fix: SF Bug 1511-[Raptor] ARM LDD builds can wrongly make use of implicit .def files
/*
* Copyright (c) 2006-2009 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:
* @internalComponent * @released
* Driveimage class implementation.
*
*/
#include <stdlib.h>
#include <string>
#ifndef __LINUX__
#include <windows.h>
#include <direct.h>
#else
#include <dirent.h>
#endif
#ifdef __TOOLS2__
#include <sys/stat.h>
#include <sys/types.h>
using namespace std;
#endif
#include <f32file.h>
#include "h_utl.h"
#include "r_obey.h"
#include "r_romnode.h"
#include "r_rofs.h"
#include "r_driveimage.h"
extern TBool gFastCompress;
// File format supported by Rofsbuild
DriveFileFormatSupported CDriveImage::iFormatType[] =
{
{"FAT16",EFAT16},
{"FAT32",EFAT32},
{0,EFATINVALID}
};
/**
File format conversion from char* to coresponding enum value.
@param aUserFileFormat - pointer to user entered file format.
@param aDriveFileFormat - Reference to actual variable.
*/
TBool CDriveImage::FormatTranslation(TText* aUserFileFormat,enum TFileSystem& aDriveFileFormat)
{
struct DriveFileFormatSupported* strPointer = iFormatType;
for( ; (strPointer->iDriveFileFormat) != '\0' ; ++strPointer )
{
if(!strcmp((char*)aUserFileFormat,strPointer->iDriveFileFormat))
{
aDriveFileFormat = strPointer->iFileSystem;
return ETrue;
}
}
return EFalse;
}
/**
Constructor: CDriveImage class
@param aObey - pointer to Drive obey file.
*/
CDriveImage::CDriveImage(CObeyFile *aObey)
: iObey( aObey ),iParentInnerList(0),iListReference(0),iTempDirName(NULL), iData(0)
{
}
/**
Destructor: CDriveImage class
Release the resources allocated in heap.
*/
CDriveImage::~CDriveImage()
{
iNodeAddStore.clear();
iNodeList.clear();
if(iData)
delete[] iData;
if(iTempDirName)
delete[] iTempDirName;
}
/**
Creates the STL list to interface with file system module.
Creates the Temp folder for placing the executables
(those changed,due to user option like compression,un-compression & fileattribute)
Updates the excutable options (file attributes, compression etc)
@return Status - 'KErrNone' - successfully done above operations.
'KErrNoMemory' - Not able to allocate the memory.
'KErrGeneral' - Unable to done the above operations.
*/
TInt CDriveImage::CreateList()
{
TRomNode* pRootDir = iObey->iRootDirectory;
TInt16 dirCheck = 1;
TInt retStatus = 0;
// For Creating the temp folder.
iTempDirName = new char[KMaxGenBuffer];
if(!iTempDirName)
return KErrNoMemory;
// Create the temp folder.
// Check for folder exist, if exist it loops until dir created or loop exit.
while(dirCheck)
{
sprintf(iTempDirName,"%s%05d","temp",dirCheck);
#ifdef __LINUX__
retStatus = mkdir((char*)iTempDirName,0777);
#else
retStatus = mkdir((char*)iTempDirName);
#endif
if(!retStatus)
break;
++dirCheck;
}
if(!dirCheck)
{
Print(EError,"Unable to Create the temp folder,Check directory settings.\n");
if(iTempDirName)
{
delete[] iTempDirName;
iTempDirName = 0;
}
return KErrCancel;
}
// Construct the file options.
if(ConstructOptions() != KErrNone)
{
return KErrGeneral;
}
// Construct the List.
if((GenTreeTraverse(pRootDir,KNodeTypeRoot)) != KErrNone )
{
return KErrGeneral;
}
return KErrNone;
}
/**
Creates the Image/Call to file system module.
Updates the required operations to generate the data drive images.
Deletes the temp folder if created.
Calls the file system modules with required parameters.
@param alogfile - Logfile name required for file system module.
@return Status(r) - returns the status of file system module.
'KErrGeneral' - Unable to done the above operations properly.
*/
TInt CDriveImage::CreateImage(TText* alogfile)
{
TInt retStatus = 0;
retStatus = CreateList();
if((retStatus == KErrCancel) || (retStatus == KErrNoMemory))
return KErrGeneral;
if(retStatus != KErrNone)
{
Print(EError,"Insufficent Memory/Not able to generate the Structure\n");
if(DeleteTempFolder((char*)iTempDirName) != KErrNone )
{
Print(EWarning,"Not able to delete the temp folder : %s",iTempDirName);
}
return KErrGeneral;
}
// Close log file.
H.CloseLogFile();
// Convert fileformat to corresponding enum value.
enum TFileSystem fileFormat = (TFileSystem)0;
FormatTranslation(iObey->iDriveFileFormat,fileFormat);
// Call to file system module. create the image.
if(iObey->iDataSize)
retStatus = CFileSystemInterFace::CreateFilesystem(&iNodeList,fileFormat,
(char*)iObey->iDriveFileName,
(char*)alogfile,
iObey->iConfigurableFatAttributes,
iObey->iDataSize);
else
retStatus = CFileSystemInterFace::CreateFilesystem(&iNodeList,fileFormat,
(char*)iObey->iDriveFileName,
(char*)alogfile,
iObey->iConfigurableFatAttributes); ;
//delete the temp folder.
if(DeleteTempFolder((char*)iTempDirName) != KErrNone )
{
cout << "Warning: Not able to delete the temp folder : " << iTempDirName << "\n" ;
}
return retStatus;
}
/**
Delete the temp directory.
@param aTempDirName - Temporory folder name to be deleted.
@return Status(r) - returns the status.
'KErrGeneral' - Unable to done the above operations properly.
'KErrNone' - successfully deleted the folder.
*/
TInt CDriveImage::DeleteTempFolder(char* aTempDirName)
{
TInt fileDeleted = 1;
std::string dirPath(aTempDirName);
std::string fileName(aTempDirName);
#ifdef __LINUX__
// Open directory
DIR *dirHandler = opendir(aTempDirName);
struct dirent *dirEntry;
if(!dirHandler)
return KErrGeneral;
dirPath.append("/");
fileName.append("/");
// Go through each entry
while(dirEntry = readdir(dirHandler))
{
if(dirEntry->d_type != DT_DIR)
{
fileName.append((char*)dirEntry->d_name);
remove(fileName.c_str());
fileName.assign(dirPath);
}
}
//Close dir
if(!closedir(dirHandler))
{
fileDeleted = rmdir(aTempDirName);
}
#else
WIN32_FIND_DATA FindFileData;
HANDLE hFind = INVALID_HANDLE_VALUE;
dirPath.append("\\*");
fileName.append("\\");
// find the first file
hFind = FindFirstFile(dirPath.c_str(),&FindFileData);
if(hFind == INVALID_HANDLE_VALUE)
return KErrGeneral;
dirPath.assign(fileName);
do
{
// Check for directory or file.
if(!(FindFileData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))
{
// Delete the file.
fileName.append((char*)FindFileData.cFileName);
remove(fileName.c_str());
fileName.assign(dirPath);
}
} while(FindNextFile(hFind,&FindFileData));
FindClose(hFind);
if(ERROR_NO_MORE_FILES != GetLastError())
{
cout << "Warning: FindNextFile error. Error is " << GetLastError() << "\n" ;
}
fileDeleted = _rmdir(aTempDirName);
#endif
if(!fileDeleted)
return KErrNone;
else
return KErrGeneral;
}
/**
General Tree Traverse to create the List.
Recursive call to update the list.
@param anode - Current Node in the tree.
@param anodeType - Node type(root,child,sibling)
@return r - returns 'KErrNoMemory' if fails to generate the list or memory not allocated.
or 'KErrNone'
*/
TInt CDriveImage::GenTreeTraverse(TRomNode* anode,enum KNodeType anodeType)
{
TInt r =0;
if((r = CreateDirOrFileEntry(anode,anodeType)) != KErrNone)
return KErrNoMemory;
if(anode->Currentchild())
{
if((r = GenTreeTraverse(anode->Currentchild(),KNodeTypeChild)) != KErrNone)
return KErrNoMemory;
if(iNodeAddStore.size())
iNodeAddStore.pop_back();
--iListReference;
}
if(anode->Currentsibling())
{
if((r = GenTreeTraverse(anode->Currentsibling(),KNodeTypeSibling)) != KErrNone)
return KErrNoMemory;
}
return r;
}
/**
Generate the List. required for drive image creation.
Hidden file node is not placed in list.
@param atempnode - Current Node in the tree.
@param aType - Node type(root,child,sibling)
@return r - returns 'KErrNoMemory' if memory is not allocated or 'KErrNone'
*/
TInt CDriveImage::CreateDirOrFileEntry(TRomNode* atempnode,enum KNodeType aType)
{
CDirectory* iDirectory = new CDirectory((char*)atempnode->iName);
if(!iDirectory)
return KErrNoMemory;
char attrib = 0 ;
if(atempnode->iAtt & KEntryAttReadOnly)
attrib |= EAttrReadOnly ;
if(atempnode->iAtt & KEntryAttHidden)
attrib |= EAttrHidden ;
if(atempnode->iAtt & KEntryAttSystem)
attrib |= EAttrSystem ;
// for files only.
if(atempnode->iEntry)
{
iDirectory->SetEntryAttribute(attrib);
// don't place the hidden files to list.
if(!atempnode->iHidden)
{
iDirectory->SetFilePath(atempnode->iEntry->iFileName);
iDirectory->SetFileSize(atempnode->iSize);
}
else
{
iNodeAddStore.push_back((void*)iParentInnerList);
++iListReference;
return KErrNone;
}
}
else
iDirectory->SetEntryAttribute(attrib | EAttrDirectory);
switch(aType)
{
case KNodeTypeRoot:
iDirectory->SetEntryAttribute(EAttrVolumeId);
iNodeList.push_back(iDirectory);
iParentInnerList = iDirectory->GetEntryList();
break;
case KNodeTypeChild:
iNodeAddStore.push_back((void*)iParentInnerList);
++iListReference;
iParentInnerList->push_back(iDirectory);
iParentInnerList = iDirectory->GetEntryList();
break;
case KNodeTypeSibling:
iParentInnerList =(std::list<CDirectory*> *)(iNodeAddStore[iListReference-1]);
iParentInnerList->push_back(iDirectory);
iParentInnerList = iDirectory->GetEntryList();
break;
default:
break;
}
return KErrNone;
}
/**
Traverses all entries and update compress/uncompress and file attribute options.
Place executables in temp folder.(if changed)
Hidden file node is not placed in temp folder.
@return r - returns 'KErrNoMemory/KErrGeneral' if fails to update the options or memory
not allocated or else 'KErrNone' for Succesfully operation.
*/
TInt CDriveImage::ConstructOptions()
{
TInt32 len = 0;
TRomNode* node = TRomNode::FirstNode();
CBytePair bpe(gFastCompress);
while(node)
{
// Don't do anything for hidden files.
if(node->IsFile() && (!node->iHidden))
{
TInt32 size=HFile::GetLength((TText*)node->iEntry->iFileName);
if(size <= 0)
{
Print(EWarning,"File %s does not exist or is 0 bytes in length.\n",node->iEntry->iFileName);
}
node->iSize = size;
if(node->iEntry->iExecutable && (size > 0))
{
if((node->iFileUpdate) || (node->iOverride))
{
iData = new char[(size * 2)];
if(!iData)
return KErrNoMemory;
HMem::Set(iData, 0xff, (size * 2));
TUint8* aData = (TUint8*)iData;
len = node->PlaceFile(aData,0,(size * 2),&bpe);
if(len < KErrNone)
{
delete[] iData;
iData = 0;
return KErrGeneral;
}
// Place the file in Newly created Folder.
TInt r = PlaceFileTemporary(len,node);
delete[] iData;
iData = 0;
if(r != KErrNone)
{
return r;
}
} // file update end.
}
} // is file end
node = node->NextNode();
}
return KErrNone;
}
/**
Place the modified exe's(e32 format) in Temp Folder.
Place executables in temp folder.(if changed)
@param afileSize - No. of bytes to be palced in the file.
@param acurrentNode - file node, to modify its source path.
@return r - returns 'KErrNoMemory' if fails to allocate the memory.
or 'KErrNone'
*/
TInt CDriveImage::PlaceFileTemporary(const TInt afileSize,TRomNode* acurrentNode)
{
TInt randomValue = 0;
char randomString[KMaxGenBuffer] = "\0";
unsigned char* fileSourcePath = acurrentNode->iEntry->iName;
std::string newFileName;
do
{
newFileName.append(iTempDirName);
newFileName.append("/");
if(!randomValue)
{
newFileName.append((char*)fileSourcePath);
}
else
{
newFileName.append(randomString);
newFileName.append((char*)fileSourcePath);
}
#if defined(__MSVCDOTNET__) || defined(__TOOLS2__)
ifstream test(newFileName.c_str());
#else //!__MSVCDOTNET__
ifstream test(newFileName.c_str(), ios::nocreate);
#endif //__MSVCDOTNET__
if (!test)
{
test.close();
ofstream driveFile((char *)newFileName.c_str(),ios::binary);
if (!driveFile)
{
Print(EError,"Cannot open file %s for output\n",newFileName.c_str());
return KErrGeneral;
}
driveFile.write(iData,afileSize);
driveFile.close();
// Update the new source path.
delete[] acurrentNode->iEntry->iFileName;
acurrentNode->iEntry->iFileName = new char[ strlen(newFileName.c_str()) + 1 ];
if(!acurrentNode->iEntry->iFileName)
return KErrNoMemory;
strcpy(acurrentNode->iEntry->iFileName,newFileName.c_str());
break;
}
test.close();
newFileName.erase();
++randomValue;
sprintf(randomString,"%d",randomValue);
}
while(randomValue);
return KErrNone;
}