revert the change to rofsbuild image format, but add checking codes to prevent address overflow
/*
* Copyright (c) 2005-2009 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
*
*/
#include "image_handler.h"
#include "r_obey.h"
#include "r_romnode.h"
#include "r_coreimage.h"
#include "rofs_image_reader.h"
#include "rom_image_reader.h"
#include "e32_image_reader.h"
#include "e32rom.h"
#include "h_ver.h"
#include "sis2iby.h"
#include <time.h>
ECompression gCompress=ECompressionUnknown;
ostream *out = &cout;
string ImageReader::iE32ImgFileName = "";
string ImageReader::iZdrivePath = "";
string ImageReader::iLogFileName = "";
string ImageReader::iPattern = "";
string SisUtils::iOutputPath = ".";
string SisUtils::iExtractPath = ".";
TBool gIsOBYUTF8 = EFalse;
ImageHandler::ImageHandler() : iReader(NULL) ,iOptions(0), iSisUtils(NULL) {
}
ImageHandler::~ImageHandler() {
if(iReader)
delete iReader;
if(iSisUtils)
delete iSisUtils;
}
void ImageHandler::ProcessArgs(int argc, char*argv[]) {
if( argc < 2) {
throw ImageReaderUsageException("", "");
}
bool aOutFileGiven = false;
int index = 1;
while( argc > index ) {
char* arg = argv[index];
if(arg[0] == '-') {
switch(0x20 | arg[1]) {
case 'd':
//dump header info
iOptions |= DUMP_HDR_FLAG;
break;
case 'e':
iOptions |= DUMP_E32_IMG_FLAG;
++index ;
if(index < argc) {
arg = argv[index];
ImageReader::iE32ImgFileName = string(arg);
}
else
throw ImageReaderUsageException("Usage error", arg);
break;
case 'h':
PrintUsage();
exit(EXIT_SUCCESS);
case 'o':
if(arg[2]) {
if((stricmp(arg,"-OUTDIR")==0)) {
++index;
if(index < argc) {
arg = argv[index];
SisUtils::iOutputPath = string(arg);
}
else
throw ImageReaderUsageException("Usage Error", arg);
}
else
throw ImageReaderUsageException("Usage Error", arg);
}
else {
aOutFileGiven = true;
++index;
if( index < argc ) {
// unless using iOutFile.c_str() immediately after
// iOutFile = argv[index+1];
// iOutFile will not be assign correctly,
// is it a defect of gcc 3.4.5 ?
arg = argv[index];
iOutFile = string(arg);
}
else
throw ImageReaderUsageException("Usage Error", arg);
}
break;
case 'r':
if(arg[2])
throw ImageReaderUsageException("Usage Error", arg);
iOptions |= RECURSIVE_FLAG;
break;
case 's':
if(arg[2]) {
if(stricmp(arg,"-SIS2IBY")==0) {
iOptions |= MODE_SIS2IBY;
}
else
throw ImageReaderUsageException("Usage Error", arg);
}
else
iOptions |= DUMP_DIR_ENTRIES_FLAG;
break;
case 't':
if((stricmp(argv[index],"-TMPDIR")==0)) {
++index;
if( index < argc ) {
arg = argv[index];
SisUtils::iExtractPath = string(arg);
}
else
throw ImageReaderUsageException("Usage Error", arg);
}
else
throw ImageReaderUsageException("Usage Error", arg);
break;
case 'v':
if(arg[2])
throw ImageReaderUsageException("Usage Error", arg);
iOptions |= DUMP_VERBOSE_FLAG;
break;
case 'l':
++index;
if(index < argc) {
arg = argv[index];
ImageReader::iLogFileName = string(arg);
}
else
throw ImageReaderUsageException("Usage error", arg);
iOptions |= LOG_IMAGE_CONTENTS_FLAG;
break;
case 'x':
++index;
if(index < argc && 0 == arg[2]) {
arg = argv[index];
ImageReader::iPattern = string(arg);
}
else
throw ImageReaderUsageException("Usage error", arg);
iOptions |= EXTRACT_FILE_SET_FLAG;
break;
case 'z':
++index;
if(index < argc ){
arg = argv[index];
ImageReader::iZdrivePath = string(arg);
}
else
throw ImageReaderUsageException("Usage error", arg);
iOptions |= EXTRACT_FILES_FLAG;
break;
default:
throw ImageReaderUsageException("Invalid command", arg);
break;
}
}
else {
if(!iInputFileName.empty()) {
throw ImageReaderUsageException("Invalid command", "Multiple input file not supported");
}
SetInputFile(string(arg));
}
index++;
}
if( aOutFileGiven && !(iOptions & MODE_SIS2IBY) ) {
ofstream* rdout = new ofstream(iOutFile.c_str(), ios_base::out | ios_base::trunc);
if( !rdout->is_open()){
delete rdout ;
rdout = NULL ;
throw ImageReaderException(iOutFile.c_str(), "Unable to open File");
}
out = rdout ;
}
// Disable -z option if -x option is passed
if( (iOptions & EXTRACT_FILE_SET_FLAG) && (iOptions & EXTRACT_FILES_FLAG) ) {
iOptions &= ~(EXTRACT_FILES_FLAG);
}
// -r option should be used along with -x option
if( (iOptions & RECURSIVE_FLAG) && !(iOptions & EXTRACT_FILE_SET_FLAG) ) {
throw ImageReaderUsageException("Usage error", "-r should be used with -x");
}
}
EImageType ImageHandler::ReadMagicWord() {
ifstream file(iInputFileName.c_str(), ios_base::in | ios_base::binary );
EImageType retVal = EUNKNOWN_IMAGE;
if( !file.is_open() ) {
throw ImageReaderException(iInputFileName.c_str(), "Cannot open file ");
}
TUint8 magicWords[16];
file.read(reinterpret_cast<char*>(magicWords),16);
if(0 == memcmp(magicWords,"ROFS",4)) {
retVal = EROFS_IMAGE;
}else if(0 == memcmp(magicWords,"ROFx",4)) {
retVal = EROFX_IMAGE;
}
else if(0 == memcmp(magicWords,"EPOC",4) && 0 == memcmp(&magicWords[8],"ROM",3) ) {
retVal = EROM_IMAGE;
}
else {
E32ImageFile aE32;
TUint32 aSz;
file.seekg(0,ios_base::end);
aSz = file.tellg();
file.seekg(0,ios_base::beg);
aE32.Adjust(aSz);
aE32.iFileSize = aSz;
file >> aE32;
if(aE32.iError == KErrNone){
retVal = EE32_IMAGE;
}
else {
TExtensionRomHeader exRomHeader;
file.seekg(0, ios_base::beg);
file.read(reinterpret_cast<char*>(&exRomHeader), sizeof(TExtensionRomHeader));
TUint zeroTime = time(0);
// aExtensionRomHeader.iTime and aExtensionRomHeader.iKernelTime are
// in microseconds. So convert them to seconds and see if these are
// valid times e.g. a time(in seconds) after midnight Jan 1st, 1970
TUint imgTime = exRomHeader.iTime / 1000000;
TUint kernImgTime = exRomHeader.iKernelTime / 1000000;
if( imgTime >= zeroTime && kernImgTime >= zeroTime) {
//Check if the padding in the header has value 0xff
retVal = EROMX_IMAGE;
for(int i = sizeof(exRomHeader.iPad) - 1 ; i >= 0 ; i--){
if(0xff != exRomHeader.iPad[i]){
retVal = EUNKNOWN_IMAGE;
break ;
}
}
}
}
}
if(retVal == EUNKNOWN_IMAGE){
file.seekg(0,ios_base::beg);
retVal = ReadBareImage(file);
}
file.close();
return retVal;
}
/**
* @fn ImageHandler::ReadBareImage
* @brief this function processes image type under the condition of that if an image is given without header which means the image is not self-described
* @return type of the image.
* @note this function is introduced for handling issues raised by DEF129908
*/
EImageType ImageHandler::ReadBareImage(ifstream& aIfs) {
TRomHeader romHdr ;
aIfs.read(reinterpret_cast<char*>(&romHdr),sizeof(TRomHeader));
return ((romHdr.iRomBase >= KRomBase ) &&
(romHdr.iRomRootDirectoryList > KRomBase ) &&
(romHdr.iRomBase < KRomBaseMaxLimit ) &&
(romHdr.iRomRootDirectoryList < KRomBaseMaxLimit)) ? EBAREROM_IMAGE : EUNKNOWN_IMAGE;
}
void ImageHandler::HandleInputFiles() {
if(!(iOptions & MODE_SIS2IBY)) {
EImageType imgType = ReadMagicWord();
switch(imgType)
{
case EROFS_IMAGE:
case EROFX_IMAGE:
iReader = new RofsImageReader(iInputFileName.c_str());
break;
case EROM_IMAGE:
iReader = new RomImageReader(iInputFileName.c_str());
break;
case EBAREROM_IMAGE:
iReader = new RomImageReader(iInputFileName.c_str(), EBAREROM_IMAGE);
break;
case EROMX_IMAGE:
iReader = new RomImageReader(iInputFileName.c_str(), EROMX_IMAGE);
break;
case EE32_IMAGE:
iReader = new E32ImageReader(iInputFileName.c_str());
break;
default:
{
throw ImageReaderException(iInputFileName.c_str(), "Unknown Type of Image file");
}
break;
}
if(iReader) {
iReader->ReadImage();
iReader->ProcessImage();
iReader->Validate();
iReader->SetDisplayOptions( iOptions );
iReader->ExtractImageContents();
iReader->Dump();
}
}
else {
if(iInputFileName.empty()) {
throw SisUtilsException("Usage Error", "No SIS file passed");
}
iSisUtils = new Sis2Iby(iInputFileName.c_str());
if(iSisUtils) {
if(iOptions & DUMP_VERBOSE_FLAG) {
iSisUtils->SetVerboseMode();
}
iSisUtils->ProcessSisFile();
iSisUtils->GenerateOutput();
}
else {
throw SisUtilsException("Error:", "Cannot create Sis2Iby object");
}
}
}
void ImageHandler::PrintVersion() {
*out << "\nReadimage - reader for Rom, Rofs and E32 images V";
out->width(1);
*out << MajorVersion << ".";
out->width(2);
out->fill('0');
*out << MinorVersion << " (";
out->width(3);
*out << Build << ") " << endl;
*out << Copyright;
}
void ImageHandler::PrintUsage() {
PrintVersion();
const char aUsage[] =
"Usage: readImage [options] [<-sis2iby> [sis-options]] <filename>\n\n"
"Options: With no options, it prints the files and directories in image\n"
" -o output file name\n"
" -d dump header information(default)\n"
" -s dump the directory structure\n"
" -v dump image headers and directory structure\n"
" -e xxx dump the xxx e32 image within the entire image when used along with -v or -s option\n"
" -h this message\n"
" -z xxx extract all the file(s) from the given image to xxx location\n"
" -l xxx log the image contents on to xxx file\n"
" -x xxx extract single or set of files as given in xxx from the given image\n"
" -r recursively extract files from the sub-directories when used along with -x option\n\n"
"SIS-options: Option -sis2iby changes the mode to generate IBY from SIS file\n"
" -sis2iby generates iby file for the given SIS file\n"
" -tmpdir xxx extract all sis file contents to xxx location\n"
" -outdir xxx generates the iby file(s) to xxx location\n"
" -v verbose output\n";
*out << aUsage << endl;
}
int main(int argc, char* argv[]) {
ImageHandler aIh;
int retVal = EXIT_SUCCESS;
try {
aIh.ProcessArgs(argc, argv);
aIh.HandleInputFiles();
}
catch(ImageReaderUsageException& aIre) {
if(argc >= 2) {
//This is a usage error and has to be reported
//Otherwise, it is called just to display the usage
aIre.Report();
}
aIh.PrintUsage();
retVal = EXIT_FAILURE;
}
catch(ImageReaderException& aIre) {
aIre.Report();
retVal = EXIT_FAILURE;
}
catch(SisUtilsException& aSUe) {
aSUe.Report();
retVal = EXIT_FAILURE;
}
if(out != &cout){
ofstream* rdout = static_cast<ofstream*>(out) ;
rdout->close() ;
delete rdout ;
}
return retVal;
}