// Copyright (c) 1996-2009 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_fsys.cpp
//
//
#define __E32TEST_EXTENSION__
#include <f32file.h>
#include <f32file_private.h>
#include <e32test.h>
#include "t_server.h"
#include "fat_utils.h"
#include "filesystem_fat.h"
using namespace Fat_Test_Utils;
RTest test(_L("T_FSYS"));
static void TestFileSystemNames()
{
test.Next(_L("Read file system names for all drives"));
TFullName name;
TInt r;
for(TInt i=EDriveA;i<KMaxDrives;++i)
{
r=TheFs.FileSystemName(name,i);
test_Value(r, r == KErrNone || r==KErrNotFound);
TChar c;
r=RFs::DriveToChar(i,c);
test_KErrNone(r);
if(name.Length())
test.Printf(_L("File System Name on drive %c is %S\n"),(char)c,&name);
else
test.Printf(_L("No file system on drive %c\n"),(char)c);
}
}
static void CheckDismount(TDesC& aFs,TInt aDrive)
{
if (aDrive==EDriveC) // ??? Can't test on C: - see below
return;
TInt r;
TFullName oldSess, newSess;
r=TheFs.SessionPath(oldSess);
test_KErrNone(r);
TChar c;
r=TheFs.DriveToChar(aDrive,c);
test_KErrNone(r);
newSess.Append(c);
newSess.Append(':');
newSess.Append('\\');
TBuf<128> b;
TDriveInfo di;
r=TheFs.Drive(di,aDrive);
test_KErrNone(r);
b.Format(_L("Test dismounting of test file system on %c: (DrvAtt:%x MedAtt:%x)"),(TUint)c,di.iDriveAtt,di.iMediaAtt);
test.Next(b);
// Test cannot dismount on rom drive
test.Next(_L("Test cannot dismount on Rom drive"));
TFullName zName;
r=TheFs.FileSystemName(zName,EDriveZ);
test_KErrNone(r);
r=TheFs.DismountFileSystem(zName,EDriveZ);
test.Printf(_L("r=%d"),r);
// NB if paging is enabled on a ROFS partition which is part of the composite file system then the
// likelihood is that there will be a at least one file clamped: in this case there error will be KErrInUse
test_Value(r, r == KErrAccessDenied || r==KErrInUse);
// Test cannot dismount on wrong drive
test.Next(_L("Test cannot dismount on wrong drive"));
r=TheFs.DismountFileSystem(aFs,EDriveA);
test_Value(r, r == KErrNotReady);
// Test cannot dismount with wrong name
test.Next(_L("Test cannot dismount with wrong file system name"));
r=TheFs.DismountFileSystem(_L("abc"),aDrive);
test_Value(r, r == KErrNotFound);
// Test cannot dismount with a file open
test.Next(_L("Test cannot dismount with a file open"));
r=TheFs.SetSessionPath(newSess);
RFile file;
r=file.Replace(TheFs,_L("abc"),EFileShareAny);
test_KErrNone(r);
r=TheFs.SessionPath(newSess);
TBool open;
r=TheFs.IsFileOpen(_L("abc"),open);
test_KErrNone(r);
test(open);
r=TheFs.DismountFileSystem(aFs,aDrive);
test_Value(r, r == KErrInUse);
file.Close();
// Now test dismount works
test.Next(_L("Test dismounts OK"));
r=TheFs.DismountFileSystem(aFs,aDrive);
if(r!=KErrNone)
{
test.Printf(_L("Error = %d"),r);
test(EFalse);
}
TFullName n;
r=TheFs.FileSystemName(n,aDrive);
test_Value(r, r == KErrNone || r==KErrNotFound);
test(!n.Length());
r=file.Replace(TheFs,_L("abc"),EFileShareAny);
test_Value(r, r == KErrNotReady);
file.Close();
r=TheFs.MountFileSystem(aFs,aDrive);
if(r!=KErrNone)
{
test.Printf(_L("error = %d\n"),r);
test(EFalse);
}
r=TheFs.FileSystemName(n,aDrive);
test_KErrNone(r);
test(n.Compare(aFs)==0);
r=file.Replace(TheFs,_L("abc"),EFileShareAny); // ??? bang
test_KErrNone(r);
file.Close();
r=TheFs.SetSessionPath(oldSess);
test_KErrNone(r);
}
static void TestDismountFileSystem(TInt aDrive)
{
TInt r;
TFullName name;
r=TheFs.FileSystemName(name,aDrive);
test_Value(r, r == KErrNone || r==KErrNotFound);
if(name.Length())
CheckDismount(name,aDrive);
}
#if defined(__EPOC32__)
static void TestFileSystem(TInt aDrive)
//
// Mount a new CTestFileSystem on the drive under test
//
{
TBuf<64> b;
TChar c;
TInt r=TheFs.DriveToChar(aDrive,c);
test_KErrNone(r);
TDriveInfo di;
r=TheFs.Drive(di,aDrive);
test_KErrNone(r);
b.Format(_L("Test mounting of test file system on %c: (DrvAtt:%x MedAtt:%x)"),(TUint)c,di.iDriveAtt,di.iMediaAtt);
test.Next(b);
test.Next(_L("Test mounting of test file system"));
r=TheFs.AddFileSystem(_L("T_TFSYS"));
if(r!=KErrNone && r!=KErrAlreadyExists)
{
test.Printf(_L("error=%d"),r);
test(EFalse);
}
TFullName oldFs;
r=TheFs.FileSystemName(oldFs,aDrive);
// TFileName oldFs;
// r=TheFs.FileSystemName(oldFs,aDrive);
test_KErrNone(r);
r=TheFs.DismountFileSystem(oldFs,aDrive);
if(r!=KErrNone)
{
test.Printf(_L("Error = %d"),r);
test(EFalse);
}
r=TheFs.MountFileSystem(_L("Test"),aDrive);
test_KErrNone(r);
TFileName newFs;
r=TheFs.FileSystemName(newFs,aDrive);
test_KErrNone(r);
test(newFs.Compare(_L("Test"))==0);
// Check attributes
TDriveInfo info;
r=TheFs.Drive(info,aDrive);
test_KErrNone(r);
test.Printf(_L("iType=%d,iConnectionBusType=%d,iDriveAtt=%x,iMediaAtt=%x\n"),(TUint)info.iType,\
(TUint)info.iConnectionBusType,info.iDriveAtt,info.iMediaAtt);
//Try to remove filesystem without dismounting.
r=TheFs.RemoveFileSystem(_L("Test"));
if(r!=KErrInUse)
{
test.Printf(_L("error=%d"),r);
test(EFalse);
}
r=TheFs.FileSystemName(newFs,aDrive);
test_KErrNone(r);
test(newFs.Compare(_L("Test"))==0);
r=TheFs.DismountFileSystem(newFs,aDrive);
test_KErrNone(r);
r=TheFs.MountFileSystem(oldFs,aDrive);
test_KErrNone(r);
}
#endif
static void TestMountInvalidDrive()
//
// Attempt to mount FAT on non-local drive
{
test.Start(_L("TestMountInvalidDrive"));
TInt r;
test.Next(_L("Adding EFAT"));
#ifdef __WINS__
_LIT(KFsNm, "EFAT32");
#else
_LIT(KFsNm, "ELOCAL");
#endif
r = TheFs.AddFileSystem(KFsNm);
test.Printf(_L("afs: r = %d\n"), r);
test_Value(r, r == KErrNone || r == KErrAlreadyExists);
test.Next(_L("mounting FAT on drive R"));
r = TheFs.MountFileSystem(KFileSystemName_FAT, EDriveR);
test_Value(r, r == KErrArgument);
test.End();
}
// Additional step for INC083446: Corrupted miniSD not detected as corrupted by phone
static void TestMountingBrokenMedia(TInt aDrive)
//
// Mount a new CTestFileSystem on the drive under test
//
{
if (aDrive==EDriveC) // ??? Can't test on C:
return;
TBuf<64> b;
TChar c;
TInt r=TheFs.DriveToChar(aDrive,c);
test_KErrNone(r);
TDriveInfo di;
r=TheFs.Drive(di,aDrive);
test_KErrNone(r);
b.Format(_L("Test mounting of test file system on %c: (DrvAtt:%x MedAtt:%x)"),(TUint)c,di.iDriveAtt,di.iMediaAtt);
test.Next(b);
test.Next(_L("Test mounting of test file system"));
r=TheFs.AddFileSystem(_L("T_TFSYS2"));
if(r!=KErrNone && r!=KErrAlreadyExists)
{
test.Printf(_L("error=%d"),r);
test(EFalse);
}
TFullName oldFs;
r=TheFs.FileSystemName(oldFs,aDrive);
test_KErrNone(r);
r=TheFs.DismountFileSystem(oldFs,aDrive);
if(r!=KErrNone)
{
test.Printf(_L("Error = %d"),r);
test(EFalse);
}
r=TheFs.MountFileSystem(_L("Test2"),aDrive);
test_Value(r, r == KErrCorrupt);
TFileName newFs;
r=TheFs.FileSystemName(newFs,aDrive);
test_KErrNone(r);
test(newFs.Compare(_L("Test2"))==0);
// Get the number of remounts by checking the volume attributes -
// T_TFSYS2 hijacks the iBattery member to report back the number of times MountL() has been called
TDriveInfo info;
TInt remounts;
r=TheFs.Drive(info,aDrive);
test_KErrNone(r);
test.Printf(_L("iType=%d,iBattery=%d,iDriveAtt=%x,iMediaAtt=%x\n"),(TUint)info.iType,\
(TUint)info.iBattery,info.iDriveAtt,info.iMediaAtt);
remounts = (TInt) info.iBattery;
test.Printf(_L("Initial remounts = %d"), remounts);
// Make the file server attempt to remount the drive by looking for a non-existant DLL
// The file server should setop trying to remount the driver after KMaxMountFailures attempts
const TInt KMaxMountFailures = 3; // copied from sf_drv.cpp
const TInt KEntryAttempts = 10;
TInt entryAttempts;
for (entryAttempts=0; entryAttempts < KEntryAttempts; entryAttempts++)
{
TEntry entry;
_LIT(KNonExistantFilename, "NONEXISTANT_FILENAME.DLL");
r = TheFs.Entry(KNonExistantFilename, entry);
test_Value(r, r == KErrCorrupt);
}
r=TheFs.Drive(info,aDrive);
test_KErrNone(r);
test.Printf(_L("iType=%d,iBattery=%d,iDriveAtt=%x,iMediaAtt=%x\n"),(TUint)info.iType,\
(TUint)info.iBattery,info.iDriveAtt,info.iMediaAtt);
remounts = (TInt) info.iBattery;
test.Printf(_L("Remounts = %d"), remounts);
test(remounts == KMaxMountFailures);
// simulate a media change to reset failure count
r = TheFs.RemountDrive(aDrive, NULL, 0);
// now try mounting again & verify the the file server attempts to mount the drive again
for (entryAttempts=0; entryAttempts < KEntryAttempts; entryAttempts++)
{
TEntry entry;
_LIT(KNonExistantFilename, "NONEXISTANT_FILENAME.DLL");
r = TheFs.Entry(KNonExistantFilename, entry);
test_Value(r, r == KErrCorrupt);
}
r=TheFs.Drive(info,aDrive);
test_KErrNone(r);
test.Printf(_L("iType=%d,iBattery=%d,iDriveAtt=%x,iMediaAtt=%x\n"),(TUint)info.iType,\
(TUint)info.iBattery,info.iDriveAtt,info.iMediaAtt);
remounts = (TInt) info.iBattery;
test.Printf(_L("Remounts = %d"), remounts);
test(remounts == KMaxMountFailures * 2);
r=TheFs.DismountFileSystem(newFs,aDrive);
test_KErrNone(r);
r=TheFs.MountFileSystem(oldFs,aDrive);
test_KErrNone(r);
r=TheFs.RemoveFileSystem(_L("Test2"));
if(r!=KErrNone)
{
test.Printf(_L("error=%d"),r);
test(EFalse);
}
}
/**
Testing obtaining media serial number for the substituted drives
*/
static void TestSubstDriveMediaSerialNumber()
{
test.Next(_L("Test obtaining media serial number for the substituted drives"));
TInt nRes;
const TInt currDrvNum=CurrentDrive();
TDriveInfo drvInfo;
nRes=TheFs.Drive(drvInfo, currDrvNum);
test_KErrNone(nRes);
if(drvInfo.iDriveAtt & (KDriveAttRom | KDriveAttRedirected | KDriveAttSubsted))
{
test.Printf(_L("Can't test on this drive!\n"));
return;
}
TMediaSerialNumber serNum;
//-- test Media Serial Number on unexisting drive
{
for(TInt drvNum=EDriveA; drvNum<=EDriveZ; ++drvNum)
{
TDriveInfo drvInfo;
if(KErrNone==TheFs.Drive(drvInfo, drvNum) && drvInfo.iType==EMediaNotPresent)
{
// found a non-extant drive, test it...
nRes = TheFs.GetMediaSerialNumber(serNum, drvNum);
test_Value(nRes, nRes == KErrNotReady);
break;
}
}
}
nRes = TheFs.GetMediaSerialNumber(serNum, currDrvNum);
if(nRes != KErrNone)
{
test.Printf(_L("Test is inconsintent on this drive!\n"));
return;
}
TFileName substPath; //-- path to the directory to substitute
const TInt KSubstDrv = EDriveO; //-- drive to be substituted
//-- make directory, which will be substituted ad a drive
substPath.Format(_L("%c:\\SubstDrv1\\"), (TUint8)'A'+currDrvNum);
MakeDir(substPath);
nRes = TheFs.SetSubst(substPath, KSubstDrv);
test_KErrNone(nRes);
//-- an attempt to obtain Media Serial Number on a substed drive shall result in KErrNotSupported
nRes = TheFs.GetMediaSerialNumber(serNum, KSubstDrv);
test_Value(nRes, nRes == KErrNotSupported);
//-- delete substed drive
nRes = TheFs.SetSubst(_L(""), KSubstDrv);
test_KErrNone(nRes);
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID PBASE-t_fsys-0317
//! @SYMTestType CIT
//! @SYMPREQ CR0882
//! @SYMTestCaseDesc This test case is testing querying file system sub type name using
//! RFs::QueryVolumeInfoExt() API.
//! @SYMTestActions 1 querys sub type of file system on volumes mounted with 'Fat' file system
//! 2 querys sub type of file system on volumes mounted with 'Lffs' file system
//! 3 querys sub type of file system on volumes mounted with 'rofs' file system
//! 4 querys sub type of file system on volumes mounted with other file systems
//! @SYMTestExpectedResults
//! 1 returned error code should be KErrNone, descriptor should match 'FAT12' or 'FAT16' or 'FAT32'
//! 2 returned error code should be KErrNotSupported, descriptor should match 'Lffs'
//! 3 returned error code should be KErrNotSupported, descriptor should match 'rofs'
//! 4 returned error code should be KErrNotSupported, descriptor length should not be zero
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
static void TestFileSystemSubTypeQuery()
{
test.Next(_L("Test querying sub type of the mounted file system"));
TFSName fsName;
TPckgBuf<TFSName> subName;
TInt i, r;
TDriveInfo driveInfo;
TPckgBuf<TBool> fDrvSyncBuf;
for(i = EDriveA; i <= EDriveZ; ++i, subName.Zero())
{
r = TheFs.FileSystemName(fsName, i);
if (r == KErrNone)
{
test.Printf(_L("Tested on drive: %c.\n"), (char)(i+'A'));
r=TheFs.Drive(driveInfo, i);
test_KErrNone(r);
if (driveInfo.iType==EMediaNotPresent)
{
test.Printf(_L("The media is not present.\n"));
r = TheFs.QueryVolumeInfoExt(i, EFileSystemSubType, subName);
test_Value(r, r == KErrNone || r == KErrNotReady);
}
else if (driveInfo.iType==EMediaCdRom)
{
test.Printf(_L("CD ROM with no media will report not ready!\n"));
r = TheFs.QueryVolumeInfoExt(i, EFileSystemSubType, subName);
test_Value(r, r == KErrNotReady);
}
else
{
r = TheFs.QueryVolumeInfoExt(i, EFileSystemSubType, subName);
test_KErrNone(r);
//-- test EIsDriveSync command
r = TheFs.QueryVolumeInfoExt(i, EIsDriveSync, fDrvSyncBuf);
test_KErrNone(r);
if(fDrvSyncBuf())
test.Printf(_L("The drive is Synchronous.\n"));
else
test.Printf(_L("The drive is Asynchronous.\n"));
//-----------------
// if Fat, testing returning sub type name
if (fsName.CompareF(KFileSystemName_FAT)==0)
{
test_KErrNone(r);
test(subName().CompareF(KFSSubType_FAT12)==0 ||
subName().CompareF(KFSSubType_FAT16)==0 ||
subName().CompareF(KFSSubType_FAT32)==0);
continue;
}
// if Lffs, testing returning file system name
if (fsName.CompareF(_L("Lffs"))==0)
{
test_KErrNone(r);
test(subName().CompareF(_L("Lffs"))==0);
continue;
}
// if rofs, testing returning file system name
if (fsName.CompareF(_L("rofs"))==0)
{
test_KErrNone(r);
test(subName().CompareF(_L("rofs"))==0);
continue;
}
// if Composite, testing returning file system name
if (fsName.CompareF(_L("Composite"))==0)
{
test_KErrNone(r);
test(subName().CompareF(_L("Composite"))==0);
continue;
}
// else
test_KErrNone(r);
test(subName().Length()!=0);
}
}
}
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID PBASE-t_fsys-0318
//! @SYMTestType CIT
//! @SYMPREQ CR0882
//! @SYMTestCaseDesc This test case is testing querying file system's cluster size using
//! RFs::QueryVolumeInfoExt() API.
//! @SYMTestActions 1 querys cluster size of file system on volumes mounted with 'Fat' file system
//! 2 querys cluster size of file system on volumes mounted with 'Lffs' file system
//! 3 querys cluster size of file system on volumes mounted with other file systems
//! @SYMTestExpectedResults
//! 1 returned error code should be KErrNone, cluster size should be non-zero
//! 2 returned error code should be KErrNone, cluster size should be 512
//! 3 returned error code should be KErrNone, cluster size should be KErrNotSupported
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
static void TestFileSystemClusterSizeQuery()
{
test.Next(_L("Test querying cluster size information of the mounted file system"));
TFullName fsName;
TPckgBuf<TVolumeIOParamInfo> ioInfo;
TInt i, r;
TDriveInfo driveInfo;
for(i = EDriveA; i <= EDriveZ; ++i)
{
r = TheFs.FileSystemName(fsName, i);
if (r == KErrNone)
{
test.Printf(_L("Tested on drive: %c.\n"), (char)(i+'A'));
r=TheFs.Drive(driveInfo, i);
test_KErrNone(r);
// if no media present
if (driveInfo.iType==EMediaNotPresent)
{
r = TheFs.QueryVolumeInfoExt(i, EIOParamInfo, ioInfo);
test_Value(r, r == KErrNone || r == KErrNotReady);
}
else if (driveInfo.iType==EMediaCdRom)
{
test.Printf(_L("CD ROM with no media!\n"));
r = TheFs.QueryVolumeInfoExt(i, EIOParamInfo, ioInfo);
test_Value(r, r == KErrNone || r == KErrNotReady);
}
else
{
r = TheFs.QueryVolumeInfoExt(i, EIOParamInfo, ioInfo);
test(KErrNone == r);
// if Fat
if (fsName.CompareF(KFileSystemName_FAT)==0)
{
test(ioInfo().iClusterSize != 0);
continue;
}
// else if Lffs
if (fsName.CompareF(_L("Lffs"))==0)
{
TBusLocalDrive drive;
TBool changeFlag = EFalse;
TInt locDriveNumber;
TLocalDriveCaps DriveCaps;
TLocalDriveCapsV7 DriveCapsV7;
for(locDriveNumber = 0; locDriveNumber < KMaxLocalDrives; locDriveNumber++)
{
r = drive.Connect(locDriveNumber,changeFlag);
if(r==KErrNone)
{
TPckg<TLocalDriveCaps> capsPckg(DriveCaps);
r=drive.Caps(capsPckg);
if((r==KErrNone) && (DriveCaps.iFileSystemId==KDriveFileSysLFFS))
{
break;
}
drive.Disconnect();
}
}
TPckg<TLocalDriveCapsV7> capsPckg(DriveCapsV7);
r=drive.Caps(capsPckg);
test_KErrNone(r);
drive.Disconnect();
if(DriveCapsV7.iObjectModeSize == 0)
{
test(ioInfo().iClusterSize == 512);
continue;
}
else
{
test((TUint32)(ioInfo().iClusterSize) == DriveCapsV7.iObjectModeSize);
continue;
}
}
// else
//-- we can not suggest anything about unknown filesystem, thus do not check the result.
//test(ioInfo().iClusterSize == KErrNotSupported);
}
}
}
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID PBASE-t_fsys-0319
//! @SYMTestType CIT
//! @SYMPREQ CR0882
//! @SYMTestCaseDesc This test case is testing querying block size of underlying media using
//! RFs::QueryVolumeInfoExt() API.
//! @SYMTestActions 1 querys block size on volumes mounted with MMC card type of media
//! 2 querys block size on volumes mounted with RAM type of media
//! 3 querys block size on volumes mounted with NOR flash type of media
//! 4 querys block size on volumes mounted with Nand flash (code) type of media
//! 5 querys block size on volumes mounted with Nand flash (data) type of media
//! @SYMTestExpectedResults
//! 1 returned error code should be KErrNone, block size should be 512
//! 2 returned error code should be KErrNone, block size should be KDefaultVolumeBlockSize
//! 3 returned error code should be KErrNone, block size should be KDefaultVolumeBlockSize
//! 4 returned error code should be KErrNone, block size should be 512
//! 5 returned error code should be KErrNone, block size should be 512
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
static void TestMediaBlockSizeQuery()
{
test.Next(_L("Test querying block size information of the underlying media"));
#if defined(__WINS__)
test.Printf(_L("This test case runs on hardware only"));
return;
#else // test runs on hardware only.
TFSName fsName;
TPckgBuf<TVolumeIOParamInfo> ioInfo;
TInt i, r;
TDriveInfo driveInfo;
for(i = EDriveA; i <= EDriveZ; ++i)
{
r = TheFs.FileSystemName(fsName, i);
if (r == KErrNone)
{
test.Printf(_L("Tested on drive: %c.\n"), (char)(i+'A'));
r=TheFs.Drive(driveInfo, i);
test_KErrNone(r);
// if no media present
if (driveInfo.iType==EMediaNotPresent)
{
r = TheFs.QueryVolumeInfoExt(i, EIOParamInfo, ioInfo);
test_Value(r, r == KErrNone || r == KErrNotReady);
}
else if (driveInfo.iType==EMediaCdRom)
{
test.Printf(_L("CD ROM with no media will report not ready!\n"));
r = TheFs.QueryVolumeInfoExt(i, EIOParamInfo, ioInfo);
test_Value(r, r == KErrNotReady);
}
else
{
r = TheFs.QueryVolumeInfoExt(i, EIOParamInfo, ioInfo);
test(KErrNone == r);
// if MMC, test block size >= 512;
// (Version 4.3 MMC cards introduce the concept of a "Super Page" which should be used as
// guide when calculating the cluster size. For these cards the reported block size may be
// any multiple of 512).
if ((driveInfo.iType == EMediaHardDisk) &&
(driveInfo.iDriveAtt & KDriveAttRemovable) &&
(driveInfo.iDriveAtt & KDriveAttLocal))
{
test(ioInfo().iBlockSize >= 512);
continue;
}
// if RAM, test block size == 1;
if ((driveInfo.iType == EMediaRam) &&
(driveInfo.iDriveAtt & KDriveAttLocal) &&
(driveInfo.iDriveAtt & KDriveAttInternal))
{
test(ioInfo().iBlockSize == 1);
continue;
}
// if NOR flash, test block size == 512 (default block size);
if ((driveInfo.iType == EMediaFlash) &&
(driveInfo.iDriveAtt & KDriveAttLocal) &&
(driveInfo.iDriveAtt & KDriveAttInternal))
{
TBusLocalDrive drive;
TBool changeFlag = EFalse;
TInt locDriveNumber;
TLocalDriveCaps DriveCaps;
TLocalDriveCapsV7 DriveCapsV7;
for(locDriveNumber = 0; locDriveNumber < KMaxLocalDrives; locDriveNumber++)
{
r = drive.Connect(locDriveNumber,changeFlag);
if(r==KErrNone)
{
TPckg<TLocalDriveCaps> capsPckg(DriveCaps);
r=drive.Caps(capsPckg);
if((r==KErrNone) && (DriveCaps.iFileSystemId==KDriveFileSysLFFS))
{
break;
}
drive.Disconnect();
}
}
TPckg<TLocalDriveCapsV7> capsPckg(DriveCapsV7);
r=drive.Caps(capsPckg);
test_KErrNone(r);
if ((fsName.CompareF(_L("Lffs"))==0) && (DriveCapsV7.iObjectModeSize != 0))
{
test(ioInfo().iBlockSize == (TInt) DriveCapsV7.iObjectModeSize);
continue;
}
else
{
test(ioInfo().iBlockSize == (TInt) KDefaultVolumeBlockSize);
continue;
}
}
// if Nand flash (with Fat file system), test block size == 512 (small-block) or 2048 (large-block)
if ((driveInfo.iType == EMediaNANDFlash) &&
(driveInfo.iDriveAtt & KDriveAttLocal) &&
(driveInfo.iDriveAtt & KDriveAttInternal))
{
test(ioInfo().iBlockSize == 512 || ioInfo().iBlockSize == 2048);
continue;
}
}
}
}
#endif // __WINS__
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID PBASE-t_fsys-0320
//! @SYMTestType CIT
//! @SYMPREQ CR0882
//! @SYMTestCaseDesc This test case is testing wrapper API RFs::FileSystemSubType() has the same
//! behaviours as RFs::QueryVolumeInfoExt()
//! @SYMTestActions 1 querys file system sub type name by both APIs
//! @SYMTestExpectedResults
//! 1 returned error codes and descriptors of both API should be identical
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
static void TestFileSystemSubType()
{
test.Next(_L("Test wrapper API RFs::FileSystemSubType()'s behaviour"));
TFSName fsName;
TPckgBuf<TFSName> subName;
TInt r;
TFSName subName1;
TInt r1;
for(TInt i = EDriveA; i <= EDriveZ; ++i)
{
r = TheFs.FileSystemName(fsName, i);
if (r == KErrNone)
{
test.Printf(_L("Tested on drive: %c.\n"), (char)(i+'A'));
r = TheFs.QueryVolumeInfoExt(i, EFileSystemSubType, subName);
r1 = TheFs.FileSystemSubType(i, subName1);
test_Value(r, r == r1);
if (subName().Length())
{
test(subName().CompareF(subName1)==0);
}
else
{
test(subName1.Length()==0);
}
}
}
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID PBASE-t_fsys-0321
//! @SYMTestType CIT
//! @SYMPREQ CR0882
//! @SYMTestCaseDesc This test case is testing wrapper API RFs::VolumeIOParam() has the same
//! behaviours as RFs::QueryVolumeInfoExt()
//! @SYMTestActions 1 querys volume IO params by both APIs
//! @SYMTestExpectedResults
//! 1 returned error codes and IO param values of both API should be identical
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
static void TestVolumeIOParam()
{
test.Next(_L("Test wrapper API RFs::VolumeIOParam()'s behaviour"));
TFSName fsName;
TPckgBuf<TVolumeIOParamInfo> ioInfo;
TInt r;
TVolumeIOParamInfo ioInfo1;
TInt r1;
for(TInt i = EDriveA; i <= EDriveZ; ++i)
{
r = TheFs.FileSystemName(fsName, i);
if (r == KErrNone)
{
test.Printf(_L("Tested on drive: %c.\n"), (char)(i+'A'));
r = TheFs.QueryVolumeInfoExt(i, EIOParamInfo, ioInfo);
r1 = TheFs.VolumeIOParam(i, ioInfo1);
test_Value(r, r == r1);
test(ioInfo().iBlockSize == ioInfo1.iBlockSize);
test(ioInfo().iClusterSize == ioInfo1.iClusterSize);
test(ioInfo().iRecReadBufSize == ioInfo1.iRecReadBufSize);
test(ioInfo().iRecWriteBufSize == ioInfo1.iRecWriteBufSize);
}
}
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID PBASE-t_fsys-0322
//! @SYMTestType CIT
//! @SYMPREQ CR0882
//! @SYMTestCaseDesc This test case is testing RFs::QueryVolumeInfoExt() API on a testing file system
//! @SYMTestActions 0 mounts testing file system on a certain drive
//! 1 querys file system's sub type name on the drive under testing
//! 2 querys file system's cluster size on the drive under testing
//! @SYMTestExpectedResults
//! 1 returned error code should be KErrNone, sub type name should match 'Test3SubType'
//! 2 returned error code should be KErrNone, cluster size should equal 1024
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
static void TestQueryVolumeInfoExtOnTestFS(TInt aDrive)
{
if (aDrive==EDriveC) // Can't test on C:
return;
TInt r;
test.Printf(_L("Tested on drive: %c.\n"), (char)(aDrive+'A'));
// Mount a new CTestFileSystem on the drive under test
test.Next(_L("Test RFs::QueryVolumeInfoExt() on Testing File System"));
r = TheFs.AddFileSystem(_L("T_TFSYS3"));
if (r != KErrNone && r != KErrAlreadyExists)
{
test.Printf(_L("error=%d"),r);
test(EFalse);
}
TFSName oldFs;
r = TheFs.FileSystemName(oldFs,aDrive);
test_KErrNone(r);
r = TheFs.DismountFileSystem(oldFs,aDrive);
if (r != KErrNone)
{
test.Printf(_L("Error = %d"),r);
test(EFalse);
}
r = TheFs.MountFileSystem(_L("Test3"),aDrive);
test_KErrNone(r);
TFSName newFs;
r = TheFs.FileSystemName(newFs,aDrive);
test_KErrNone(r);
test(newFs.Compare(_L("Test3"))==0);
// Sub type name query:
TPckgBuf<TFSName> subNameP;
r = TheFs.QueryVolumeInfoExt(aDrive, EFileSystemSubType, subNameP);
test_KErrNone(r);
test(subNameP() == _L("Test3SubType"));
// Cluster size querys:
TPckgBuf<TVolumeIOParamInfo> ioInfoP;
r = TheFs.QueryVolumeInfoExt(aDrive, EIOParamInfo, ioInfoP);
test_KErrNone(r);
test(ioInfoP().iClusterSize==1024);
// Mount the original file system back
r=TheFs.DismountFileSystem(newFs,aDrive);
test_KErrNone(r);
r=TheFs.MountFileSystem(oldFs,aDrive);
test_KErrNone(r);
r=TheFs.RemoveFileSystem(_L("Test3"));
if(r!=KErrNone)
{
test.Printf(_L("error=%d"),r);
test(EFalse);
}
}
//----------------------------------------------------------------------------------------------
/**
Test remounting the file system with objects opened.
scenario:
1. create a file
2. open it.
3. forcedly remount the file system
4. read this file (this will imply remounting the filesystem)
*/
static void TestRemountFSWithOpenedObjects()
{
test.Next(_L("Testing forcedly remounting FS with objects opened.\n"));
TInt nRes;
//-- 1. create a file
_LIT(KFile, "\\test_file.file");
const TUint KFileSz = 5000;
nRes = CreateCheckableStuffedFile(TheFs, KFile, KFileSz);
test_KErrNone(nRes);
RFile file;
//-- 2. open this file
nRes = file.Open(TheFs, KFile, EFileRead);
test_KErrNone(nRes);
const TInt drvNumber = CurrentDrive();
//-- 2.1 try to dismount the FS, it must fail because of the opened object.
TBuf<40> fsName;
nRes = TheFs.FileSystemName(fsName, drvNumber);
test_KErrNone(nRes);
nRes = TheFs.DismountFileSystem(fsName, drvNumber);
test_Value(nRes, nRes == KErrInUse);
// Flag from locmedia.h to simulate ejecting and re-inserting the media.
const TUint KMediaRemountForceMediaChange = 0x00000001;
TRequestStatus changeStatus;
TheFs.NotifyChange(ENotifyAll, changeStatus);
TDriveInfo driveInfo;
//-- 3. forcedly remount the drive
nRes = TheFs.RemountDrive(drvNumber, NULL, KMediaRemountForceMediaChange);
if(nRes == KErrNotSupported)
{//-- this feature is not supported and the test is inconsistent.
test.Printf(_L("RemountDrive() is not supported, the test is inconsistent!"));
//-- remounting must work at least on MMC drives
const TBool isFAT = Is_Fat(TheFs, drvNumber);
nRes = TheFs.Drive(driveInfo, drvNumber);
test_KErrNone(nRes);
test_Value(driveInfo.iDriveAtt, !isFAT || (!(driveInfo.iDriveAtt & KDriveAttRemovable)));
}
else
{
test_Value(nRes, nRes == KErrNotReady || nRes == KErrNone);
//-- 3.1 wait for media change to complete
do
{
// Waiting for media change...
User::WaitForRequest(changeStatus);
nRes = TheFs.Drive(driveInfo, drvNumber);
TheFs.NotifyChange(ENotifyAll, changeStatus);
}
while (nRes == KErrNotReady);
test_KErrNone(nRes);
User::After(1000*K1mSec); // Wait 1 sec (needed by certain platforms)
}
TheFs.NotifyChangeCancel(changeStatus);
//-- 4. read this file. The FS will be remounted and the read must be OK.
TBuf8<40> buf;
nRes = file.Read(0, buf, 30);
test_KErrNone(nRes);
file.Close();
//-- 5. verify the file, just in case.
nRes = VerifyCheckableFile(TheFs, KFile);
test_KErrNone(nRes);
//-- 6. delete the file
TheFs.Delete(KFile);
}
//----------------------------------------------------------------------------------------------
static void TestFileSystem_MaxSupportedFileSizeQuery()
{
test.Next(_L("Test querying max. supported file size on this file system"));
TFullName fsName;
TPckgBuf<TVolumeIOParamInfo> ioInfo;
TVolumeIOParamInfo& volInfo = ioInfo();
const TInt drvNo=CurrentDrive();
TInt nRes;
nRes = TheFs.FileSystemName(fsName, drvNo);
test_KErrNone(nRes);
nRes = TheFs.QueryVolumeInfoExt(drvNo, EIOParamInfo, ioInfo);
test_KErrNone(nRes);
test.Printf(_L("FS:'%S' Max File Size:0x%LX\n"), &fsName, volInfo.iMaxSupportedFileSize);
if(volInfo.iMaxSupportedFileSize == KMaxTUint64)
{
test.Printf(_L("Max File Size query isn't supported by this FS\n"));
}
//-- check the value for FAT FS only.
if(Is_Fat(TheFs, drvNo))
{
test(volInfo.iMaxSupportedFileSize == KMaxSupportedFatFileSize);
}
}
//----------------------------------------------------------------------------------------------
GLDEF_C void CallTestsL()
//
// Do all tests
//
{
//-- set up console output
Fat_Test_Utils::SetConsole(test.Console());
TInt drive=CurrentDrive();
PrintDrvInfo(TheFs, drive);
//Do not run this test on the NAND drive, as
//this has the FTL mounted as a primary extension
//which causes the test to fail
#if defined(__WINS__)
if (drive==EDriveU)
return;
#else
TDriveInfo driveInfo;
TheFs.Drive(driveInfo,drive);
if (driveInfo.iType == EMediaNANDFlash)
{
return;
}
#endif
//---------------------------------------
TestFileSystemNames();
TestDismountFileSystem(CurrentDrive());
#if defined(__EPOC32__)
TestFileSystem(CurrentDrive());
#endif
TestMountInvalidDrive();
TestMountingBrokenMedia(CurrentDrive());
TestSubstDriveMediaSerialNumber();
TestFileSystemSubTypeQuery();
TestFileSystemClusterSizeQuery();
TestMediaBlockSizeQuery();
TestFileSystemSubType();
TestVolumeIOParam();
TestQueryVolumeInfoExtOnTestFS(CurrentDrive());
TestFileSystem_MaxSupportedFileSizeQuery();
TestRemountFSWithOpenedObjects();
}