Solving incorrect handling when processing ExportName=SymbolName@Ordinal syntax.
/*
* 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_reader.h"
#include <stdio.h>
#include <stdlib.h>
#include <boost/filesystem.hpp>
using namespace boost::filesystem;
ImageReader::ImageReader(const char* aFile) : iDisplayOptions(0),iImgFileName(aFile) {
}
ImageReader::~ImageReader() {
}
void ImageReader::SetDisplayOptions(TUint32 aFlag) {
iDisplayOptions |= aFlag;
}
bool ImageReader::DisplayOptions(TUint32 aFlag) {
return ((iDisplayOptions & aFlag) != 0);
}
void ImageReader::DumpData(TUint* aData, TUint aLength) {
TUint *p=aData;
TUint i=0;
char line[256];
char *cp=(char*)aData;
TUint j=0;
memset(line,' ',sizeof(line));
while (i<aLength) {
TUint ccount=0;
char* linep=&line[8*5+2];
*out<< "0x";
out->width(6);
out->fill('0');
*out << i << ":";
while (i<aLength && ccount<4) {
*out<< " ";
out->width(8);
out->fill('0');
*out << *p++;
i+=4;
ccount++;
for (j=0; j<4; j++) {
char c=*cp++;
if (c<32) {
c = '.';
}
*linep++ = c;
}
}
*linep = '\0';
*out << line+(ccount*5) << endl;
}
}
/**
Function to extract specified file from a given image.
@internalComponent
@released
@param aOffset - starting offset of the file in the image.
@param aSize - size of the file in the image.
@param aFileName - name of the file.
@param aPath - full path of the file inside image.
@param aFilePath - path where file has to be extracted.
*/
void ImageReader::ExtractFile(TUint aOffset,TInt aSize,const char* aFileName,const char* aPath,const char* aFilePath,const char* aData) {
// concatenate path where specified file needs to be extracted with
// path where file is located in the image.
string fullPath( aFilePath );
if(*aPath != SLASH_CHAR1 && *aPath != SLASH_CHAR2){
char ch = aFilePath[fullPath.length() - 1];
if(ch != SLASH_CHAR1 && ch != SLASH_CHAR2)
fullPath += SLASH_CHAR1 ;
}
int startImagePath = (int)fullPath.length();
fullPath += aPath ;
// create specified directory where file needs to be extracted.
// to lower
char* data = const_cast<char*>(fullPath.data() + startImagePath);
for(; *data != 0 ; data++){
if(*data >= 'A' && *data <= 'Z'){
*data |= 0x20 ;
}
}
CreateSpecifiedDir(fullPath);
data -- ;
if(*data != SLASH_CHAR1)
fullPath += SLASH_CHAR1 ;
// concatenate path information with the filename
fullPath += aFileName ;
// create an output stream to extract the specified file.
ofstream outfile (fullPath.c_str(), ios_base::out | ios_base::binary);
// create an input stream by opening the specified image file.
ifstream infile(ImageReader::iImgFileName.c_str(),ios_base::in|ios_base::binary);
//declare a buffer to store the data.
char* buffer = new char[aSize];
if(aData != NULL){
memcpy(buffer, aData + aOffset, aSize);
}
else if(infile.is_open()) {
// place the get pointer for the current input stream to offset bytes away from origin.
infile.seekg(aOffset,ios_base::beg);
//read number of bytes specified by the variable size
//from the stream and place it on to buffer.
if (aSize)
infile.read(buffer,aSize);
//close the input stream after reading.
infile.close();
}
else {
throw ImageReaderException(ImageReader::iImgFileName.c_str(), "Failed to open the image file");
}
if(outfile.is_open()) {
//writes number of bytes specified by the variable size
//from buffer to the current output stream.
if (aSize)
outfile.write(buffer,aSize);
//close the output stream after writing.
outfile.close();
}
else {
throw ImageReaderException(aFileName, "Failed to extract the file");
}
//delete the buffer.
delete[] buffer;
}
/**
Function to create a given directory.
@internalComponent
@released
@param aSrcPath - path of the directory that needs to be created.
*/
void ImageReader::CreateSpecifiedDir(const string& aSrcPath) {
char* currWorkingDir = new char[PATH_MAX];
int len = aSrcPath.length() ;
const char* origPath = aSrcPath.c_str();
char* path = new char[len + 2];
memcpy(path,origPath,len);
if(path[len - 1] != SLASH_CHAR1 && path[len - 1] != SLASH_CHAR2){
path[len] = SLASH_CHAR1 ;
len ++ ;
}
path[len] = 0;
char* start = path;
char* end = path + len ;
char errMsg[400] ;
*errMsg = 0;
char* dirEnd ;
// get the current working directory and store in buffer.
if( getcwd(currWorkingDir,PATH_MAX) == NULL ) {
// throw an exception if unable to get current working directory information.
snprintf(errMsg,400,"Failed to get the current working directory") ;
goto L_EXIT;
}
#ifdef WIN32
//check dir
if(isalpha(start[0]) && start[1] == ':'){
char ch = start[3] ;
start[3] = 0;
if(chdir(start)) {
snprintf(errMsg, 400 ,"Failed to change to the directory \"%s\".",path);
goto L_EXIT;
}
start[3] = ch ;
start += 3 ;
}
else if(*start == SLASH_CHAR1 || *start == SLASH_CHAR2){
if(chdir("\\")){
snprintf(errMsg, 400 ,"Failed to change to the directory \"\\\".");
goto L_EXIT;
}
start ++ ;
}
#else
if(*start == SLASH_CHAR1 || *start == SLASH_CHAR2){
if(chdir("/")) {
snprintf(errMsg, 400 ,"Failed to change to the directory \"/\".");
goto L_EXIT;
}
start ++ ;
}
#endif
dirEnd = start ;
while( start < end ) {
while(*dirEnd != SLASH_CHAR1 && *dirEnd != SLASH_CHAR2)
dirEnd ++ ;
*dirEnd = 0 ;
if(!exists(start)) {
MKDIR(start);
}
if(chdir(start)){
snprintf(errMsg, 400 ,"Failed to change to the directory \"%s\".",path);
goto L_EXIT;
}
*dirEnd = SLASH_CHAR1;
start = dirEnd + 1;
dirEnd = start ;
}
L_EXIT:
chdir(currWorkingDir);
delete[] currWorkingDir;
delete [] path;
if(*errMsg)
throw ImageReaderException(ImageReader::iImgFileName.c_str(), errMsg);
}
/**
Function to insert a given string with a delimiter.
@internalComponent
@released
@param aSrcStr - string to be modified.
@param aDelimiter - string to be checked.
@param aAppStr - string to be inserted with the delimiter.
*/
void ImageReader::FindAndInsertString(string& aSrcStr,string& aDelimiter,string& aAppStr) {
string::size_type loc = 0;
string::size_type pos =0;
while(( pos = aSrcStr.find( aDelimiter, loc ) ) != ( string::npos ) ) {
if( pos != string::npos ) {
aSrcStr.insert(pos,aAppStr);
loc = pos + aAppStr.length() + 1;
}
}
}
/**
Function to replace a delimiter with a given string.
@internalComponent
@released
@param aSrcStr - string to be modified.
@param aDelimiter - string to be checked.
@param aReplStr - string to be replaced with the delimiter.
*/
void ImageReader::FindAndReplaceString( string& aSrcStr, string& aDelimiter, string& aReplStr ) {
string::size_type loc = 0;
string::size_type pos =0;
while(( pos = aSrcStr.find( aDelimiter,loc) ) != ( string::npos ) ) {
if( pos != string::npos ) {
aSrcStr.replace( pos, aReplStr.length(),aReplStr );
loc = pos + aReplStr.length() + 1;
}
}
}
/**
Function to extract individual or a subset of file.
@internalComponent
@released
@param aData - ROM/ROFS image buffer pointer.
*/
void ImageReader::ExtractFileSet(const char* aData) {
FILEINFOMAP fileInfoMap;
TUint extfileCount = 0, noWcardFlag = 0 ;
//Get the filelist map
GetFileInfo(fileInfoMap);
//Check for wildcards
const char* patternStr = iPattern.c_str();
TInt dp = iPattern.length() - 1;
while(dp >= 0){
if(patternStr[dp] == SLASH_CHAR1 || patternStr[dp] == SLASH_CHAR2)
break ;
dp -- ;
}
size_t pos = iPattern.find_first_of("*?",dp + 1);
if(pos == string::npos)
noWcardFlag = 1;
//Process the map
if(fileInfoMap.size() > 0) {
FILEINFOMAP::iterator begin = fileInfoMap.begin();
FILEINFOMAP::iterator end = fileInfoMap.end();
// Replace all backslashes with forward slashes
string pat(iPattern);
for(size_t n = 0 ; n < iPattern.length(); n++){
if(patternStr[n] == SLASH_CHAR2)
pat[n] = SLASH_CHAR1 ;
}
// Insert root directory at the beginning if it is not there
pos = pat.find_first_not_of(" ", 0);
if(pos != string::npos) {
if(pat.at(pos) != SLASH_CHAR1)
pat.insert(pos, 1,SLASH_CHAR1);
}
// Assign CWD for destination path if it is empty
if(ImageReader::iZdrivePath.empty())
ImageReader::iZdrivePath.assign(".");
while(begin != end) {
string fileName((*begin).first);
PFILEINFO pInfo = (*begin).second;
// First match
int status = FileNameMatch(pat, fileName, (iDisplayOptions & RECURSIVE_FLAG));
// If no match
if((!status) && noWcardFlag) {
string newPattern(pat);
// Add * at the end
if(newPattern.at(pat.length()-1) != SLASH_CHAR1) {
newPattern += SLASH_CHAR1;
}
newPattern += "*";
status = FileNameMatch(newPattern, fileName, (iDisplayOptions & RECURSIVE_FLAG));
// If it matches update the pattern and reset wildcard flag
if(status) {
pat = newPattern;
noWcardFlag = 0;
}
}
if(status) {
// Extract the file
// Separarate the path and file name
int slash_pos = fileName.rfind(SLASH_CHAR1);
string fullPath = fileName.substr(0,slash_pos );
string file = fileName.substr(slash_pos + 1, fileName.length());
//FindAndReplaceString(fullPath, dirSep, backSlash);
char* fpStr = const_cast<char*>(fullPath.c_str());
for(size_t m = 0 ; m < fullPath.length() ; m++){
if(fpStr[m] == SLASH_CHAR2)
fpStr[m] = SLASH_CHAR1 ;
}
// Extract only those files exists in the image
if(pInfo->iSize && pInfo->iOffset) {
ExtractFile(pInfo->iOffset, pInfo->iSize, file.c_str(), fullPath.c_str() ,
ImageReader::iZdrivePath.c_str(), aData);
extfileCount++;
}
}
if(pInfo)
delete pInfo;
++begin;
}
fileInfoMap.clear();
}
// Throw error if the extracted file count is zero
if(!extfileCount) {
throw ImageReaderException(ImageReader::iImgFileName.c_str(), "No matching files found for the given pattern");
}
}
/**
To match the given file name aganist the given pattern with wildcards
@internalComponent
@released
@param aPattern - input filename pattern.
@param aFileName - input file name.
@param aRecursiveFlag - recursive search flag.
*/
int ImageReader::FileNameMatch(const string& aPattern, const string& aFileName, int aRecursiveFlag) {
const char *InputString = aFileName.c_str();
const char *Pattern = aPattern.c_str();
const char *CurrPattern = 0, *CurrString = 0;
// If the input is empty then return false
if((aPattern.empty()) || (!InputString))
return 0;
// First candidate match
// Step 1: Look for the exact matches between the input pattern and the given file-name till
// the first occurrence of wildcard character (*). This should also skip a character
// from matching for the occurrence of wildcard character(?) in the pattern.
while ((*InputString) && (*Pattern != '*')) {
if ((toupper(*Pattern) != toupper(*InputString)) && (*Pattern != '?')) {
return 0;
}
Pattern++;
InputString++;
}
// Wildcard match
// Step 2: Now the input string (file-name) should be checked against the wildcard characters (* and ?).
// Skip the input string if the pattern points to wildcard character(*). Do the exact match for
// other characters in the patterns except the wildcard character(?). The path-separator should be
// considered as non-match for non-recursive option.
while (*InputString) {
if ((*Pattern == '*')) {
if (!*++Pattern) {
// If recursive flag is set then this case matches for any character of the input string
// from the current position
if(aRecursiveFlag)
return 1;
}
// Update the current pattern and the current inputstring
CurrPattern = Pattern;
CurrString = InputString+1;
}
else if ((toupper(*Pattern) == toupper(*InputString)) || (*Pattern == '?')) {
// Exact match for the path separator
// So recursively call the function to look for the exact path level match
if(*Pattern == SLASH_CHAR1)
return FileNameMatch(Pattern, InputString, aRecursiveFlag);
// Exact match so increment both
Pattern++;
InputString++;
}
else if ((*InputString == SLASH_CHAR1) && (!aRecursiveFlag)) {
// Inputstring points to path separator and it is not expected here for non-recursive case
return 0;
}
else {
// Default case where it matches for the wildcard character *
Pattern = CurrPattern;
InputString = CurrString++;
}
}
// Leave any more stars in the pattern
while (*Pattern == '*')
Pattern++;
// Return the status
return !*Pattern;
}