// 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:
//
#include <f32file.h>
#include <e32test.h>
#include <e32svr.h>
#include <e32math.h>
#include "fat_utils.h"
#include "t_server.h"
#include "t_chlffs.h"
using namespace Fat_Test_Utils;
RTest test(_L("t_falsespace"));
const TInt KNumberThreads=2;
const TInt KHeapSize=0x2000;
static TInt RsrvSpaceThread(TAny* aArg);
static TInt SessCloseThread(TAny* aArg);
static void GetFreeDiskSpace(TInt64 &aFree);
TInt gCount; //count of files used to fill up the disk
TInt gTestDrive; //drive number of the drive currently being tested
TChar gCh;
_LIT(KBasePath,"\\F32-TST\\FILLDIR\\");
_LIT(KBaseName,"\\F32-TST\\FILLDIR\\FILE");
_LIT(KTestFile,"?:\\test.txt");
_LIT8(KTestData, "12345678123456781234567812345678123456781234567812345678123456781234567812345678123456781234567812345678123456781234567812345678");
_LIT(KDir, "?:\\adodgydir\\");
_LIT(KDrv,"?:\\");
_LIT(KNewName,"?:\\newname.txt");
void FormatDrive()
{
TInt nRes;
#if 0
//-- FAT32 SPC:1; for the FAT32 testing on the emulator
TFatFormatParam fp;
fp.iFatType = EFat32;
fp.iSecPerCluster = 1;
nRes = FormatFatDrive(TheFs, gTestDrive, ETrue, &fp);
#else
nRes = FormatFatDrive(TheFs, gTestDrive, ETrue);
#endif
test(nRes == KErrNone);
}
void SynchronousClose(RFs &aSession)
{
TRequestStatus s;
aSession.NotifyDestruction(s);
test(s.Int()==KRequestPending);
aSession.Close();
User::WaitForRequest(s);
}
static TInt CreateFileX(const TDesC& aBaseName,TInt aX, TInt aFileSize)
//
// Create a large file. Return KErrEof or KErrNone
//
{
TBuf<128> fileName=aBaseName;
fileName.AppendNum(aX);
RFile file;
TInt r=file.Replace(TheFs,fileName,EFileWrite);
if (r==KErrDiskFull)
return(r);
if (r!=KErrNone)
{
test.Printf(_L("ERROR:: Replace returned %d\n"),r);
test(0);
return(KErrDiskFull);
}
if (!IsTestingLFFS())
r=file.SetSize(aFileSize);
else
{
TBuf8<1024> testdata(1024);
TInt count=(aFileSize/testdata.Length());
r=KErrNone;
while (count-- && r==KErrNone)
r=file.Write(testdata);
}
if (r==KErrDiskFull)
{
file.Close();
return(r);
}
if (r!=KErrNone)
{
test.Printf(_L("ERROR:: SetSize/Write returned %d\n"),r);
test(0);
//test.Getch();
file.Close();
return(KErrDiskFull);
}
file.Close();
test.Printf(_L("Created file %d size %d\n"),aX,aFileSize);
return(KErrNone);
}
LOCAL_C TInt DeleteFileX(const TDesC& aBaseName,TInt aX)
//
// Delete a large file
//
{
TBuf<128> fileName=aBaseName;
fileName.AppendNum(aX);
return TheFs.Delete(fileName);
}
static void FillUpDisk()
//
// Test that a full disk is ok
//
{
test.Start(_L("Fill disk to capacity"));
TInt r=TheFs.MkDirAll(KBasePath);
test(r==KErrNone || r==KErrAlreadyExists);
gCount=0;
TFileName sessionPath;
r=TheFs.SessionPath(sessionPath);
test(r==KErrNone);
TBuf<128> fileName=KBaseName();
TInt64 freespace=0;
TInt64 freespaceBeforeScanDrive = 0;
TInt64 freespaceAfterScanDrive = 0;
do
{
GetFreeDiskSpace(freespace);
TInt fillfilesize=0;
if (I64HIGH(freespace))
fillfilesize=KMaxTInt;
else
fillfilesize=I64LOW(freespace)* 7/8;
FOREVER
{
TInt r=CreateFileX(fileName,gCount,fillfilesize);
if (r==KErrDiskFull)
{
if(fillfilesize <= 2)
break;
else
fillfilesize=fillfilesize/2;
}
test(r==KErrNone || r==KErrDiskFull);
if(r==KErrNone)
gCount++;
}
r=TheFs.CheckDisk(fileName);
if (r!=KErrNone && r!=KErrNotSupported)
{
test.Printf(_L("ERROR:: CheckDisk returned %d\n"),r);
test(0);
}
// Test that scan drive passes on a full disk
// DEF071696 - KErrCorrupt on Scan Drive
GetFreeDiskSpace(freespaceBeforeScanDrive);
test.Printf(_L("Before ScanDrive freeSpace = %08X:%08X\n"),
I64HIGH(freespaceBeforeScanDrive), I64LOW(freespaceBeforeScanDrive));
r = TheFs.ScanDrive(fileName);
if (r!=KErrNone && r!=KErrNotSupported)
{
test.Printf(_L("ScanDrive returned %d\n"), r);
test(0);
}
GetFreeDiskSpace(freespaceAfterScanDrive);
test.Printf(_L("After ScanDrive freeSpace = %08X:%08X\n"),
I64HIGH(freespaceAfterScanDrive), I64LOW(freespaceAfterScanDrive));
}
while (freespaceBeforeScanDrive != freespaceAfterScanDrive );
gCount--;
test.End();
}
static void GetFreeDiskSpace(TInt64 &aFree)
//
// Get free disk space
//
{
TVolumeInfo v;
TInt r=TheFs.Volume(v,gTestDrive);
test(r==KErrNone);
aFree=v.iFree;
}
static void Test1()
//
// Test the API fundamentaly works for one session
//
{
test.Next(_L("Test Disk Space reserve APIs"));
TInt r=0;
FormatDrive();
TInt64 free2;
TInt64 free1;
TInt64 diff;
r=TheFs.GetReserveAccess(gTestDrive);
test(r==KErrPermissionDenied);
//make sure nothing odd happens if we didnt already have access
r=TheFs.ReleaseReserveAccess(gTestDrive);
test(r==KErrNone);
GetFreeDiskSpace(free2);
r=TheFs.ReserveDriveSpace(gTestDrive,0x1000);
test(r==KErrNone);
GetFreeDiskSpace(free1);
diff = free2 - free1;
test(I64INT(diff) > 0xfe0 && I64INT(diff) < 0x1100);
r=TheFs.GetReserveAccess(gTestDrive);
test(r==KErrNone);
GetFreeDiskSpace(free1);
TInt64 temp = free2-free1;
test(I64INT(temp)>(-0x90) && I64INT(temp)<0x90);
r=TheFs.ReleaseReserveAccess(gTestDrive);
test(r==KErrNone);
GetFreeDiskSpace(free1);
diff = free2 - free1;
test(I64INT(diff) > 0xfe0 && I64INT(diff) < 0x1100);
//test reallocation of reserved space is possible
r=TheFs.ReserveDriveSpace(gTestDrive,0x2000);
test(r==KErrNone);
//test upper limit of reserved space
r=TheFs.ReserveDriveSpace(gTestDrive,0x2000000);
test(r==KErrArgument);
r=TheFs.ReserveDriveSpace(gTestDrive,0);
test(r==KErrNone);
r=TheFs.GetReserveAccess(gTestDrive);
test(r==KErrPermissionDenied);
//make sure nothing odd happens if we didnt already have access
r=TheFs.ReleaseReserveAccess(gTestDrive);
test(r==KErrNone);
r=TheFs.ReserveDriveSpace(gTestDrive,-45);
test(r==KErrArgument);
}
static void Test2()
//
// Test multiple sessions, ensure the drive limit is not exceeded
//
{
test.Next(_L("Test Session and total reserve limits"));
FormatDrive();
TInt i=0;
TInt r=0;
RFs sessions[17];
TVolumeInfo v;
//Connect Sessions
for(i=0; i<17; i++)
{
r = sessions[i].Connect();
test(r==KErrNone);
}
test.Next(_L("Test breaching sesson reserve limit"));
r=sessions[0].ReserveDriveSpace(gTestDrive,0x10001);
test(r==KErrArgument);
//Get Volume Free Space
r = sessions[0].Volume(v, gTestDrive);
if(v.iFree > 0x100000)
{
test.Next(_L("Test breaching drive reserve limit"));
for (i=0; i<16; i++)
{
r=sessions[i].ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrNone);
}
//The straw
r=sessions[16].ReserveDriveSpace(gTestDrive,0x10);
test(r==KErrTooBig);
}
else
{
test.Printf(_L("Drive too small: breaching drive reserve limit test skipped\n"));
test.Next(_L("Testing exhausting available drive free space instead"));
for(i=0; (v.iFree -= 0x10000) >= 0; i++)
{
r=sessions[i].ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrNone);
}
//The straw
r=sessions[i].ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrDiskFull);
}
//Close Sessions
for(i=0; i<17; i++)
{
SynchronousClose(sessions[i]);
}
}
static void Test3()
//
// Test session cleanup
//
{
test.Next(_L("Test session close and clean up of resrved space"));
FormatDrive();
RFs fs1;
RFs fs2;
TInt64 free2(0);
TInt64 free1(0);
TInt64 diff(0);
TInt r=0;
r = fs1.Connect();
test(r==KErrNone);
r = fs2.Connect();
test(r==KErrNone);
GetFreeDiskSpace(free1);
r=fs1.ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrNone);
r=fs2.ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrNone);
GetFreeDiskSpace(free2);
diff = free1 - free2;
test(I64INT(diff)>0x1FBD0 && I64INT(diff)<0x21000);
SynchronousClose(fs1);
GetFreeDiskSpace(free2);
diff = free1-free2;
test(I64INT(diff)>0xFA00 && I64INT(diff)<0x103C4);
r = fs1.Connect();
test(r==KErrNone);
GetFreeDiskSpace(free1);
diff= free1-free2;
test(I64INT(diff)== 0 || I64INT(diff)<0xFA0 );
r=fs1.ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrNone);
GetFreeDiskSpace(free2);
diff = free1 - free2;
test(I64INT(diff)>0xFA00 && I64INT(diff)<0x103C4);
// Make sure no reserve space is allocated
r=fs1.ReserveDriveSpace(gTestDrive,0);
test(r==KErrNone);
r=fs2.ReserveDriveSpace(gTestDrive,0);
test(r==KErrNone);
// Now fill up the disk
FillUpDisk();
// Should fail as there is no space
r=fs1.ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrDiskFull);
SynchronousClose(fs1);
SynchronousClose(fs2);
}
static void Test4()
//
// Test real out of disk space conditions i.e. properly run out of disk space and try to
// reserve an area etc
//
{
test.Next(_L("Test Filling disk and using APIs"));
if(IsTestingLFFS())
{
//-- This test is not valid for LFFS, because free space on this FS can change itself because of some
//-- internal FS activities
test.Printf(_L("This test is inconsistent on LFFS\n"));
return;
}
FormatDrive();
RFs fs;
TInt r=fs.Connect();
test(r==KErrNone);
TInt64 freeA(0);
TInt64 freeB(0);
RFile file;
//start with known amount of space
//create a single file to use for futher tests
TBuf<20> buf;
buf=KTestFile;
buf[0]=(TUint16)gCh;
r=file.Replace(fs, buf, EFileWrite);
test(r==KErrNone);
r=file.Write(KTestData());
test(r==KErrNone);
file.Close();
r=fs.ReserveDriveSpace(gTestDrive,0x10000); //reserve some disk space
test(r==KErrNone);
FillUpDisk(); //fill up the disk
TVolumeInfo v; //get disk space
r=fs.Volume(v,gTestDrive);
test(r==KErrNone);
freeA=v.iFree;
r=fs.GetReserveAccess(gTestDrive); //get access to reserve space
test(r==KErrNone);
r=fs.Volume(v,gTestDrive); //get disk space
test(r==KErrNone);
freeB=v.iFree;
r=fs.ReleaseReserveAccess(gTestDrive); //release reserve space
test(r==KErrNone);
test(freeA == (freeB - 0x10000)); //test difference in space is equal to the amount reserved
r=fs.Volume(v,gTestDrive); //get disk space
test(r==KErrNone);
freeB=v.iFree;
test(freeA == freeB); //check reading is still correct
TBuf <20> dir = KDir();
dir[0]=(TUint16)gCh;
r=fs.MkDir(dir);
test(r==KErrDiskFull);
r=fs.MkDirAll(dir);
test(r==KErrDiskFull);
TFileName temp;
TBuf<5> drv = KDrv();
drv[0]=(TUint16)gCh;
r=file.Temp(fs, drv, temp, EFileWrite);
test(r==KErrDiskFull);
r=file.Replace(fs, buf, EFileWrite);
test(r==KErrDiskFull);
r=file.Create(fs, buf, EFileWrite);
test(r==KErrDiskFull);
r=file.Open(fs, buf, EFileWrite);
test(r==KErrNone);
r=file.Write(128, KTestData());
if ((gDriveCacheFlags & EFileCacheWriteOn) && (r == KErrNone))
r = file.Flush();
test(r==KErrDiskFull);
r=file.SetSize(0x1000);
test(r==KErrDiskFull);
r=file.SetAtt(KEntryAttHidden,0);
test(r==KErrDiskFull);
TTime dtime;
r=file.SetModified(dtime);
test(r==KErrDiskFull);
r=file.Set(dtime,KEntryAttHidden,0);
test(r==KErrDiskFull);
r=file.Rename(buf);
test(r==KErrDiskFull);
file.Close();
// Test that we can create a temporary file & write to it after acquiring reserved access,
r=fs.GetReserveAccess(gTestDrive); //get access to reserve space
test(r==KErrNone);
r=fs.Volume(v,gTestDrive); //get disk space
test(r==KErrNone);
freeA = v.iFree;
r=file.Temp(fs, drv, temp, EFileWrite);
test(r==KErrNone);
r = file.Write(KTestData());
test (r == KErrNone);
// If write caching is enabled, call RFs::Entry() to flush the file "anonymously"
if ((gDriveCacheFlags & EFileCacheWriteOn) && (r == KErrNone))
{
r = file.Flush();
test (r == KErrNone);
}
r=fs.Volume(v,gTestDrive); //get disk space
test(r==KErrNone);
freeB = v.iFree;
test (freeB < freeA);
file.Close();
r=fs.ReleaseReserveAccess(gTestDrive); //release reserve space
test(r==KErrNone);
TBuf<20> newname =KNewName();
newname[0]=(TUint16)gCh;
r=fs.Rename(buf, newname);
test(r==KErrDiskFull);
r=fs.Replace(buf, newname);
test(r==KErrDiskFull);
r=fs.SetEntry(buf, dtime, KEntryAttHidden, 0);
test(r==KErrDiskFull);
r=fs.CreatePrivatePath(gTestDrive);
test(r==KErrDiskFull);
r=fs.SetVolumeLabel(_L("Moooo"), gTestDrive);
test(r==KErrDiskFull);
r=fs.SetModified(buf, dtime);
test(r==KErrDiskFull);
SynchronousClose(fs);
}
static void Test5()
//
//
//
{
test.Next(_L("Test Session limits"));
if(IsTestingLFFS())
{
//-- This test is not valid for LFFS, because free space on this FS can change itself because of some
//-- internal FS activities
test.Printf(_L("This test is inconsistent on LFFS\n"));
return;
}
RFs fs1;
RFs fs2;
TInt r=KErrNone;
r=fs1.Connect();
test(r==KErrNone);
r=fs2.Connect();
test(r==KErrNone);
FormatDrive();
r=fs1.ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrNone);
r=fs2.ReserveDriveSpace(gTestDrive,0x10000);
test(r==KErrNone);
FillUpDisk();
r=fs1.GetReserveAccess(gTestDrive);
test(r==KErrNone);
TBuf<20> dir = KDir();
dir[0]=(TUint16)gCh;
r=fs2.MkDir(dir);
test(r==KErrDiskFull);
r=fs1.ReserveDriveSpace(gTestDrive,0); //can not release reserve space while you have reserve access
test(r==KErrInUse);
r=fs1.ReleaseReserveAccess(gTestDrive);
test(r==KErrNone);
r=fs1.ReserveDriveSpace(gTestDrive,0);
test(r==KErrNone);
r=fs2.MkDir(dir);
test(r==KErrNone);
SynchronousClose(fs1);
SynchronousClose(fs2);
}
static TInt RsrvSpaceThread(TAny* aArg)
{
TInt r=KErrNone;
TInt64 fr1;
TInt64 fr2;
TInt64 diff;
TVolumeInfo v;
r=((RFs*)aArg)->Volume(v,gTestDrive);
if(r!=KErrNone)
return(r);
fr1=v.iFree;
r=((RFs*)aArg)->ReserveDriveSpace(gTestDrive,0x10000);
if(r!=KErrNone)
return(r);
r=((RFs*)aArg)->Volume(v,gTestDrive);
if(r!=KErrNone)
return(r);
fr2=v.iFree;
diff=fr1-fr2;
if(!(I64INT(diff)> 0xef38 && I64INT(diff)<0xf100))
return(KErrGeneral);
return r;
}
static TInt SessCloseThread(TAny* aArg)
{
TInt r=KErrNone;
TInt64 fr1;
TInt64 fr2;
TInt64 diff;
TVolumeInfo v;
r=((RFs*)aArg)->Volume(v,gTestDrive);
if(r!=KErrNone)
return(r);
fr1=v.iFree;
((RFs*)aArg)->ReserveDriveSpace(gTestDrive,0x1000);
r=((RFs*)aArg)->Volume(v,gTestDrive);
if(r!=KErrNone)
return(r);
fr2=v.iFree;
diff=fr2-fr1;
if(!(I64INT(diff)> 0xef38 && I64INT(diff)<0xf100))
return(KErrGeneral);
SynchronousClose(*((RFs*)aArg));
return r;
}
static void Test6()
//
// Test sharabale session
//
{
test.Next(_L("Test sharable session"));
RFs fsess;
TInt r=KErrNone;
TInt64 free1(0);
TInt64 free2(0);
TInt64 diff(0);
RThread t[KNumberThreads];
TRequestStatus tStat[KNumberThreads];
r=fsess.Connect();
test(r==KErrNone);
FormatDrive();
r= fsess.ShareAuto();
test(r==KErrNone);
GetFreeDiskSpace(free1);
fsess.ReserveDriveSpace(gTestDrive,0x1000);
r = t[0].Create(_L("Sub_Thread1"),RsrvSpaceThread,KDefaultStackSize,KHeapSize,KHeapSize,&fsess);
test(r==KErrNone);
t[0].Rendezvous(tStat[0]);
t[0].Resume();
User::WaitForRequest(tStat[0]);
t[0].Close();
test(tStat[0]==KErrNone);
r = t[1].Create(_L("Sub_Thread2"),SessCloseThread,KDefaultStackSize,KHeapSize,KHeapSize,&fsess);
test(r==KErrNone);
t[1].Rendezvous(tStat[1]);
t[1].Resume();
User::WaitForRequest(tStat[1]);
t[1].Close();
test(tStat[1]==KErrNone);
GetFreeDiskSpace(free2);
diff = free1-free2;
test(I64INT(diff)== 0 || I64INT(diff)<0xFA0 );
}
static void Test7()
//
// Tests notifier events for sessions with and without reserved access
//
{
if(IsTestingLFFS())
{
// This test is not valid for LFFS...
test.Printf(_L("Test reserved access notification not run for LFFS\n"));
return;
}
test.Next(_L("Test reserved access notification"));
FormatDrive();
RFs theNrm;
RFs theRes;
TInt err = theNrm.Connect();
test(KErrNone == err);
err = theRes.Connect();
test(KErrNone == err);
TInt64 freeSpace(0);
GetFreeDiskSpace(freeSpace);
RFs theTestSession;
theTestSession.Connect();
_LIT(KFileFiller, "?:\\t_falseSpaceFiller");
TBuf<25> fileName;
fileName = KFileFiller;
fileName[0] = (TUint16)gCh;
err = theTestSession.Connect();
test(err == KErrNone);
// determine the cluster size
RFile theFile;
err=theFile.Replace(theTestSession, fileName, EFileShareAny | EFileWrite);
test(err==KErrNone);
// Neither notifier should be triggered here
err = theFile.SetSize(1);
test(KErrNone == err);
theFile.Close();
TInt64 newFreeSpace;
GetFreeDiskSpace(newFreeSpace);
TInt clusterSize = TInt(freeSpace - newFreeSpace);
theTestSession.Delete(fileName);
GetFreeDiskSpace(newFreeSpace);
test (newFreeSpace == freeSpace);
TInt resSpace = Max(0x1000, clusterSize);
TVolumeInfo volInfo;
theNrm.Volume(volInfo, gTestDrive);
test(volInfo.iFree == freeSpace);
err = theRes.ReserveDriveSpace(gTestDrive, resSpace);
test(KErrNone == err);
err = theRes.GetReserveAccess(gTestDrive);
test(KErrNone == err);
theRes.Volume(volInfo, gTestDrive);
test(volInfo.iFree == freeSpace);
theNrm.Volume(volInfo, gTestDrive);
test(volInfo.iFree == freeSpace - resSpace);
//
// Register the notifiers and verify that the only the "Normal"
// and not the "Reserved" session is triggered.
//
TRequestStatus statNrm;
TRequestStatus statRes;
TInt64 threshold(freeSpace - resSpace*2);
theNrm.NotifyDiskSpace(threshold, gTestDrive, statNrm);
theRes.NotifyDiskSpace(threshold, gTestDrive, statRes);
test((statNrm == KRequestPending) && (statRes == KRequestPending));
//
// Main part of the test starts here.
// First we create a new file, then we increase its size to cause the
// "Normal" notifier to trigger but not the "Reserved" notifier
//
err=theFile.Replace(theTestSession, fileName, EFileShareAny | EFileWrite);
test(err==KErrNone);
test((statNrm == KRequestPending) && (statRes == KRequestPending));
// Neither notifier should be triggered here
err = theFile.SetSize(resSpace);
test(KErrNone == err);
test((statNrm == KRequestPending) && (statRes == KRequestPending));
// This should trigger the "Normal" notifier, but not the "Reserved" one
err = theFile.SetSize(2*resSpace);
test(KErrNone == err);
test((statNrm == KErrNone) && (statRes == KRequestPending));
//
// Reset the "Normal" notifier then increase the amount of reserved space
// on the drive. This should re-trigger the "Normal" notifier but leave
// the "Reserved" notifier untouched.
//
theNrm.NotifyDiskSpace(threshold - resSpace, gTestDrive, statNrm);
test((statNrm == KRequestPending) && (statRes == KRequestPending));
err = theTestSession.ReserveDriveSpace(gTestDrive, resSpace * 3);
if (err != KErrArgument) // will have exceeded limit if resSpace = 32K
{
test(err == KErrNone);
test((statNrm == KErrNone) && (statRes == KRequestPending));
}
//
// All done - tidy up.
//
theFile.Close();
theTestSession.Delete(fileName);
theTestSession.Close();
theNrm.Close();
theRes.Close();
}
LOCAL_C void TestForDEF142554()
{
test.Next(_L("Test for DEF142554: test RFile::Modified and RFile::Att when disk full"));
Format(gTestDrive);
TUint att;
TTime time;
RFs fs;
TInt err = fs.Connect();
test(err == KErrNone);
RFile file;
TBuf<20> fileName;
fileName = KTestFile;
fileName[0] = (TUint16)gCh;
err = fs.ReserveDriveSpace(gTestDrive,0x10000);
test(err == KErrNone);
err = file.Replace(fs, fileName, EFileWrite);
test(err == KErrNone);
err = file.Write(KTestData);
test(err == KErrNone);
err = file.Flush();
test(err == KErrNone);
file.Close();
err = file.Open(fs, fileName, EFileRead);
test(err == KErrNone);
err = file.Att(att);
test(err == KErrNone);
err = file.Modified(time);
test(err == KErrNone);
file.Close();
FillUpDisk();
err = file.Open(fs, fileName, EFileRead);
test(err == KErrNone);
TUint att1;
err = file.Att(att1);
test(err == KErrNone);
test(att1 == att);
TTime time1;
err = file.Modified(time1);
test(err == KErrNone);
test(time1 == time);
file.Close();
fs.Close();
}
//-----------------------------------------------------------------------------
/**
test creation of the the file that crosses 4G boundary on the FAT media
*/
static void TestFAT4G_Boundary()
{
const TInt64 K4Gig = 4*(TInt64)K1GigaByte;
test.Next(_L("Test files crossing 4G boundary on FAT"));
if(!Is_Fat32(TheFs, gTestDrive))
{
test.Printf(_L("This test requires FAT32. Skipping.\n"));
return;
}
TVolumeInfo volInfo;
TInt nRes = TheFs.Volume(volInfo,gTestDrive);
test(nRes == KErrNone);
if(volInfo.iSize < K4Gig+K1MegaByte)
{
test.Printf(_L("This test requires volume > 4G. Skipping.\n"));
return;
}
//-- 1. format the volume
FormatDrive();
//-- find out media position of the data region start
TFatBootSector bootSector;
nRes = ReadBootSector(TheFs, gTestDrive, 0, bootSector);
test(nRes == KErrNone);
test(bootSector.IsValid());
const TInt64 dataStartPos = bootSector.FirstDataSector() << KDefaultSectorLog2;
const TInt64 lowRegion = K4Gig - dataStartPos - K1MegaByte;
//-- 2. create several empty files that take a bit less that 4gig
//-- the drive is freshly formatted and the files will expand linearry
_LIT(KBaseFN, "\\LargeFile");
const TInt MaxDummyFiles = 5;
const TUint32 DummyFileLen = (TUint32)(lowRegion / MaxDummyFiles);
TInt i;
for(i=0; i<MaxDummyFiles; ++i)
{
nRes = CreateFileX(KBaseFN, i, DummyFileLen);
test(nRes == KErrNone);
}
//-- 3. create a real file that crosses 4G boundary
nRes = CreateCheckableStuffedFile(TheFs, KBaseFN, 5*K1MegaByte);
test(nRes == KErrNone);
test.Printf(_L("Verifying the file that crosses 4G boundary.\n"));
nRes = VerifyCheckableFile(TheFs, KBaseFN);
test(nRes == KErrNone);
nRes = TheFs.Delete(KBaseFN);
test(nRes == KErrNone);
for(i=0; i<MaxDummyFiles; ++i)
{
nRes = DeleteFileX(KBaseFN, i);
test(nRes == KErrNone);
}
}
//-----------------------------------------------------------------------------
GLDEF_C void CallTestsL()
//
// Do tests relative to session path
//
{
//-- set up console output
Fat_Test_Utils::SetConsole(test.Console());
if (gSessionPath[0]=='C') //only test on non C drives
{
test.Printf(_L("TEST NOT RUN FOR THIS DRIVE"));
return;
}
if (UserSvr::DebugMask(2)&0x00000002) // TESTFAST mode set? (for automated test builds)
if(IsTestingLFFS())
{
// Don't run on LFFS (to increase speed of automated testing)
test.Printf(_L("TEST NOT RUN FOR THIS DRIVE"));
return;
}
//get the number of the drive we are currently testing
TInt r=0;
r=RFs::CharToDrive(gSessionPath[0],gTestDrive);
test(r==KErrNone);
r=RFs::DriveToChar(gTestDrive,gCh);
test(r==KErrNone);
//-- print drive information
PrintDrvInfo(TheFs, gTestDrive);
Test1(); //General test for new APIs
Test2(); //Test to ensure drive and session reserve limits are not exceeded
Test3();
Test4(); //test filling the drive and that each checked API fails
Test5();
Test6();
Test7();
TestForDEF142554();
Test2(); //run this test to check reserves are being cleared correctly
TestFAT4G_Boundary();
TurnAllocFailureOff();
}