/* * Copyright (c) 2010-2013 OTClient * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "resourcemanager.h" #include "filestream.h" #include #include #include #include ResourceManager g_resources; void ResourceManager::init(const char *argv0) { PHYSFS_init(argv0); PHYSFS_permitSymbolicLinks(1); } void ResourceManager::terminate() { PHYSFS_deinit(); } bool ResourceManager::discoverWorkDir(const std::string& existentFile) { // search for modules directory std::string possiblePaths[] = { g_resources.getCurrentDir(), g_resources.getBaseDir(), g_resources.getBaseDir() + "../", g_resources.getBaseDir() + "../share/" + g_app.getCompactName() + "/" }; bool found = false; for(const std::string& dir : possiblePaths) { if(!PHYSFS_addToSearchPath(dir.c_str(), 0)) continue; if(PHYSFS_exists(existentFile.c_str())) { g_logger.debug(stdext::format("Found work dir at '%s'", dir.c_str())); m_workDir = dir; found = true; break; } PHYSFS_removeFromSearchPath(dir.c_str()); } return found; } bool ResourceManager::setupUserWriteDir(const std::string& appWriteDirName) { std::string userDir = getUserDir(); std::string dirName; #ifndef WIN32 dirName = stdext::format(".%s", appWriteDirName); #else dirName = appWriteDirName; #endif std::string writeDir = userDir + dirName; if(!PHYSFS_setWriteDir(writeDir.c_str())) { if(!PHYSFS_setWriteDir(userDir.c_str()) || !PHYSFS_mkdir(dirName.c_str())) { g_logger.error(stdext::format("Unable to create write directory '%s': %s", writeDir, PHYSFS_getLastError())); return false; } } return setWriteDir(writeDir); } bool ResourceManager::setWriteDir(const std::string& writeDir, bool create) { if(!PHYSFS_setWriteDir(writeDir.c_str())) { g_logger.error(stdext::format("Unable to set write directory '%s': %s", writeDir, PHYSFS_getLastError())); return false; } if(!m_writeDir.empty()) removeSearchPath(m_writeDir); m_writeDir = writeDir; if(!addSearchPath(writeDir)) g_logger.error(stdext::format("Unable to add write '%s' directory to search path", writeDir)); return true; } bool ResourceManager::addSearchPath(const std::string& path, bool pushFront) { std::string savePath = path; if(!PHYSFS_addToSearchPath(path.c_str(), pushFront ? 0 : 1)) { bool found = false; for(std::string searchPath : m_searchPaths) { std::string newPath = searchPath + path; if(PHYSFS_addToSearchPath(newPath.c_str(), pushFront ? 0 : 1)) { savePath = newPath; found = true; break; } } if(!found) { //g_logger.error(stdext::format("Could not add '%s' to directory search path. Reason %s", path, PHYSFS_getLastError())); return false; } } if(pushFront) m_searchPaths.push_front(savePath); else m_searchPaths.push_back(savePath); return true; } bool ResourceManager::removeSearchPath(const std::string& path) { if(!PHYSFS_removeFromSearchPath(path.c_str())) return false; auto it = std::find(m_searchPaths.begin(), m_searchPaths.end(), path); assert(it != m_searchPaths.end()); m_searchPaths.erase(it); return true; } void ResourceManager::searchAndAddPackages(const std::string& packagesDir, const std::string& packageExt) { auto files = listDirectoryFiles(packagesDir); for(auto it = files.rbegin(); it != files.rend(); ++it) { const std::string& file = *it; if(!stdext::ends_with(file, packageExt)) continue; std::string package = getRealDir(packagesDir) + "/" + file; if(!addSearchPath(package, true)) g_logger.error(stdext::format("Unable to read package '%s': %s", package, PHYSFS_getLastError())); } } bool ResourceManager::fileExists(const std::string& fileName) { return (PHYSFS_exists(resolvePath(fileName).c_str()) && !PHYSFS_isDirectory(resolvePath(fileName).c_str())); } bool ResourceManager::directoryExists(const std::string& directoryName) { return (PHYSFS_isDirectory(resolvePath(directoryName).c_str())); } void ResourceManager::readFileStream(const std::string& fileName, std::iostream& out) { std::string buffer = readFileContents(fileName); if(buffer.length() == 0) { out.clear(std::ios::eofbit); return; } out.clear(std::ios::goodbit); out.write(&buffer[0], buffer.length()); out.seekg(0, std::ios::beg); } std::string ResourceManager::readFileContents(const std::string& fileName) { std::string fullPath = resolvePath(fileName); PHYSFS_File* file = PHYSFS_openRead(fullPath.c_str()); if(!file) stdext::throw_exception(stdext::format("unable to open file '%s': %s", fullPath, PHYSFS_getLastError())); int fileSize = PHYSFS_fileLength(file); std::string buffer(fileSize, 0); PHYSFS_read(file, (void*)&buffer[0], 1, fileSize); PHYSFS_close(file); return buffer; } bool ResourceManager::writeFileBuffer(const std::string& fileName, const uchar* data, uint size) { PHYSFS_file* file = PHYSFS_openWrite(fileName.c_str()); if(!file) { g_logger.error(PHYSFS_getLastError()); return false; } PHYSFS_write(file, (void*)data, size, 1); PHYSFS_close(file); return true; } bool ResourceManager::writeFileStream(const std::string& fileName, std::iostream& in) { std::streampos oldPos = in.tellg(); in.seekg(0, std::ios::end); std::streampos size = in.tellg(); in.seekg(0, std::ios::beg); std::vector buffer(size); in.read(&buffer[0], size); bool ret = writeFileBuffer(fileName, (const uchar*)&buffer[0], size); in.seekg(oldPos, std::ios::beg); return ret; } bool ResourceManager::writeFileContents(const std::string& fileName, const std::string& data) { return writeFileBuffer(fileName, (const uchar*)data.c_str(), data.size()); } FileStreamPtr ResourceManager::openFile(const std::string& fileName) { std::string fullPath = resolvePath(fileName); PHYSFS_File* file = PHYSFS_openRead(fullPath.c_str()); if(!file) stdext::throw_exception(stdext::format("unable to open file '%s': %s", fullPath, PHYSFS_getLastError())); return FileStreamPtr(new FileStream(fullPath, file, false)); } FileStreamPtr ResourceManager::appendFile(const std::string& fileName) { PHYSFS_File* file = PHYSFS_openAppend(fileName.c_str()); if(!file) stdext::throw_exception(stdext::format("failed to append file '%s': %s", fileName, PHYSFS_getLastError())); return FileStreamPtr(new FileStream(fileName, file, true)); } FileStreamPtr ResourceManager::createFile(const std::string& fileName) { PHYSFS_File* file = PHYSFS_openWrite(fileName.c_str()); if(!file) stdext::throw_exception(stdext::format("failed to create file '%s': %s", fileName, PHYSFS_getLastError())); return FileStreamPtr(new FileStream(fileName, file, true)); } bool ResourceManager::deleteFile(const std::string& fileName) { return PHYSFS_delete(resolvePath(fileName).c_str()) != 0; } bool ResourceManager::makeDir(const std::string directory) { return PHYSFS_mkdir(directory.c_str()); } std::list ResourceManager::listDirectoryFiles(const std::string& directoryPath) { std::list files; auto rc = PHYSFS_enumerateFiles(resolvePath(directoryPath).c_str()); for(int i = 0; rc[i] != NULL; i++) files.push_back(rc[i]); PHYSFS_freeList(rc); return files; } std::string ResourceManager::resolvePath(const std::string& path) { std::string fullPath; if(stdext::starts_with(path, "/")) fullPath = path; else { std::string scriptPath = "/" + g_lua.getCurrentSourcePath(); if(!scriptPath.empty()) fullPath += scriptPath + "/"; fullPath += path; } if(!(stdext::starts_with(fullPath, "/"))) g_logger.traceWarning(stdext::format("the following file path is not fully resolved: %s", path)); stdext::replace_all(fullPath, "//", "/"); return fullPath; } std::string ResourceManager::getRealDir(const std::string& path) { std::string dir; const char *cdir = PHYSFS_getRealDir(resolvePath(path).c_str()); if(cdir) dir = cdir; return dir; } std::string ResourceManager::getCurrentDir() { return boost::filesystem::current_path().generic_string() + "/"; } std::string ResourceManager::getBaseDir() { return PHYSFS_getBaseDir(); } std::string ResourceManager::getUserDir() { return PHYSFS_getUserDir(); } std::string ResourceManager::guessFilePath(const std::string& filename, const std::string& type) { if(isFileType(filename, type)) return filename; return filename + "." + type; } bool ResourceManager::isFileType(const std::string& filename, const std::string& type) { if(stdext::ends_with(filename, std::string(".") + type)) return true; return false; }