// 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\b_open.cpp
//
//
#define __E32TEST_EXTENSION__
#include <f32file.h>
#include <e32test.h>
#include <e32hal.h>
#include <f32dbg.h>
#include "t_server.h"
#include "t_chlffs.h"
#ifdef __WINS__
#define WIN32_LEAN_AND_MEAN
#pragma warning( disable : 4201 ) // nonstandard extension used : nameless struct/union
#include <windows.h>
#pragma warning( default : 4201 ) // nonstandard extension used : nameless struct/union
#endif
GLDEF_D RTest test(_L("B_OPEN"));
LOCAL_D const TInt KMaxFiles=200;
LOCAL_D TBuf<32> nameBuf[KMaxFiles];
LOCAL_D TBuf<0x100> nameBuf1;
LOCAL_D RFile chan[KMaxFiles];
LOCAL_D RFile chan1;
LOCAL_D TFileName fBuf;
LOCAL_D TVolumeInfo vInfo;
LOCAL_D TInt LeaveMemFree;
LOCAL_C void testOpenFiles()
//
// Open files till memory is full
// Write, seek, read, seteof, close, check and delete all files.
//
{
TChar currentDrive=gSessionPath[0];
TInt driveNum;
TInt r=TheFs.CharToDrive(currentDrive,driveNum);
test_KErrNone(r);
TInt i=0;
TInt totalRam;
FOREVER
{
#if defined(__WINS__)
DWORD sectorsPerCluster;
DWORD bytesPerSector;
DWORD freeClusters;
DWORD sizeClusters;
BOOL b=GetDiskFreeSpaceA("C:\\",§orsPerCluster,&bytesPerSector,&freeClusters,&sizeClusters);
test(b==TRUE);
totalRam=sizeClusters*sectorsPerCluster*bytesPerSector;
#else
TMemoryInfoV1Buf memInfoBuf;
UserHal::MemoryInfo(memInfoBuf);
totalRam=memInfoBuf().iTotalRamInBytes;
#endif
test.Printf(_L("Open %u\n"),i);
nameBuf[i].Format(_L("B_OPEN test file %d"),i);
r=chan[i].Replace(TheFs,nameBuf[i],EFileStream|EFileWrite);
if (r==KErrNone)
{
r=chan[i].Write(_L8("SomeText"));
if ((gDriveCacheFlags & EFileCacheWriteOn) && (r == KErrNone))
r = chan[i].Flush();
if (r==KErrDiskFull)
{
chan[i].Close();
test(TheFs.Delete(nameBuf[i])==KErrNone);
}
}
if (r==KErrDiskFull)
break;
if (r==KErrNoMemory)
break;
if (r!=KErrNone)
{
test.Printf(_L("ERROR: RFile::Replace returned %d\n"),r);
test(EFalse);
}
r=TheFs.Volume(vInfo);
test_KErrNone(r);
if (driveNum==EDriveC)
test.Printf(_L("VInfo size=0x%x free=0x%x TotalRam = 0x%x\n"),vInfo.iSize,vInfo.iFree,totalRam);
test(vInfo.iFree<=vInfo.iSize);
// r=TheFs.Volume(vInfo,(driveNum==EDriveC) ? EDriveD : EDriveC);
// if (r==KErrNone);
// test(vInfo.iFree<=vInfo.iSize);
i++;
if (i==KMaxFiles)
{
if (IsTestingLFFS())
break;
else
test.Panic(_L("Too many files opened"));
}
}
test.Printf(_L("Created %d extra files\n"),i);
const TInt n_files=i;
r=TheFs.Volume(vInfo);
test_KErrNone(r);
if (driveNum==EDriveC && (vInfo.iDrive.iMediaAtt & KMediaAttVariableSize))
{
test(vInfo.iSize<=totalRam);
test(vInfo.iFree<=totalRam);
}
test(vInfo.iFree<=vInfo.iSize);
test.Next(_L("SetSize to each file"));
for (i=0;i<n_files;i++)
{
r=chan[i].SetSize(0);
test_KErrNone(r);
}
test.Next(_L("Write to each file"));
TBuf8<3> numBuf;
for (i=0;i<n_files;i++)
{
test.Printf(_L("Write %u\n"),i);
numBuf.Format(_L8("%d"),i);
r=chan[i].Write(0,numBuf);
test_KErrNone(r);
}
test.Next(_L("Seek on each file"));
for (i=0;i<n_files;i++)
{
test.Printf(_L("Seeking %u\n"),i);
TInt pos=0;
r=chan[i].Seek(ESeekStart,pos);
test_KErrNone(r);
}
test.Next(_L("Read from each file"));
TBuf8<3> checkBuf;
for (i=0;i<n_files;i++)
{
test.Printf(_L("Read %u\n"),i);
r=chan[i].Read(checkBuf,3);
test_KErrNone(r);
numBuf.Format(_L8("%d"),i);
test(numBuf==checkBuf);
}
test.Next(_L("Set size of each file"));
for (i=0;i<n_files;i++)
{
test.Printf(_L("Set size %u\n"),i);
r=chan[i].SetSize(i);
test_KErrNone(r);
}
r=TheFs.Volume(vInfo);
test_KErrNone(r);
if (driveNum==EDriveC && (vInfo.iDrive.iMediaAtt & KMediaAttVariableSize))
{
test(vInfo.iSize<=totalRam);
test(vInfo.iFree<=totalRam);
}
test(vInfo.iFree<=vInfo.iSize);
test.Next(_L("Close each file"));
for (i=0;i<n_files;i++)
{
test.Printf(_L("Close %u\n"),i);
chan[i].Close();
}
test.Next(_L("Open each file"));
TInt n_files_open;
for (n_files_open=0; n_files_open < n_files; n_files_open++)
{
r = chan[n_files_open].Open(TheFs,nameBuf[n_files_open],EFileRead|EFileStream);
test.Printf(_L("Open(%d) ret %d\n"), n_files_open, r);
if (r != KErrNone)
{
if (driveNum==EDriveC && (vInfo.iDrive.iMediaAtt & KMediaAttVariableSize))
break;
else
test(0);
}
}
test.Next(_L("Check size of each file"));
for (i=0;i<n_files_open;i++)
{
test.Printf(_L("Check %u\n"),i);
TInt size;
TInt r=chan[i].Size(size);
test.Printf(_L("size of file %u is %d ret %d\n"),i,size, r);
test_KErrNone(r);
test_Equal(i,size);
}
test.Next(_L("Close each file"));
for (i=0;i<n_files_open;i++)
{
test.Printf(_L("Close %u\n"),i);
chan[i].Close();
}
test.Next(_L("Delete files"));
for (i=0;i<n_files;i++)
{
test.Printf(_L("Delete %u\n"),i);
r=TheFs.Delete(nameBuf[i]);
test_KErrNone(r);
}
}
LOCAL_C void InitTest()
//
// Create a large file
//
{
TInt fileNumber = 0;
TBool fileSizeTruncated;
do
{
fileSizeTruncated = EFalse;
nameBuf1.Format(_L("\\Hooge Test File for B_OPEN %d"), fileNumber++);
TInt r=chan1.Replace(TheFs,nameBuf1,EFileStream|EFileWrite);
test_KErrNone(r);
r=TheFs.Volume(vInfo);
test_KErrNone(r);
TInt64 size;
LeaveMemFree = 0x400; // ???
if (vInfo.iFree>LeaveMemFree)
size=vInfo.iFree-LeaveMemFree;
else
size=0;
const TInt KMaxFileSize = 0x40000000;
// test as 64 bit numbers in case size is very large (eg. enough that TInt is
// not large enough to hold it)
TInt64 KMaxFileSize64 = MAKE_TINT64(0, KMaxFileSize);
test.Printf(_L("Free space available = %08x:%08x\n"), I64HIGH(size), I64LOW(size));
if (size > KMaxFileSize64)
{
size = KMaxFileSize;
test.Printf(_L("Truncated to %d to avoid current FAT FSY file size limit !!!\n"), size);
fileSizeTruncated = ETrue;
}
TFileName sessionPath;
TheFs.SessionPath(sessionPath);
TBuf<32> message=_L("?: has %ld bytes free\n");
message[0]=sessionPath[0];
test.Printf(message,vInfo.iFree);
if (((vInfo.iDrive.iMediaAtt)&KMediaAttVariableSize)==0)
{
// Not a variable sized drive, so should be safe to to just create big file
test.Printf(_L("Creating %S, 0x%08lx\n"),&nameBuf1,size);
r=chan1.SetSize((TUint)size);
}
else
{
// Variable sized drive (proabably RAM drive) needs a bit of special treatment
// Use a binary search to allocate largest sized file possible...
test.Printf(_L("Creating %S, 0x%08x\n"),&nameBuf1,size);
TInt lo = 0;
TInt hi = (TInt)size;
const TInt KSizeGranularity = 0x200; // must be power-of-2
while(hi-lo>KSizeGranularity && r==KErrNone)
{
TInt trySize = (lo+hi)/2;
trySize &= ~(KSizeGranularity-1);
r = chan1.SetSize((TUint)trySize);
if(r==KErrNone)
{
size = trySize;
lo = trySize;
}
else if(r==KErrDiskFull)
{
hi = trySize;
r = KErrNone;
}
}
if(r==KErrNone)
{
// reduce size to leave some free for tests...
LeaveMemFree = 4096*4; // best leave several RAM pages worth of space so rest of test has some memory
size -= LeaveMemFree;
r = chan1.SetSize((TUint)size);
}
}
if (r!=KErrNone)
{
test.Printf(_L("ERROR: Creating large file failed %d\n"),r);
test(EFalse);
}
test.Printf(_L("Created %S, 0x%08x\n"),&nameBuf1,size);
chan1.Close();
}
while (fileSizeTruncated);
}
LOCAL_C void Cleanup()
//
// Cleanup test files
//
{
TInt r=TheFs.Delete(nameBuf1);
test_KErrNone(r);
r=TheFs.RmDir(gSessionPath);
test_KErrNone(r);
}
GLDEF_C void CallTestsL()
//
// Call tests that may leave
//
{
#ifdef __WINS__
// These tests try to create a huge file to fill up the drive.
// This fails on WINS with drives with > 1/2G free because
// RFile::SetSize() (among other things) only takes a TInt.
//
if (gSessionPath.Left(1).CompareF(_L("C")) == 0)
return;
#endif
CreateTestDirectory(_L("\\B_OPEN\\"));
InitTest();
testOpenFiles();
Cleanup();
}