// Copyright (c) 1997-2009 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:
// f32test\server\t_main.cpp
//
//
#define __E32TEST_EXTENSION__
#include <f32file.h>
#include <e32test.h>
#include <e32hal.h>
#include <e32math.h>
#include <f32dbg.h>
#include "t_server.h"
#include "t_chlffs.h"
GLDEF_D RFs TheFs;
GLDEF_D TFileName gSessionPath;
GLDEF_D TFileName gExeFileName(RProcess().FileName());
GLDEF_D TInt gAllocFailOff=KAllocFailureOff;
GLDEF_D TInt gAllocFailOn=KAllocFailureOff;
GLDEF_D TInt64 gSeed=51703;
GLDEF_D TChar gDriveToTest;
GLDEF_D TVolumeInfo gVolInfo; // volume info for current drive
GLDEF_D TFileCacheFlags gDriveCacheFlags;
_LIT(KPrivate, "\\Private\\");
////////////////////////////////////////////////////////////
// Template functions encapsulating ControlIo magic
//
GLDEF_D template <class C>
GLDEF_C TInt controlIo(RFs &fs, TInt drv, TInt fkn, C &c)
{
TPtr8 ptrC((TUint8 *)&c, sizeof(C), sizeof(C));
TInt r = fs.ControlIo(drv, fkn, ptrC);
return r;
}
GLDEF_C void CreateShortName(TDes& aFileName,TInt64& aSeed)
//
// Create a random, dos legal 8.3 char name
//
{
TInt length=Math::Rand(aSeed)%11;
if (length==0)
length=1;
else if (length==3) // don't create three letter names like 'AUX' or 'PRN'
length++;
else if (length>8) // end in '.' if no extension
length++;
aFileName.SetLength(length);
for(TInt i=0;i<length;i++)
{
if (i==9)
{
aFileName[i]='.';
continue;
}
TInt letter=Math::Rand(aSeed)%26;
aFileName[i]=(TText)('A'+letter);
}
}
_LIT(KFatName, "Fat");
_LIT(KFat32Name, "Fat32");
static
TBool isFAT(RFs &aFsSession, TInt aDrive)
{
TFileName f;
TInt r = aFsSession.FileSystemName(f, aDrive);
test_Value(r, r == KErrNone || r == KErrNotFound);
return (f.CompareF(KFatName) == 0 || f.CompareF(KFat32Name) == 0);
}
static
TUint16 getRootEntCnt(RFs &aFsSession, TInt aDrive)
{
RRawDisk rdisk;
TUint16 rootEntCnt;
TPtr8 reader((TUint8*)&rootEntCnt, sizeof(rootEntCnt));
test_KErrNone(rdisk.Open(aFsSession, aDrive));
test_KErrNone(rdisk.Read(17, reader)); // "BPB_RootEntCnt" field at offset 17
rdisk.Close();
return rootEntCnt;
}
GLDEF_C TBool IsFileSystemFAT(RFs &aFsSession,TInt aDrive)
//
// return true if FAT on aDrive
//
{
return (isFAT(aFsSession, aDrive) && getRootEntCnt(aFsSession, aDrive) != 0);
}
GLDEF_C TBool IsFileSystemFAT32(RFs &aFsSession,TInt aDrive)
//
// return true if FAT32 on aDrive
//
{
return (isFAT(aFsSession, aDrive) && getRootEntCnt(aFsSession, aDrive) == 0);
}
GLDEF_C void CreateLongName(TDes& aFileName,TInt64& aSeed,TInt aLength)
//
// Create a random, dos legal 8.3 char name
//
{
TInt length;
if (aLength>0)
length=aLength;
else
{
length=Math::Rand(aSeed)%128;
length+=Math::Rand(aSeed)%128;
length+=Math::Rand(aSeed)%128;
length+=Math::Rand(aSeed)%128;
length-=256;
length=Abs(length);
if (length==0)
length=1;
if (length>220)
length=31;
}
if (length==3) // don't create three letter names like 'AUX' or 'PRN'
length++;
aFileName.SetLength(length);
TInt spaceChar=-1;
TInt i;
for(i=0;i<length;i++)
{
StartAgain:
TChar letter=0;
TBool illegalChar=ETrue;
while(illegalChar)
{
#if defined(__WINS__)
if (gSessionPath[0]=='C')
letter=(TChar)('A'+Math::Rand(aSeed)%26);
else
letter=(TChar)Math::Rand(aSeed)%256;
#else
letter=(TChar)Math::Rand(aSeed)%256;
#endif
TBool space=letter.IsSpace();
if (space && spaceChar==-1)
spaceChar=i;
else if (!space && spaceChar!=-1)
spaceChar=-1;
switch(letter)
{
case '<':
case '>':
case ':':
case '"':
case '/':
case '|':
case '*':
case '?':
case '\\':
case '\0':
break;
default:
illegalChar=EFalse;
};
}
aFileName[i]=(TText)letter;
}
if (spaceChar!=-1)
{
i=spaceChar;
goto StartAgain;
}
}
GLDEF_C void CheckEntry(const TDesC& aName,TUint anAttributes,const TTime& aModified)
//
// Checks the values associated with an entry
//
{
TEntry entry;
TInt r=TheFs.Entry(aName,entry);
test_KErrNone(r);
test(entry.iAtt==anAttributes);
if (aModified!=TTime(0))
test(entry.iModified==aModified);
}
GLDEF_C void CheckDisk()
//
// Do a checkdisk and report failure
//
{
test.Next(_L("Check Disk"));
TInt r=TheFs.CheckDisk(gSessionPath);
if (r!=KErrNone && r!=KErrNotSupported && r!=KErrPermissionDenied)
ReportCheckDiskFailure(r);
}
GLDEF_C void ReportCheckDiskFailure(TInt aRet)
//
// Report the failure of checkdisk
//
{
test.Printf(_L("CHECKDISK FAILED: "));
switch(aRet)
{
case 1: test.Printf(_L("File cluster chain contains a bad value (<2 or >maxCluster)\n")); break;
case 2: test.Printf(_L("Two files are linked to the same cluster\n")); break;
case 3: test.Printf(_L("Unallocated cluster contains a value != 0\n")); break;
case 4: test.Printf(_L("Size of file != number of clusters in chain\n")); break;
default: test.Printf(_L("Undefined Error value %d\n"),aRet);
}
test(EFalse);
}
GLDEF_C void TurnAllocFailureOff()
//
// Switch off all allocFailure
//
{
test.Printf(_L("Disable Alloc Failure\n"));
TheFs.SetAllocFailure(gAllocFailOff);
gAllocFailOn=KAllocFailureOff; // Disable gAllocFailOn
}
GLDEF_C void TurnAllocFailureOn()
//
// Switch off all allocFailure
//
{
test.Printf(_L("Enable Alloc Failure\n"));
gAllocFailOn=KAllocFailureOn; // Enable gAllocFailOn
TheFs.SetAllocFailure(gAllocFailOn);
}
GLDEF_C void MakeFile(const TDesC& aFileName,const TUidType& aUidType,const TDesC8& aFileContents)
//
// Make a file and write uid and data
//
{
RFile file;
TInt r=file.Replace(TheFs,aFileName,0);
if (r==KErrPathNotFound)
{
r=TheFs.MkDirAll(aFileName);
test_KErrNone(r);
r=file.Replace(TheFs,aFileName,0);
}
test_KErrNone(r);
TCheckedUid checkedUid(aUidType);
TPtrC8 uidData((TUint8*)&checkedUid,sizeof(TCheckedUid));
r=file.Write(uidData);
test_KErrNone(r);
r=file.Write(aFileContents);
test_KErrNone(r);
file.Close();
}
GLDEF_C void MakeFile(const TDesC& aFileName,const TDesC8& aFileContents)
//
// Make a file and write something in it
//
{
RFile file;
TInt r=file.Replace(TheFs,aFileName,0);
if (r==KErrPathNotFound)
{
r=TheFs.MkDirAll(aFileName);
test_KErrNone(r);
r=file.Replace(TheFs,aFileName,0);
}
test_KErrNone(r);
r=file.Write(aFileContents);
test_KErrNone(r);
file.Close();
}
GLDEF_C void MakeFile(const TDesC& aFileName,TInt anAttributes)
//
// Make a file and write something in it
//
{
RFile file;
TInt r=file.Replace(TheFs,aFileName,0);
if (r==KErrPathNotFound)
{
r=TheFs.MkDirAll(aFileName);
test_KErrNone(r);
r=file.Replace(TheFs,aFileName,0);
}
test_KErrNone(r);
file.Close();
r=TheFs.SetAtt(aFileName,anAttributes,0);
test_KErrNone(r);
}
GLDEF_C void SetSessionPath(const TDesC& aPathName)
//
// Set the session path and update gSessionPath
//
{
TInt r=TheFs.SetSessionPath(aPathName);
test_KErrNone(r);
r=TheFs.SessionPath(gSessionPath);
test_KErrNone(r);
}
GLDEF_C void MakeFile(const TDesC& aFileName)
//
// Make a file
//
{
MakeFile(aFileName,_L8(""));
}
GLDEF_C void MakeDir(const TDesC& aDirName)
//
// Make a directory
//
{
TInt r=TheFs.MkDirAll(aDirName);
if (r!=KErrNone && r!=KErrAlreadyExists)
{
test.Printf(_L("%c: MakeDir Error %d\n"),aDirName[0],r);
test(0);
}
}
GLDEF_C TInt CheckFileExists(const TDesC& aName,TInt aResult,TBool aCompRes/*=ETrue*/)
//
// Check aName exists
//
{
TEntry entry;
TInt r=TheFs.Entry(aName,entry);
test_Value(r, r == KErrNone || r == aResult);
if (aResult!=KErrNone)
return(0);
TParsePtrC nameParse(aName);
TParsePtrC entryParse(entry.iName);
TBool nameMatch=(entryParse.Name()==nameParse.Name());
TBool extMatch=(entryParse.Ext()==nameParse.Ext()) || (entryParse.Ext().Length()<=1 && nameParse.Ext().Length()<=1);
test((nameMatch && extMatch)==aCompRes);
return(entry.iSize);
}
GLDEF_C void CheckFileContents(const TDesC& aName,const TDesC8& aContents)
//
// Check contents of file
//
{
RFile f;
TInt r=f.Open(TheFs,aName,EFileRead);
test_KErrNone(r);
HBufC8* testBuf=HBufC8::NewL(aContents.Length());
test(testBuf!=NULL);
TPtr8 bufPtr(testBuf->Des());
r=f.Read(bufPtr);
test_KErrNone(r);
test(bufPtr==aContents);
r=f.Read(bufPtr);
test_KErrNone(r);
test(bufPtr.Length()==0);
f.Close();
User::Free(testBuf);
}
GLDEF_C void DeleteTestDirectory()
//
// Delete the leaf session path directory
//
{
TheFs.SetAtt(_L("\\F32-TST\\SCANTEST\\Left\\Dir3\\Dir4\\Hidden"), 0, KEntryAttHidden);
TheFs.SetAtt(_L("\\F32-TST\\SCANTEST\\Left\\Dir3\\Dir4\\Hidden\\HiddenFile"), 0, KEntryAttHidden);
TheFs.SetAtt(_L("\\F32-TST\\SCANTEST\\Left\\Dir3\\Dir4\\Hidden\\System"), 0, KEntryAttSystem);
test.Next(_L("Delete test directory"));
CFileMan* fMan=CFileMan::NewL(TheFs);
test(fMan!=NULL);
TInt r=TheFs.SessionPath(gSessionPath);
test_KErrNone(r);
r=TheFs.CheckDisk(gSessionPath);
if (r!=KErrNone && r!=KErrNotSupported)
ReportCheckDiskFailure(r);
r=fMan->RmDir(gSessionPath);
test_KErrNone(r);
delete fMan;
}
GLDEF_C void CreateTestDirectory(const TDesC& aSessionPath)
//
// Create directory for test
//
{
TParsePtrC path(aSessionPath);
test(path.DrivePresent()==EFalse);
TInt r=TheFs.SetSessionPath(aSessionPath);
test_KErrNone(r);
r=TheFs.SessionPath(gSessionPath);
test_KErrNone(r);
r=TheFs.MkDirAll(gSessionPath);
test_Value(r, r == KErrNone || r == KErrAlreadyExists);
}
GLDEF_C TInt CurrentDrive()
//
// Return the current drive number
//
{
TInt driveNum;
TInt r=TheFs.CharToDrive(gSessionPath[0],driveNum);
test_KErrNone(r);
return(driveNum);
}
GLDEF_C void Format(TInt aDrive)
//
// Format current drive
//
{
test.Next(_L("Format"));
TBuf<4> driveBuf=_L("?:\\");
driveBuf[0]=(TText)(aDrive+'A');
RFormat format;
TInt count;
TInt r=format.Open(TheFs,driveBuf,EQuickFormat,count);
test_KErrNone(r);
while(count)
{
TInt r=format.Next(count);
test_KErrNone(r);
}
format.Close();
}
LOCAL_C void PushLotsL()
//
// Expand the cleanup stack
//
{
TInt i;
for(i=0;i<1000;i++)
CleanupStack::PushL((CBase*)NULL);
CleanupStack::Pop(1000);
}
LOCAL_C void DoTests(TInt aDrive)
//
// Do testing on aDrive
//
{
gSessionPath=_L("?:\\F32-TST\\");
TChar driveLetter;
TInt r=TheFs.DriveToChar(aDrive,driveLetter);
test_KErrNone(r);
gSessionPath[0]=(TText)driveLetter;
r=TheFs.SetSessionPath(gSessionPath);
test_KErrNone(r);
// !!! Disable platform security tests until we get the new APIs
// if(User::Capability() & KCapabilityRoot)
CheckMountLFFS(TheFs,driveLetter);
User::After(1000000);
// Format(CurrentDrive());
test.Printf(_L("Creating session path"));
r=TheFs.MkDirAll(gSessionPath);
if(r == KErrCorrupt)
{
test.Printf(_L("Attempting to create directory \'%S\' failed, KErrCorrupt\n"), &gSessionPath);
test.Printf(_L("This could be caused by a previous failing test, or a test media defect\n"));
test.Printf(_L("Formatting drive, retrying MkDirall\nShould subsequent tests fail with KErrCorrupt (%d) as well, replace test medium !\n"),
r);
Format(aDrive);
r=TheFs.MkDirAll(gSessionPath);
test_KErrNone(r);
}
else if (r == KErrNotReady)
{
TDriveInfo d;
r=TheFs.Drive(d, aDrive);
test_KErrNone(r);
if (d.iType == EMediaNotPresent)
test.Printf(_L("%c: Medium not present - cannot perform test.\n"), (TUint)driveLetter);
else
test.Printf(_L("medium found (type %d) but drive %c: not ready\nPrevious test may have hung; else, check hardware.\n"), (TInt)d.iType, (TUint)driveLetter);
}
test_Value(r, r == KErrNone || r == KErrAlreadyExists);
TheFs.ResourceCountMarkStart();
test.Printf(_L("Calling main test sequence ...\n"));
TRAP(r,CallTestsL());
test_KErrNone(r);
test.Printf(_L("test sequence completed without error\n"));
TheFs.ResourceCountMarkEnd();
CheckDisk();
TestingLFFS(EFalse);
}
void ParseCommandArguments()
//
//
//
{
TBuf<0x100> cmd;
User::CommandLine(cmd);
TLex lex(cmd);
TPtrC token=lex.NextToken();
TFileName thisfile=RProcess().FileName();
if (token.MatchF(thisfile)==0)
{
token.Set(lex.NextToken());
}
test.Printf(_L("CLP=%S\n"),&token);
if(token.Length()!=0)
{
gDriveToTest=token[0];
gDriveToTest.UpperCase();
}
else
gDriveToTest='C';
}
TFullName gExtName;
TBool gPrimaryExtensionExists = EFalse;
GLDEF_C TInt DismountFileSystem(RFs& aFs, const TDesC& aFileSystemName,TInt aDrive)
{
//Make note of the first extension if it exists, so that we remount
//it when the file system is remounted.
TInt r = aFs.ExtensionName(gExtName, aDrive, 0);
if (r == KErrNone)
{
gPrimaryExtensionExists = ETrue;
}
return aFs.DismountFileSystem(aFileSystemName, aDrive);
}
GLDEF_C TInt MountFileSystem(RFs& aFs, const TDesC& aFileSystemName,TInt aDrive, TBool aIsSync)
{
TInt r;
if (gPrimaryExtensionExists)
{
r = aFs.MountFileSystem(aFileSystemName, gExtName, aDrive, aIsSync);
}
else
{
r = aFs. MountFileSystem(aFileSystemName, aDrive, aIsSync);
}
return r;
}
GLDEF_C TInt E32Main()
//
// Test with drive nearly full
//
{
CTrapCleanup* cleanup;
cleanup=CTrapCleanup::New();
TRAPD(r,PushLotsL());
__UHEAP_MARK;
test.Title();
test.Start(_L("Starting tests..."));
ParseCommandArguments(); //need this for drive letter to test
r=TheFs.Connect();
test_KErrNone(r);
TheFs.SetAllocFailure(gAllocFailOn);
TTime timerC;
timerC.HomeTime();
TFileName sessionp;
TheFs.SessionPath(sessionp);
TBuf<30> privatedir;
privatedir = KPrivate;
TUid thisUID = RProcess().Identity();
privatedir.AppendFormat(_L("%08x"),thisUID.iUid);
privatedir.Append(_L("\\"));
test(privatedir == sessionp.Mid(2,sessionp.Length()-2));
test.Printf(_L("sp=%S\n"),&sessionp);
sessionp[0]=(TText)gDriveToTest;
test.Printf(_L("sp1=%S\n"),&sessionp);
TInt theDrive;
r=TheFs.CharToDrive(gDriveToTest,theDrive);
test_KErrNone(r);
// Get the TFileCacheFlags for this drive
r = TheFs.Volume(gVolInfo, theDrive);
if (r == KErrNotReady)
{
TDriveInfo info;
TInt err = TheFs.Drive(info,theDrive);
test_KErrNone(err);
if (info.iType == EMediaNotPresent)
test.Printf(_L("%c: Medium not present - cannot perform test.\n"), (TUint)gDriveToTest);
else
test.Printf(_L("%c: medium found (type %d) but drive not ready\nPrevious test may have hung; else, check hardware.\n"), (TUint)gDriveToTest, (TInt)info.iType);
}
else if (r == KErrCorrupt)
{
test.Printf(_L("%c: Media corruption; previous test may have aborted; else, check hardware\n"), (TUint)gDriveToTest);
}
test_KErrNone(r);
gDriveCacheFlags = gVolInfo.iFileCacheFlags;
test.Printf(_L("DriveCacheFlags = %08X\n"), gDriveCacheFlags);
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
test.Printf(_L("\n"));
TInt orgSessionCount;
r = controlIo(TheFs,theDrive, KControlIoSessionCount, orgSessionCount);
test_KErrNone(r);
test.Printf(_L("Session count start=%d\n"),orgSessionCount);
TInt orgObjectCount;
r = controlIo(TheFs,theDrive, KControlIoObjectCount, orgObjectCount);
test_KErrNone(r);
test.Printf(_L("Object count start=%d\n"),orgObjectCount);
TPckgBuf<TIOCacheValues> pkgOrgValues;
TIOCacheValues& orgValues=pkgOrgValues();
r = controlIo(TheFs,theDrive, KControlIoCacheCount, orgValues);
test_KErrNone(r);
test.Printf(_L("Requests at start: CloseQ %d FreeQ %d total %d peak %d\n"),
orgValues.iCloseCount, orgValues.iFreeCount, orgValues.iTotalCount, orgValues.iRequestCountPeak);
// File cache
// flush closed files queue
r = TheFs.ControlIo(theDrive, KControlIoFlushClosedFiles);
test_KErrNone(r);
// get number of items on File Cache
TFileCacheStats startFileCacheStats;
r = controlIo(TheFs,theDrive, KControlIoFileCacheStats, startFileCacheStats);
test_Value(r, r == KErrNone || r == KErrNotSupported);
test.Printf(_L("File cache: Cachelines (free %d, used %d), Segments(allocated %d locked %d). Closed files(%d)\n"),
startFileCacheStats.iFreeCount,
startFileCacheStats.iUsedCount,
startFileCacheStats.iAllocatedSegmentCount,
startFileCacheStats.iLockedSegmentCount,
startFileCacheStats.iFilesOnClosedQueue);
#endif
DoTests(theDrive);
TTime endTimeC;
endTimeC.HomeTime();
TTimeIntervalSeconds timeTakenC;
r=endTimeC.SecondsFrom(timerC,timeTakenC);
test_KErrNone(r);
test.Printf(_L("Time taken for test = %d seconds\n"),timeTakenC.Int());
TheFs.SetAllocFailure(gAllocFailOff);
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
// Close and then re-open the main file server session to force the closure of
// any sub-sessions which may have been left open....
// NB: This won't help if the test has opened another session & left sub-sessions open.
TheFs.Close();
r=TheFs.Connect();
test_KErrNone(r);
// Display the file cache stats before closing the file queue
TFileCacheStats endFileCacheStats;
r = controlIo(TheFs,theDrive, KControlIoFileCacheStats, endFileCacheStats);
test_Value(r, r == KErrNone || r == KErrNotSupported);
test.Printf(_L("File cache: Cachelines (free %d, used %d), Segments(allocated %d locked %d). Closed files(%d)\n"),
endFileCacheStats.iFreeCount,
endFileCacheStats.iUsedCount,
endFileCacheStats.iAllocatedSegmentCount,
endFileCacheStats.iLockedSegmentCount,
endFileCacheStats.iFilesOnClosedQueue);
// Wait up to 3 seconds for all file server sessions & objects to close
// and then test session & object counts haven't changed
TInt endSessionCount = 0;
TInt endObjectCount = 0;
for (TInt n=0; n<3; n++)
{
// Flush the closed files queue as a file-cache object on the closed queue is counted as an open object
test.Printf(_L("Flushing close queue...\n"));
r = TheFs.ControlIo(theDrive, KControlIoFlushClosedFiles);
test_KErrNone(r);
r = controlIo(TheFs,theDrive, KControlIoSessionCount, endSessionCount);
test_KErrNone(r);
test.Printf(_L("Session count end=%d\n"),endSessionCount);
r = controlIo(TheFs,theDrive, KControlIoObjectCount, endObjectCount);
test_KErrNone(r);
test.Printf(_L("Object count end=%d\n"),endObjectCount);
if (endSessionCount == orgSessionCount && endObjectCount == orgObjectCount)
break;
test.Printf(_L("Warning: Session/object count leak\n"));
User::After(1000000);
}
// some tests don't close their sessions, so this test won't work until
// all the tests are fixed :
// test(endSessionCount == orgSessionCount);
// test(endObjectCount == orgObjectCount);
// Test that the File cache hasn't leaked ....
r = controlIo(TheFs,theDrive, KControlIoFileCacheStats, endFileCacheStats);
test_Value(r, r == KErrNone || r == KErrNotSupported);
test.Printf(_L("File cache: Cachelines (free %d, used %d), Segments(allocated %d locked %d). Closed files(%d)\n"),
endFileCacheStats.iFreeCount,
endFileCacheStats.iUsedCount,
endFileCacheStats.iAllocatedSegmentCount,
endFileCacheStats.iLockedSegmentCount,
endFileCacheStats.iFilesOnClosedQueue);
if (r == KErrNone)
{
test(startFileCacheStats.iFreeCount == endFileCacheStats.iFreeCount);
test(startFileCacheStats.iUsedCount == endFileCacheStats.iUsedCount);
test(startFileCacheStats.iAllocatedSegmentCount == endFileCacheStats.iAllocatedSegmentCount);
test(startFileCacheStats.iLockedSegmentCount == endFileCacheStats.iLockedSegmentCount);
test(startFileCacheStats.iFileCount == endFileCacheStats.iFileCount);
}
#endif
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
// Test that the request allocator hasn't leaked...
TPckgBuf<TIOCacheValues> pkgValues;
TIOCacheValues& values=pkgValues();
r = controlIo(TheFs,theDrive, KControlIoCacheCount, values);
test_KErrNone(r);
test.Printf(_L("Requests at end: CloseQ %d FreeQ %d total %d peak %d\n"),
values.iCloseCount, values.iFreeCount, values.iTotalCount, values.iRequestCountPeak);
test.Printf(_L("Operations at end: FreeQ %d total %d peak=%d\n"),
values.iOpFreeCount, values.iOpRequestCount, values.iOpRequestCountPeak);
test(orgValues.iCloseCount==values.iCloseCount);
test(orgValues.iAllocated == values.iAllocated);
// The free count can increase if the file server runs out of requests in the RequestAllocator
// free pool but this should never decrease - this implies a request leak
test(orgValues.iFreeCount <= values.iFreeCount);
// The total number of allocated requests should be equal to :
// requests on the close queue + requests on free queue
// + 1 (because we used one request to issue KControlIoCacheCount)
// If this doesn't equate then this implies a request leak
test(values.iTotalCount == values.iCloseCount + values.iFreeCount + 1);
#endif
TheFs.Close();
test.End();
test.Close();
__UHEAP_MARKEND;
delete cleanup;
return(KErrNone);
}