/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include "common/translation.h" #include "backends/platform/tizen/system.h" #include "backends/platform/tizen/fs.h" #include #define BUFFER_SIZE 1024 using namespace Tizen::App; // // converts a Tizen (wchar) String into a scummVM (char) string // Common::String fromString(const Tizen::Base::String &in) { ByteBuffer *buf = StringUtil::StringToUtf8N(in); Common::String result((const char*)buf->GetPointer()); delete buf; return result; } // // TizenFileStream // class TizenFileStream : public Common::SeekableReadStream, public Common::WriteStream, public Common::NonCopyable { public: static TizenFileStream *makeFromPath(const String &path, bool writeMode); TizenFileStream(File *file, bool writeMode); ~TizenFileStream(); bool err() const; void clearErr(); bool eos() const; uint32 write(const void *dataPtr, uint32 dataSize); bool flush(); int32 pos() const; int32 size() const; bool seek(int32 offs, int whence = SEEK_SET); uint32 read(void *dataPtr, uint32 dataSize); private: byte _buffer[BUFFER_SIZE]; uint32 _bufferIndex; uint32 _bufferLength; bool _writeMode; File *_file; }; TizenFileStream::TizenFileStream(File *ioFile, bool writeMode) : _bufferIndex(0), _bufferLength(0), _writeMode(writeMode), _file(ioFile) { AppAssert(ioFile != 0); } TizenFileStream::~TizenFileStream() { if (_file) { if (_writeMode) { flush(); } delete _file; } } bool TizenFileStream::err() const { result r = GetLastResult(); return (r != E_SUCCESS && r != E_END_OF_FILE); } void TizenFileStream::clearErr() { SetLastResult(E_SUCCESS); } bool TizenFileStream::eos() const { return (_bufferLength - _bufferIndex == 0) && (GetLastResult() == E_END_OF_FILE); } int32 TizenFileStream::pos() const { return _file->Tell() - (_bufferLength - _bufferIndex); } int32 TizenFileStream::size() const { int32 oldPos = _file->Tell(); _file->Seek(FILESEEKPOSITION_END, 0); int32 length = _file->Tell(); SetLastResult(_file->Seek(FILESEEKPOSITION_BEGIN, oldPos)); return length; } bool TizenFileStream::seek(int32 offs, int whence) { bool result = false; switch (whence) { case SEEK_SET: // set from start of file SetLastResult(_file->Seek(FILESEEKPOSITION_BEGIN, offs)); result = (E_SUCCESS == GetLastResult()); break; case SEEK_CUR: // set relative to offs if (_bufferIndex < _bufferLength && _bufferIndex > (uint32)-offs) { // re-position within the buffer SetLastResult(E_SUCCESS); _bufferIndex += offs; return true; } else { offs -= (_bufferLength - _bufferIndex); if (offs < 0 && _file->Tell() + offs < 0) { // avoid negative positioning offs = 0; } if (offs != 0) { SetLastResult(_file->Seek(FILESEEKPOSITION_CURRENT, offs)); result = (E_SUCCESS == GetLastResult()); } else { result = true; } } break; case SEEK_END: // set relative to end - positive will increase the file size SetLastResult(_file->Seek(FILESEEKPOSITION_END, offs)); result = (E_SUCCESS == GetLastResult()); break; default: AppLog("Invalid whence %d", whence); return false; } if (!result) { AppLog("seek failed"); } _bufferIndex = _bufferLength = 0; return result; } uint32 TizenFileStream::read(void *ptr, uint32 len) { uint32 result = 0; if (!eos()) { if (_bufferIndex < _bufferLength) { // use existing buffer uint32 available = _bufferLength - _bufferIndex; if (len <= available) { // use allocation memcpy((byte *)ptr, &_buffer[_bufferIndex], len); _bufferIndex += len; result = len; } else { // use remaining allocation memcpy((byte *)ptr, &_buffer[_bufferIndex], available); uint32 remaining = len - available; result = available; if (remaining) { result += _file->Read(((byte *)ptr) + available, remaining); } _bufferIndex = _bufferLength = 0; } } else if (len < BUFFER_SIZE) { // allocate and use buffer _bufferIndex = 0; _bufferLength = _file->Read(_buffer, BUFFER_SIZE); if (_bufferLength) { if (_bufferLength < len) { len = _bufferLength; } memcpy((byte *)ptr, _buffer, len); result = _bufferIndex = len; } } else { result = _file->Read((byte *)ptr, len); _bufferIndex = _bufferLength = 0; } } else { AppLog("Attempted to read past EOS"); } return result; } uint32 TizenFileStream::write(const void *ptr, uint32 len) { result r = _file->Write(ptr, len); SetLastResult(r); return (r == E_SUCCESS ? len : 0); } bool TizenFileStream::flush() { logEntered(); SetLastResult(_file->Flush()); return (E_SUCCESS == GetLastResult()); } TizenFileStream *TizenFileStream::makeFromPath(const String &path, bool writeMode) { File *ioFile = new File(); String filePath = path; if (writeMode && (path[0] != '.' && path[0] != '/')) { filePath.Insert(App::GetInstance()->GetAppDataPath() + L"/", 0); } AppLog("Open file %S", filePath.GetPointer()); TizenFileStream *stream; result r = ioFile->Construct(filePath, writeMode ? L"w" : L"r", writeMode); if (r == E_SUCCESS) { stream = new TizenFileStream(ioFile, writeMode); } else { AppLog("Failed to open file"); delete ioFile; stream = NULL; } return stream; } // // TizenFilesystemNode // TizenFilesystemNode::TizenFilesystemNode(const Common::String &nodePath) { AppAssert(nodePath.size() > 0); init(nodePath); } TizenFilesystemNode::TizenFilesystemNode(SystemPath systemPath) { switch (systemPath) { case kData: _unicodePath = App::GetInstance()->GetAppDataPath(); _displayName = _s("[ Data ]"); break; case kResource: _unicodePath = App::GetInstance()->GetAppResourcePath(); _displayName = _s("[ Resources ]"); break; case kSdCard: _unicodePath = Tizen::System::Environment::GetExternalStoragePath(); _displayName = _s("[ SDCard ]"); break; case kMedia: _unicodePath = Tizen::System::Environment::GetMediaPath(); _displayName = _s("[ Media ]"); break; case kShared: _unicodePath = App::GetInstance()->GetAppSharedPath(); _displayName = _s("[ Shared ]"); break; } _path = ::fromString(_unicodePath); _isValid = _isVirtualDir = !IsFailed(File::GetAttributes(_unicodePath, _attr)); } TizenFilesystemNode::TizenFilesystemNode(const Common::String &root, const Common::String &nodePath) { AppLog("TizenFilesystemNode '%s' '%s'", root.c_str(), nodePath.c_str()); // Make sure the string contains no slashes AppAssert(!nodePath.contains('/')); // We assume here that path is already normalized (hence don't bother to // call Common::normalizePath on the final path). Common::String newPath(root); if (root.lastChar() != '/') { newPath += '/'; } newPath += nodePath; init(newPath); } void TizenFilesystemNode::init(const Common::String &nodePath) { // Normalize the path (that is, remove unneeded slashes etc.) _path = Common::normalizePath(nodePath, '/'); _displayName = Common::lastPathComponent(_path, '/'); StringUtil::Utf8ToString(_path.c_str(), _unicodePath); _isVirtualDir = (_path == "/"); _isValid = _isVirtualDir || !IsFailed(File::GetAttributes(_unicodePath, _attr)); } bool TizenFilesystemNode::exists() const { return _isValid; } bool TizenFilesystemNode::isReadable() const { return _isVirtualDir || _isValid; } bool TizenFilesystemNode::isDirectory() const { return _isVirtualDir || (_isValid && _attr.IsDirectory()); } bool TizenFilesystemNode::isWritable() const { bool result = (_isValid && !_attr.IsReadOnly()); if (_unicodePath == App::GetInstance()->GetAppResourcePath()) { result = false; } return result; } AbstractFSNode *TizenFilesystemNode::getChild(const Common::String &n) const { AppAssert(!_path.empty()); AppAssert(isDirectory()); return new TizenFilesystemNode(_path, n); } bool TizenFilesystemNode::getChildren(AbstractFSList &myList, ListMode mode, bool hidden) const { AppAssert(isDirectory()); bool result = false; if (_isVirtualDir && mode != Common::FSNode::kListFilesOnly && _path == "/") { // present well known TIZEN file system areas myList.push_back(new TizenFilesystemNode(kData)); myList.push_back(new TizenFilesystemNode(kResource)); myList.push_back(new TizenFilesystemNode(kSdCard)); myList.push_back(new TizenFilesystemNode(kMedia)); myList.push_back(new TizenFilesystemNode(kShared)); } if (!result) { DirEnumerator *pDirEnum = 0; Directory *pDir = new Directory(); // open directory if (IsFailed(pDir->Construct(_unicodePath))) { AppLog("Failed to open directory: %S", _unicodePath.GetPointer()); } else { // read all directory entries pDirEnum = pDir->ReadN(); if (pDirEnum) { result = true; } // loop through all directory entries while (pDirEnum && pDirEnum->MoveNext() == E_SUCCESS) { DirEntry dirEntry = pDirEnum->GetCurrentDirEntry(); // skip 'invisible' files if necessary Tizen::Base::String fileName = dirEntry.GetName(); if (fileName[0] == '.' && !hidden) { continue; } // skip '.' and '..' to avoid cycles if (fileName == L"." || fileName == L"..") { continue; } // Honor the chosen mode if ((mode == Common::FSNode::kListFilesOnly && dirEntry.IsDirectory()) || (mode == Common::FSNode::kListDirectoriesOnly && !dirEntry.IsDirectory())) { continue; } myList.push_back(new TizenFilesystemNode(_path, ::fromString(fileName))); } } // cleanup if (pDirEnum) { delete pDirEnum; } // close the opened directory if (pDir) { delete pDir; } } return result; } AbstractFSNode *TizenFilesystemNode::getParent() const { logEntered(); if (_path == "/") { return 0; // The filesystem root has no parent } const char *start = _path.c_str(); const char *end = start + _path.size(); // Strip of the last component. We make use of the fact that at this // point, path is guaranteed to be normalized while (end > start && *(end-1) != '/') { end--; } if (end == start) { // This only happens if we were called with a relative path, for which // there simply is no parent. // TODO: We could also resolve this by assuming that the parent is the // current working directory, and returning a node referring to that. return NULL; } return new TizenFilesystemNode(Common::String(start, end)); } Common::SeekableReadStream *TizenFilesystemNode::createReadStream() { Common::SeekableReadStream *result = TizenFileStream::makeFromPath(_unicodePath, false); if (result != NULL) { _isValid = !IsFailed(File::GetAttributes(_unicodePath, _attr)); } return result; } Common::WriteStream *TizenFilesystemNode::createWriteStream() { Common::WriteStream *result = TizenFileStream::makeFromPath(_unicodePath, true); if (result != NULL) { _isValid = !IsFailed(File::GetAttributes(_unicodePath, _attr)); } return result; }