Enhance the base/rom extension to generate the symbol file of the rom built.
The symbol file is placed in epoc32/rom/<baseport_name>, along with the rom log and final oby file.
// Copyright (c) 2008-2009 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_FatCharSetConv_Main.cpp
//
//
#define __E32TEST_EXTENSION__
#include <e32test.h>
#include <e32svr.h>
//#include <hal.h>
#include <f32fsys.h>
#include <f32dbg.h>
#include "t_server.h"
#include "t_chlffs.h"
#include "fat_utils.h"
#include "t_fatcharsetconv_Cases.h"
RTest test(_L("T_FatCharSetConv"));
using namespace Fat_Test_Utils;
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
template <class 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;
}
/*
* Presetting module, presets initial source, target and comparing direcotries.
* @param aParam test param that contains all information about a test case
*/
void DataGenerationL(const TTestParamAll& aParam)
{
// Setup source files
RBuf path;
path.CreateL(aParam.iSrcPrsPath);
path[0] = (TUint16)*aParam.iSrcDrvChar;
if(path[0] == (TUint8)gDriveToTest)
{
SetupDirFiles(path, aParam.iSrcPrsFiles);
}
if (aParam.iAPI == EGetShortName || aParam.iAPI == EGetShortNameWithDLL || aParam.iAPI == EGetShortNameWithoutDLL || aParam.iAPI == ERFsReplace || aParam.iAPI == ERFsRename ||aParam.iAPI == ERenameFile )
{
path[0] = (TUint16)*aParam.iTrgDrvChar;
}
path.Close();
CheckDisk();
}
/*
* Test execution module
* @param aParam test param that contains all information about a test case
* @panic USER:84 if return codes do not match the expected values.
*/
void DataExecutionL(const TTestParamAll& aParam, const TTCType aTCType)
{
RBuf srcCmdFile;
srcCmdFile.CreateL(aParam.iSrcCmdPath);
RBuf trgCmdFile;
trgCmdFile.CreateL(aParam.iTrgCmdPath);
RBuf srcCmd;
srcCmd.CreateL(aParam.iSrcPrsPath);
if (srcCmdFile.Length() > 0)
{
srcCmdFile[0] = (TUint16)*aParam.iSrcDrvChar;
}
else
{
// srcCmdFile= gSessionPath;
srcCmdFile[0] = (TUint16)*aParam.iSrcDrvChar;
}
if (srcCmd.Length() > 0)
{
srcCmd[0] = (TUint16)*aParam.iSrcDrvChar;
}
else
{
// srcCmd= gSessionPath;
srcCmd[0] = (TUint16)*aParam.iSrcDrvChar;
}
// logging for failure
gTCType = aTCType;
RBuf failedOnBuf;
failedOnBuf.CreateL(KExecution());
gTCId = aParam.iTestCaseID;
RBuf tcUniquePath;
tcUniquePath.CreateL(aParam.iSrcPrsPath);
TInt r = KErrNone;
switch(aParam.iAPI)
{
case EGetShortName:
case EGetShortNameWithDLL:
case EGetShortNameWithoutDLL:
{
__UHEAP_MARK;
if(aParam.iAPI == EGetShortName )
gLogFailureData.iAPIName = KGetShortName;
else if(aParam.iAPI == EGetShortNameWithDLL )
gLogFailureData.iAPIName = KGetShortNameWithDLL;
else if(aParam.iAPI == EGetShortNameWithoutDLL )
gLogFailureData.iAPIName = KGetShortNameWithoutDLL;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
TBuf<0x10> shortName;
r=TheFs.GetShortName(srcCmdFile,shortName);
testAndLog(r==KErrNone);
srcCmd.ReAllocL(srcCmd.Length() + shortName.Length());
srcCmd+= shortName;
testAndLog(srcCmd==trgCmdFile);
__UHEAP_MARKEND;
}
break;
case ELongShortConversion:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KLongShortConversion;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
RBuf lgnFullPath;
RBuf shnFullPath;
TFileName longName;
TBuf<0x10> shortName;
r = TheFs.GetShortName(srcCmdFile, shortName);
testAndLog(r==KErrNone);
shnFullPath.CreateL(srcCmd);
shnFullPath.ReAllocL(srcCmd.Length() + shortName.Length());
shnFullPath.Append(shortName);
r = shnFullPath.Compare(trgCmdFile);
testAndLog(r==KErrNone);
r = TheFs.GetLongName(shnFullPath, longName);
testAndLog(r==KErrNone);
lgnFullPath.CreateL(srcCmd);
lgnFullPath.ReAllocL(srcCmd.Length() + longName.Length());
lgnFullPath.Append(longName);
r = lgnFullPath.Compare(srcCmdFile);
testAndLog(r==KErrNone);
lgnFullPath.Close();
shnFullPath.Close();
__UHEAP_MARKEND;
}
break;
case ECreateFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KCreateFile;
r = TheFile.Create(TheFs,srcCmdFile,EFileWrite);
testAndLog(r==KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EIsValidName:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KIsValidName;
TText badChar;
r=TheFs.IsValidName(srcCmdFile,badChar);
testAndLog(r==(TInt)ETrue);
r=TheFs.IsValidName(srcCmdFile);
testAndLog(r==(TInt)ETrue);
__UHEAP_MARKEND;
}
break;
case EMkDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KMkDir;
r=TheFs.MkDir(srcCmdFile);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case EMkDirAll:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KMkDirAll;
r=TheFs.MkDirAll(srcCmdFile);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case ERenameFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRenameFile;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNone);
r=TheFile.Rename(trgCmdFile);
testAndLog(r==KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EReadFileSection:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KReadFileSection;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNone);
TInt numWrite = 15;
TBuf8<50> writeBuf = _L8("I am going to write some junk for testing purpose");
TheFile.Write(writeBuf, numWrite);
r=TheFile.Flush();
testAndLog(r==KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EDeleteFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KDeleteFile;
r=TheFs.Delete(srcCmdFile);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case EOpenDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KOpenDir;
r=TheDir.Open(TheFs,srcCmdFile,KEntryAttMaskSupported);
testAndLog(r==KErrNone);
TheDir.Close();
__UHEAP_MARKEND;
}
break;
case EReadDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KReadDir;
r=TheDir.Open(TheFs,srcCmdFile,KEntryAttMaskSupported);
testAndLog(r==KErrNone);
TheDir.Close();
__UHEAP_MARKEND;
}
break;
case ERemoveDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRemoveDir;
r=TheFs.RmDir(srcCmdFile);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case EIsFileInRom:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KIsFileInRom;
// The tested files are created on non-rom drives, which should not be found
// on rom drives
TUint8* ptr=TheFs.IsFileInRom(srcCmdFile);
testAndLog(ptr==NULL);
__UHEAP_MARKEND;
}
break;
case EReplaceFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KReplaceFile;
r=TheFile.Replace(TheFs, srcCmdFile ,EFileWrite);
testAndLog(r==KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EOperateOnFileNames:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KOperateOnFileNames;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead);
testAndLog(r == KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EFileModify:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KFileModify;
TTime time;
r=TheFs.Modified(srcCmdFile,time);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case EFileAttributes:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KFileAttributes;
TUint att;
r=TheFs.Att(srcCmdFile,att);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case ERFsEntry:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRFsEntry;
TEntry entryDetail;
r=TheFs.Entry(srcCmdFile, entryDetail);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case ERFsReplace:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRFsReplace;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
r=TheFs.Replace(srcCmdFile,trgCmdFile);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case ERFsRename:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRFsRename;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
r=TheFs.Rename(srcCmdFile,trgCmdFile);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case EGetDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KGetDir;
CDir *anEntryList;
r=TheFs.GetDir(srcCmdFile,KEntryAttNormal,ESortByName,anEntryList);
testAndLog(r==KErrNone);
delete anEntryList;
__UHEAP_MARKEND;
}
break;
case EFileTemp:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KFileTemp;
TFileName tempFileName;
r=TheFile.Temp(TheFs,srcCmdFile,tempFileName,EFileWrite);
testAndLog(r == KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EReadFromFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KReadFromFile;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNone);
TBuf8<200> writeBuf = _L8("I am going to write something to the file and then read from the specified position to test an overload of RFIle::Read");
TInt numWrite = 50;
TheFile.Write(writeBuf, numWrite);
testAndLog(r==KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EWriteToFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KWriteToFile;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNone);
TBuf8<200> writeBuf = _L8("I am going to write something to the file and then read from the specified position to test an overload of RFIle::Read");
TInt numWrite = 50;
TheFile.Write(writeBuf, numWrite);
testAndLog(r==KErrNone);
r=TheFile.Flush();
testAndLog(r==KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
default:
break;
}
// test.Printf(_L("DataExecution::\tTest case %d passed\n"),aParam.iTestCaseID);
failedOnBuf.Close();
tcUniquePath.Close();
srcCmdFile.Close();
trgCmdFile.Close();
srcCmd.Close();
CheckDisk();
}
void DataVerificationL(const TTestParamAll& aParam, const TTCType aTCType)
{
RBuf srcCmdFile;
srcCmdFile.CreateL(aParam.iSrcCmdPath);
RBuf trgCmdFile;
trgCmdFile.CreateL(aParam.iTrgCmdPath);
RBuf srcCmd;
srcCmd.CreateL(aParam.iSrcPrsPath);
if (srcCmdFile.Length() > 0)
{
srcCmdFile[0] = (TUint16)*aParam.iSrcDrvChar;
}
else
{
//srcCmdFile= gSessionPath;
srcCmdFile[0] = (TUint16)*aParam.iSrcDrvChar;
}
if (srcCmd.Length() > 0)
{
srcCmd[0] = (TUint16)*aParam.iSrcDrvChar;
}
else
{
//srcCmd= gSessionPath;
srcCmd[0] = (TUint16)*aParam.iSrcDrvChar;
}
// logging for failure
gTCType = aTCType;
RBuf failedOnBuf;
failedOnBuf.CreateL(KVerification());
gTCId = aParam.iTestCaseID;
RBuf tcUniquePath;
tcUniquePath.CreateL(aParam.iSrcPrsPath);
TInt r = KErrNone;
switch(aParam.iAPI)
{
case EGetShortName:
case EGetShortNameWithDLL:
case EGetShortNameWithoutDLL:
{
__UHEAP_MARK;
if(aParam.iAPI == EGetShortName )
gLogFailureData.iAPIName = KGetShortName;
else if(aParam.iAPI == EGetShortNameWithDLL )
gLogFailureData.iAPIName = KGetShortNameWithDLL;
else if(aParam.iAPI == EGetShortNameWithoutDLL )
gLogFailureData.iAPIName = KGetShortNameWithoutDLL;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
TBuf<0x10> shortName;
r=TheFs.GetShortName(srcCmdFile,shortName);
testAndLog(r==KErrNone);
if(r==KErrNone)
{
srcCmd.ReAllocL(srcCmd.Length() + shortName.Length());
srcCmd+= shortName;
testAndLog(srcCmd==trgCmdFile);
}
__UHEAP_MARKEND;
}
break;
case ELongShortConversion:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KLongShortConversion;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
RBuf lgnFullPath;
RBuf shnFullPath;
TFileName longName;
TBuf<0x10> shortName;
r = TheFs.GetShortName(srcCmdFile, shortName);
testAndLog(r==KErrNone);
if(r==KErrNone)
{
shnFullPath.CreateL(srcCmd);
shnFullPath.ReAllocL(srcCmd.Length() + shortName.Length());
shnFullPath.Append(shortName);
r = shnFullPath.Compare(trgCmdFile);
testAndLog(r==KErrNone);
r = TheFs.GetLongName(shnFullPath, longName);
testAndLog(r==KErrNone);
lgnFullPath.CreateL(srcCmd);
lgnFullPath.ReAllocL(srcCmd.Length() + longName.Length());
lgnFullPath.Append(longName);
r = lgnFullPath.Compare(srcCmdFile);
testAndLog(r==KErrNone);
lgnFullPath.Close();
shnFullPath.Close();
}
__UHEAP_MARKEND;
}
break;
case ECreateFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KCreateFile;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EIsValidName:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KIsValidName;
TText badChar;
r=TheFs.IsValidName(srcCmdFile,badChar);
testAndLog(r);
r=TheFs.IsValidName(srcCmdFile);
testAndLog(r);
__UHEAP_MARKEND;
}
break;
case EMkDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KMkDir;
r=TheDir.Open(TheFs,srcCmdFile,KEntryAttMaskSupported);
testAndLog(r==KErrNone);
TheDir.Close();
__UHEAP_MARKEND;
}
break;
case EMkDirAll:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KMkDirAll;
r=TheDir.Open(TheFs,srcCmdFile,KEntryAttMaskSupported);
testAndLog(r==KErrNone);
TheDir.Close();
__UHEAP_MARKEND;
}
break;
case ERenameFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRenameFile;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNotFound);
// r = TheFile.Open(TheFs, trgCmdFile, EFileRead|EFileWrite);
// testAndLog(r == KErrNone);
// TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EReadFileSection:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KReadFileSection;
TBool isFileOpen = EFalse;
r=TheFs.IsFileOpen(srcCmdFile,isFileOpen);
testAndLog(r==KErrNone);
if(isFileOpen)
{
TheFile.Close();
}
else
{
TInt numRead = 15;
TBuf8<50> readBuf;
r=TheFs.ReadFileSection(srcCmdFile, 0, readBuf, numRead);
testAndLog(r==KErrNone);
}
__UHEAP_MARKEND;
}
break;
case EDeleteFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KDeleteFile;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNotFound);
// TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EOpenDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KOpenDir;
r=TheDir.Open(TheFs,srcCmdFile,KEntryAttMaskSupported);
testAndLog(r==KErrNone);
TheDir.Close();
__UHEAP_MARKEND;
}
break;
case EReadDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KReadDir;
TEntry entry;
TInt dirEntryCount = 0;
r=TheDir.Open(TheFs,srcCmdFile,KEntryAttMaskSupported);
testAndLog(r==KErrNone);
FOREVER
{
r = TheDir.Read(entry);
if(r == KErrEof)
{
break;
}
dirEntryCount++;
}
TheDir.Close();
testAndLog(dirEntryCount == 4);
__UHEAP_MARKEND;
}
break;
case ERemoveDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRemoveDir;
r = TheDir.Open(TheFs, srcCmdFile, KEntryAttMaskSupported);
testAndLog(r == KErrPathNotFound);
// TheDir.Close();
__UHEAP_MARKEND;
}
break;
case EIsFileInRom:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KIsFileInRom;
TUint8* ptr=TheFs.IsFileInRom(srcCmdFile);
// file should not be in ROM
testAndLog(ptr==NULL)
__UHEAP_MARKEND;
}
break;
case EReplaceFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KReplaceFile;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNone);
TheFile.Close();
__UHEAP_MARKEND;
}
break;
case EOperateOnFileNames:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KOperateOnFileNames;
TFileName realFileNameInFS;
TFileName fullFileName;
TFileName fileName;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead);
testAndLog(r == KErrNone);
if(r==KErrNone)
{
r=TheFile.FullName(fullFileName);
testAndLog(r==KErrNone);
testAndLog(fullFileName==srcCmdFile);
TInt length = srcCmdFile.Length()-srcCmd.Length();
r=TheFile.Name(fileName);
testAndLog(r==KErrNone);
TBuf<50> tempFileName;
tempFileName = srcCmdFile.Right(length);
testAndLog(fileName==tempFileName);
testAndLog(length==fileName.Length());
r=TheFs.RealName(srcCmdFile,realFileNameInFS);
testAndLog(r==KErrNone);
testAndLog(realFileNameInFS==srcCmdFile);
TheFile.Close();
}
__UHEAP_MARKEND;
}
break;
case EFileModify:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KFileModify;
TTime tempTime;
r=TheFs.Modified(srcCmdFile,tempTime);
testAndLog(r==KErrNone);
tempTime.HomeTime();
r=TheFs.SetModified(srcCmdFile,tempTime);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case EFileAttributes:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KFileAttributes;
TUint att;
r=TheFs.Att(srcCmdFile,att);
testAndLog(r==KErrNone);
r=TheFs.SetAtt(srcCmdFile,KEntryAttHidden,0);
testAndLog(r==KErrNone);
r=TheFs.Att(srcCmdFile,att);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case ERFsEntry:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRFsEntry;
TEntry entryDetail;
r=TheFs.Entry(srcCmdFile,entryDetail);
testAndLog(r==KErrNone);
TTime time;
time.HomeTime();
r=TheFs.SetEntry(srcCmdFile, time, KEntryAttHidden, KEntryAttNormal);
testAndLog(r==KErrNone);
r=TheFs.Entry(srcCmdFile, entryDetail);
testAndLog(r==KErrNone);
__UHEAP_MARKEND;
}
break;
case ERFsReplace:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRFsReplace;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNotFound);
// r = TheFile.Open(TheFs, trgCmdFile, EFileRead|EFileWrite);
// testAndLog(r == KErrNone);
// TheFile.Close();
__UHEAP_MARKEND;
}
break;
case ERFsRename:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KRFsRename;
if (trgCmdFile.Length() > 0)
{
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
else
{
//trgCmdFile= gSessionPath;
trgCmdFile[0] = (TUint16)*aParam.iTrgDrvChar;
}
TInt len=srcCmdFile.Length();
if(srcCmdFile[--len]=='\\')
{
r = TheDir.Open(TheFs, srcCmdFile, KEntryAttMaskSupported);
testAndLog(r == KErrPathNotFound);
// r = TheDir.Open(TheFs, trgCmdFile, KEntryAttMaskSupported);
// testAndLog(r == KErrNone);
// TheDir.Close();
}
else
{
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNotFound);
// r = TheFile.Open(TheFs, trgCmdFile, EFileRead|EFileWrite);
// testAndLog(r == KErrNone);
// TheFile.Close();
}
__UHEAP_MARKEND;
}
break;
case EGetDir:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KGetDir;
CDir *anEntryList;
r=TheFs.GetDir(srcCmdFile,KEntryAttNormal,ESortByName,anEntryList);
testAndLog(r==KErrNone);
delete anEntryList;
__UHEAP_MARKEND;
}
break;
case EFileTemp:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KFileTemp;
TFileName tempFileName;
r=TheFile.Temp(TheFs,srcCmdFile,tempFileName,EFileWrite);
testAndLog(r == KErrNone);
TheFile.Close();
r = TheFile.Create(TheFs, tempFileName, EFileRead|EFileWrite);
testAndLog(r == KErrAlreadyExists);
__UHEAP_MARKEND;
}
break;
case EReadFromFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KReadFromFile;
TInt start=0, readLen=15, readPos=10;
TBuf8<200> readBuf;
TInt numWritten = 50;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNone);
if(r==KErrNone)
{
r=TheFile.Seek(ESeekStart,start);
testAndLog(r==KErrNone);
readBuf.SetLength(0);
r=TheFile.Read(readBuf);
testAndLog(r == KErrNone);
testAndLog(numWritten == readBuf.Length());
//An overload of RFile::Read(), read specified no.of bytes.
r=TheFile.Seek(ESeekStart,start);
testAndLog(r==KErrNone);
readBuf.SetLength(0);
TheFile.Read(readBuf,readLen);
testAndLog(r == KErrNone);
testAndLog(readLen == readBuf.Length());
//An overload of RFile::Read(), read from the specified position.
readBuf.SetLength(0);
r=TheFile.Read(readPos,readBuf);
testAndLog(r == KErrNone);
testAndLog(numWritten-readPos == readBuf.Length());
TheFile.Close();
}
__UHEAP_MARKEND;
}
break;
case EWriteToFile:
{
__UHEAP_MARK;
gLogFailureData.iAPIName = KWriteToFile;
r = TheFile.Open(TheFs, srcCmdFile, EFileRead|EFileWrite);
testAndLog(r == KErrNone);
if(r==KErrNone)
{
TInt writeLen=20, writePos=10, start=0, readLen=0;
TBuf8<200> writeBuf = _L8("I am going to write something to the file and then read from the specified position to test an overload of RFIle::Read");
TInt numWritten = writeBuf.Length();
TBuf8<200> readBuf;
TheFile.Write(writeBuf);
r=TheFile.Flush();
testAndLog(r==KErrNone);
r=TheFile.Seek(ESeekStart,start);
testAndLog(r==KErrNone);
readBuf.SetLength(0);
r=TheFile.Read(readBuf);
testAndLog(r==KErrNone);
readLen = readBuf.Length();
testAndLog(numWritten == readLen);
r=TheFile.SetSize(0);
testAndLog(r==KErrNone);
//An overload of RFile::Write(), write specified no.of bytes.
TheFile.Write(writeBuf,writeLen);
r=TheFile.Flush();
testAndLog(r==KErrNone);
r=TheFile.Seek(ESeekStart,start);
testAndLog(r==KErrNone);
readBuf.SetLength(0);
r=TheFile.Read(readBuf);
testAndLog(r==KErrNone);
readLen = readBuf.Length();
testAndLog(writeLen==readLen);
r=TheFile.SetSize(0);
testAndLog(r==KErrNone);
//An overload of RFile::Write(), write to a particular position.
TBuf8<50> testBuf = _L8("Testing different variants of RFile::Write APIs");
TheFile.Write(testBuf);
r=TheFile.Flush();
testAndLog(r==KErrNone);
TheFile.Write(writePos,writeBuf);
r=TheFile.Flush();
testAndLog(r==KErrNone);
r=TheFile.Seek(ESeekStart,start);
testAndLog(r==KErrNone);
readBuf.SetLength(0);
r=TheFile.Read(readBuf);
testAndLog(r==KErrNone);
readLen = readBuf.Length();
testAndLog(numWritten + writePos == readLen);
r=TheFile.SetSize(0);
testAndLog(r==KErrNone);
//An overload of RFile::Write(), write to a particular position and specified no. of bytes.
TInt size;
TheFile.Write(testBuf);
r=TheFile.Flush();
testAndLog(r==KErrNone);
TheFile.Write(writePos,writeBuf,writeLen);
r=TheFile.Flush();
testAndLog(r==KErrNone);
r=TheFile.Seek(ESeekStart,start);
testAndLog(r==KErrNone);
readBuf.SetLength(0);
r=TheFile.Read(readBuf);
testAndLog(r==KErrNone);
TInt newSize = testBuf.Length()-(writePos+writeLen);
if(newSize < testBuf.Length())
{
size = testBuf.Length();
}
else
size = newSize;
readLen = readBuf.Length();
testAndLog(readLen==size);
r=TheFile.SetSize(0);
testAndLog(r==KErrNone);
TheFile.Close();
}
__UHEAP_MARKEND;
}
break;
default:
break;
}
// test.Printf(_L("DataVerification::\tTest case %d passed\n"),aParam.iTestCaseID);
failedOnBuf.Close();
tcUniquePath.Close();
srcCmdFile.Close();
trgCmdFile.Close();
srcCmd.Close();
CheckDisk();
}
void DeletePathAfterTest(const TTestParamAll& aParam)
{
TFileName path = aParam.iSrcPrsPath;
if (path.Length() == 0)
{
test.Printf(_L("ERROR<SetupDirFiles()>: Zero length src path!\n"));
test(EFalse);
}
path[0] = (TUint16)*aParam.iSrcDrvChar;
TInt idx = path.Find(_L("Src\\"));
path.Delete(idx,path.Length()-idx);
RmDir(path);
}
/*
* Do all basic binary test cases defined in gBasicUnitaryTestCases[]
*/
void DoAllBasicUnitaryTestsL(const TTestCaseUnitaryBasic aBasicUnitaryTestCaseGroup[],
TTestSwitches& aSwitches, TBool aIsWithDLL)
{
TTestParamAll* nextTestCase = new(ELeave) TTestParamAll();
TInt i = 0;
// Reset the Test Log Data
ClearTCLogData();
while(SearchTestCaseByArrayIdx(i, aBasicUnitaryTestCaseGroup,
*nextTestCase, aIsWithDLL) == KErrNone)
{
TTime startTime;
TTime endTime;
startTime.HomeTime();
if(aSwitches.iExeOnSymbian || aSwitches.iExeOnWindows)
{
DataGenerationL(*nextTestCase);
DataExecutionL(*nextTestCase, EUnitaryTest);
}
if(aSwitches.iVerOnSymbian || aSwitches.iVerOnWindows)
{
DataVerificationL(*nextTestCase, EUnitaryTest);
DeletePathAfterTest(*nextTestCase);
}
CheckDisk();
endTime.HomeTime();
TTimeIntervalMicroSeconds timeTaken(0);
timeTaken = endTime.MicroSecondsFrom(startTime);
// test.Printf(_L("Test Case Id : %d\n"),(*nextTestCase).iTestCaseID);
// TInt time=0;
// time=I64LOW(timeTaken.Int64()/1000);
// test.Printf(_L("Time Taken by test case %d = %d mS \n"),nextTestCase.iTestCaseID,time);
++i;
}
delete nextTestCase;
}
/*
* Do all basic binary test cases defined in gBasicBinaryTestCases[]
*/
void DoAllBasicBinaryTestsL(const TTestCaseBinaryBasic aBasicBinaryTestCaseGroup[],
TTestSwitches& aSwitches, TBool aIsWithDLL)
{
TTestParamAll* nextTestCase = new(ELeave) TTestParamAll();
TInt i = 0;
// Reset the Test Log Data
ClearTCLogData();
while (SearchTestCaseByArrayIdx(i, aBasicBinaryTestCaseGroup,
*nextTestCase, aIsWithDLL) == KErrNone)
{
if (aIsWithDLL)
{
if(((aBasicBinaryTestCaseGroup[i].iBasic.iAPI==EGetShortNameWithoutDLL)))
{
++i;
continue;
}
}
else
{
if(((aBasicBinaryTestCaseGroup[i].iBasic.iAPI== EGetShortNameWithDLL) || (aBasicBinaryTestCaseGroup[i].iBasic.iAPI==ELongShortConversion)) )
{
++i;
continue;
}
}
TTime startTime;
TTime endTime;
startTime.HomeTime();
if(aSwitches.iExeOnSymbian || aSwitches.iExeOnWindows)
{
DataGenerationL(*nextTestCase);
DataExecutionL(*nextTestCase, EBinaryTest);
}
if(aSwitches.iVerOnSymbian || aSwitches.iVerOnWindows)
{
DataVerificationL(*nextTestCase, EBinaryTest);
DeletePathAfterTest(*nextTestCase);
}
endTime.HomeTime();
TTimeIntervalMicroSeconds timeTaken(0);
timeTaken = endTime.MicroSecondsFrom(startTime);
// test.Printf(_L("Test Case Id : %d\n"),(*nextTestCase).iTestCaseID);
// TInt time2=0;
// time2=I64LOW(timeTaken.Int64()/1000);
// test.Printf(_L("Time Taken by test id %d = %d mS \n"),nextTestCase.iTestCaseID,time2);
++i;
}
delete nextTestCase;
}
/*
* Main testing control unit
*/
void TestMainWithDLLL(TTestSwitches& aSwitches)
{
// Enables codepage dll implementation of LocaleUtils functions for this test only
TInt r = TheFs.ControlIo(CurrentDrive(), KControlIoEnableFatUtilityFunctions);
test_KErrNone(r);
test.Printf(_L("Load the Code Page DLL"));
r = UserSvr::ChangeLocale(KTestLocale);
test_KErrNone(r);
test.Next(_L("Test Unitary APIs with only Sync Variant with DLL"));
gLogFailureData.iFuncName = KDoAllBasicUnitaryTestsL;
DoAllBasicUnitaryTestsL(gBasicUnitaryTestCases, aSwitches, ETrue);
test.Next(_L("Test Binary Tests with DLL"));
gLogFailureData.iFuncName = KDoAllBasicBinaryTestsL;
DoAllBasicBinaryTestsL(gBasicBinaryTestCases, aSwitches, ETrue);
// Disables codepage dll implementation of LocaleUtils functions for other base tests
r = TheFs.ControlIo(CurrentDrive(), KControlIoDisableFatUtilityFunctions);
test_KErrNone(r);
}
void TestMainWithoutDLLL(TTestSwitches& aSwitches)
{
test.Next(_L("Test Unitary APIs with only Sync Variant without DLL"));
// Disables codepage dll implementation of LocaleUtils functions
TInt r = TheFs.ControlIo(CurrentDrive(), KControlIoDisableFatUtilityFunctions);
test_KErrNone(r);
gLogFailureData.iFuncName = KDoAllBasicUnitaryTestsL;
DoAllBasicUnitaryTestsL(gBasicUnitaryTestCases, aSwitches, EFalse);
test.Next(_L("Test Binary Tests without DLL"));
gLogFailureData.iFuncName = KDoAllBasicBinaryTestsL;
DoAllBasicBinaryTestsL(gBasicBinaryTestCases, aSwitches, EFalse);
}
void TestCompatibility(const TTestSwitches& aSwitches)
{
test.Next(_L("test compatibility"));
// logging for failure
gTCType = ESymbianFATSpecific;
RBuf failedOnBuf;
failedOnBuf.CreateL(gLogFailureData.iFuncName);
gTCId = 0;
RBuf tcUniquePath;
tcUniquePath.CreateL(KNone());
// original file name in DBCS
TFileName fn1 = _L("\\\x798F\x5C71\x96C5\x6CBB");
if (aSwitches.iExeOnSymbian)
{
GetBootInfo();
RFile file;
TFileName fn = _L("\\ABCD");
TInt r=file.Create(TheFs,fn,EFileRead);
testAndLog(r==KErrNone);
file.Close();
// Assume this file is the first entry in the root directory
r=TheDisk.Open(TheFs,CurrentDrive());
testAndLog(r==KErrNone);
//-- read the 1st dir entry, it should be a DOS entry
const TInt posEntry1=gBootSector.RootDirStartSector() << KDefaultSectorLog2; //-- dir entry1 position
TFatDirEntry fatEntry1;
TPtr8 ptrEntry1((TUint8*)&fatEntry1,sizeof(TFatDirEntry));
testAndLog(TheDisk.Read(posEntry1, ptrEntry1)==KErrNone);
testAndLog(!fatEntry1.IsVFatEntry());
// Manually modify the short name into unicode characters
// Unicode: 0x(798F 5C71 96C5 6CBB)
// Shift-JIS: 0x(959F 8E52 89EB 8EA1)
TBuf8<8> unicodeSN = _L8("ABCD1234");
unicodeSN[0] = 0x95;
unicodeSN[1] = 0x9F;
unicodeSN[2] = 0x8E;
unicodeSN[3] = 0x52;
unicodeSN[4] = 0x89;
unicodeSN[5] = 0xEB;
unicodeSN[6] = 0x8E;
unicodeSN[7] = 0xA1;
fatEntry1.SetName(unicodeSN);
testAndLog(TheDisk.Write(posEntry1, ptrEntry1)==KErrNone);
TheDisk.Close();
}
if (aSwitches.iVerOnSymbian)
{
// Access the file without the DLL loaded.
TInt r = TheFs.ControlIo(CurrentDrive(), KControlIoDisableFatUtilityFunctions);
testAndLog(r==KErrNone);
TEntry entry;
r = TheFs.Entry(fn1, entry);
testAndLog(r==KErrNotFound);
// Access the file with the DLL loaded.
r = TheFs.ControlIo(CurrentDrive(), KControlIoEnableFatUtilityFunctions);
testAndLog(r==KErrNone);
r = UserSvr::ChangeLocale(KTestLocale);
testAndLog(r==KErrNone);
r = TheFs.Entry(fn1, entry);
testAndLog(r==KErrNone);
r = TheFs.ControlIo(CurrentDrive(), KControlIoDisableFatUtilityFunctions);
testAndLog(r==KErrNone);
}
failedOnBuf.Close();
tcUniquePath.Close();
}
#endif //defined(_DEBUG) || defined(_DEBUG_RELEASE)
/*
* Initialise test
*/
void CallTestsL(TTestSwitches& aSwitches)
{
test.Title();
test.Start(_L("Starting T_FATCHARSETCONV tests"));
(void) aSwitches;
#ifdef LOG_FAILURE_DATA
test.Printf(_L("LOG_FAILURE_DATA: ON\n"));
#else
test.Printf(_L("LOG_FAILURE_DATA: OFF\n"));
#endif
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
// Test only runs on Fat file systems
TheFs.SessionPath(gSessionPath);
TInt r = TheFs.FileSystemName(aSwitches.iMountedFSName, CurrentDrive());
if (KErrNone == r)
{
// For automated testing this test should run on FAT file systems only.
// For inter-operability testing on FAT and Win32 file systems.
// if ((AUTO && FAT) || (IOT && (FAT || Win32))
test.Printf(_L("Current File System: \"%S\"\n"), &aSwitches.iMountedFSName);
if( (gAutoTest && isFAT(aSwitches.iMountedFSName)) ||
(gIOTesting && (isFAT(aSwitches.iMountedFSName) || isWin32(aSwitches.iMountedFSName))))
{
// Log File System Name
gLogFailureData.iFSName = aSwitches.iMountedFSName;
// Store current file name
TFileName fileName;
TInt i=0;
while(__FILE__[i]!='\0')
{
fileName.SetLength(i+1);
fileName[i] = __FILE__[i];
++i;
}
gFileName.Append(fileName);
InitialiseL();
// Special Cases - Non-Symbian
// Note: this case MUST be run as the first case as it performs formatting!!
TestCompatibility(aSwitches);
CreateTestDirectory(_L("\\F32-TST\\T_FATCHARSETCONV\\"));
//Special Cases - Only Symbian Specific
if(!gIOTesting && aSwitches.iMountedFSName.Compare(KFAT) == 0)
{
DoSymbianSpecificCases();
}
test.Next(_L("Test without DLL loaded"));
if(gAutoTest)
{
QuickFormat();
}
TestMainWithoutDLLL(aSwitches);
test.Next(_L("Test with DLL loaded"));
if(gAutoTest)
{
QuickFormat();
}
TestMainWithDLLL(aSwitches);
Cleanup();
}
else
{
if(gAutoTest)
test.Printf(_L("Test only runs on \"FAT\" File Systems !!!\n"));
if(gIOTesting)
test.Printf(_L("Test only runs on \"FAT\" and \"Win32\" File Systems !!!\n"));
}
}
else
{
test.Printf(_L("Drive %C: is not ready!\n"), 'A'+CurrentDrive());
test(EFalse);
}
#else
test.Printf(_L("Test only runs on DEBUG builds, see test logs of debug builds for details.\n"));
#endif // _DEBUG) || _DEBUG_RELEASE
test.End();
}
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, TTestSwitches& aSwitches)
//
// 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);
test.Printf(_L("gSessionPath = \"%S\"\n"), &gSessionPath);
// !!! Disable platform security tests until we get the new APIs
// if(User::Capability() & KCapabilityRoot)
CheckMountLFFS(TheFs,driveLetter);
User::After(1000000);
// Format(CurrentDrive());
r=TheFs.MkDirAll(gSessionPath);
if(r == KErrCorrupt)
{
Format(aDrive);
r=TheFs.MkDirAll(gSessionPath);
test_KErrNone(r);
}
if (r!=KErrNone && r!=KErrAlreadyExists)
{
test.Printf(_L("MkDirAll() r %d\n"),r);
test(EFalse);
}
TheFs.ResourceCountMarkStart();
TRAP(r,CallTestsL(aSwitches));
if (r==KErrNone)
TheFs.ResourceCountMarkEnd();
else
{
test.Printf(_L("Error: Leave %d\n"),r);
test(EFalse);
}
CheckDisk();
TestingLFFS(EFalse);
}
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..."));
gSessionPath=_L("?:\\F32-TST\\");
TTestSwitches testSwitches;
ParseCommandArguments(testSwitches);
r=TheFs.Connect();
test_KErrNone(r);
TheFs.SetAllocFailure(gAllocFailOn);
TTime timerC;
timerC.HomeTime();
TInt theDrive;
r=TheFs.CharToDrive(gDriveToTest,theDrive);
test_KErrNone(r);
#if defined(_DEBUG) || defined(_DEBUG_RELEASE)
TPckgBuf<TIOCacheValues> pkgOrgValues;
TIOCacheValues& orgValues=pkgOrgValues();
r = controlIo(TheFs,theDrive, KControlIoCacheCount, orgValues);
test_KErrNone(r);
test.Printf(_L("\n"));
test.Printf(_L("Requests on close queue at start=%d\n"),orgValues.iCloseCount);
test.Printf(_L("Requests on free queue at start=%d\n"),orgValues.iFreeCount);
test.Printf(_L("Requests dynamically allocated at start=%d\n"),orgValues.iAllocated);
test.Printf(_L("Requests in total at start=%d\n"),orgValues.iTotalCount);
#endif
DoTests(theDrive, testSwitches);
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)
TPckgBuf<TIOCacheValues> pkgValues;
TIOCacheValues& values=pkgValues();
r = controlIo(TheFs,theDrive, KControlIoCacheCount, values);
test_KErrNone(r);
test.Printf(_L("Requests on close queue at end=%d\n"),values.iCloseCount);
test.Printf(_L("Requests on free queue at end=%d\n"),values.iFreeCount);
test.Printf(_L("Requests dynamically allocated at end=%d\n"),values.iAllocated);
test.Printf(_L("Requests in total at end=%d\n"),values.iTotalCount);
test(orgValues.iCloseCount==values.iCloseCount);
test(orgValues.iAllocated == values.iAllocated);
#endif
TheFs.Close();
test.End();
test.Close();
__UHEAP_MARKEND;
delete cleanup;
return(KErrNone);
}