else
+				{
+				test.Printf(_L("LocalDrive does not support the KNandGetDeferStats ControlIO request\n"));
+				CtrlIoGetDeferStatsSupported = EFalse;
+				}
+			test.Printf(_L("LocalDrive Connected\n"));
+			//
+			// Run tests
+			//
+			TestNandAccuratcy();
+			if(CtrlIoCollectGarbageSupported && CtrlIoGetDeferStatsSupported)
+				TestDefered();
+			//
+			// Free device and end test program
+			//
+			Drive.Disconnect();
+			}
+		}
+	test.End();
+	return 0;
+	}

changeset 0	a41df078684a
child 6	0173bcd7697c