/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qplatformdefs.h" #include "private/qabstractfileengine_p.h" #include "private/qfsfileengine_p.h" #include "qfilesystemengine_p.h" #include #include "qfile.h" #include "qdir.h" #include "private/qmutexpool_p.h" #include "qvarlengtharray.h" #include "qdatetime.h" #include "qt_windows.h" #include #include #include #include #ifndef Q_OS_WINRT # include # include #endif #include #include #include #include #ifndef Q_OS_WINRT # define SECURITY_WIN32 # include #endif #ifndef PATH_MAX #define PATH_MAX FILENAME_MAX #endif QT_BEGIN_NAMESPACE static inline bool isUncPath(const QString &path) { // Starts with \\, but not \\. return (path.startsWith(QLatin1String("\\\\")) && path.size() > 2 && path.at(2) != QLatin1Char('.')); } /*! \internal */ QString QFSFileEnginePrivate::longFileName(const QString &path) { if (path.startsWith(QLatin1String("\\\\.\\"))) return path; QString absPath = QFileSystemEngine::nativeAbsoluteFilePath(path); #if !defined(Q_OS_WINRT) QString prefix = QLatin1String("\\\\?\\"); if (isUncPath(absPath)) { prefix.append(QLatin1String("UNC\\")); // "\\\\?\\UNC\\" absPath.remove(0, 2); } return prefix + absPath; #else return absPath; #endif } /* \internal */ bool QFSFileEnginePrivate::nativeOpen(QIODevice::OpenMode openMode) { Q_Q(QFSFileEngine); // All files are opened in share mode (both read and write). DWORD shareMode = FILE_SHARE_READ | FILE_SHARE_WRITE; int accessRights = 0; if (openMode & QIODevice::ReadOnly) accessRights |= GENERIC_READ; if (openMode & QIODevice::WriteOnly) accessRights |= GENERIC_WRITE; // WriteOnly can create files, ReadOnly cannot. DWORD creationDisp = (openMode & QIODevice::WriteOnly) ? OPEN_ALWAYS : OPEN_EXISTING; // Create the file handle. #ifndef Q_OS_WINRT SECURITY_ATTRIBUTES securityAtts = { sizeof(SECURITY_ATTRIBUTES), NULL, FALSE }; fileHandle = CreateFile((const wchar_t*)fileEntry.nativeFilePath().utf16(), accessRights, shareMode, &securityAtts, creationDisp, FILE_ATTRIBUTE_NORMAL, NULL); #else // !Q_OS_WINRT fileHandle = CreateFile2((const wchar_t*)fileEntry.nativeFilePath().utf16(), accessRights, shareMode, creationDisp, NULL); #endif // Q_OS_WINRT // Bail out on error. if (fileHandle == INVALID_HANDLE_VALUE) { q->setError(QFile::OpenError, qt_error_string()); return false; } // Truncate the file after successfully opening it if Truncate is passed. if (openMode & QIODevice::Truncate) q->setSize(0); return true; } /* \internal */ bool QFSFileEnginePrivate::nativeClose() { Q_Q(QFSFileEngine); if (fh || fd != -1) { // stdlib / stdio mode. return closeFdFh(); } // Windows native mode. bool ok = true; if (cachedFd != -1) { if (::_close(cachedFd) && !::CloseHandle(fileHandle)) { q->setError(QFile::UnspecifiedError, qt_error_string()); ok = false; } // System handle is closed with associated file descriptor. fileHandle = INVALID_HANDLE_VALUE; cachedFd = -1; return ok; } if ((fileHandle == INVALID_HANDLE_VALUE || !::CloseHandle(fileHandle))) { q->setError(QFile::UnspecifiedError, qt_error_string()); ok = false; } fileHandle = INVALID_HANDLE_VALUE; return ok; } /* \internal */ bool QFSFileEnginePrivate::nativeFlush() { if (fh) { // Buffered stdlib mode. return flushFh(); } if (fd != -1) { // Unbuffered stdio mode; always succeeds (no buffer). return true; } // Windows native mode; flushing is unnecessary. return true; } /* \internal \since 5.1 */ bool QFSFileEnginePrivate::nativeSyncToDisk() { if (fh || fd != -1) { // stdlib / stdio mode. No API available. return false; } return FlushFileBuffers(fileHandle); } /* \internal */ qint64 QFSFileEnginePrivate::nativeSize() const { Q_Q(const QFSFileEngine); QFSFileEngine *thatQ = const_cast(q); // ### Don't flush; for buffered files, we should get away with ftell. thatQ->flush(); // Always retrive the current information metaData.clearFlags(QFileSystemMetaData::SizeAttribute); bool filled = false; if (fileHandle != INVALID_HANDLE_VALUE && openMode != QIODevice::NotOpen ) filled = QFileSystemEngine::fillMetaData(fileHandle, metaData, QFileSystemMetaData::SizeAttribute); else filled = doStat(QFileSystemMetaData::SizeAttribute); if (!filled) { thatQ->setError(QFile::UnspecifiedError, qt_error_string(errno)); return 0; } return metaData.size(); } /* \internal */ qint64 QFSFileEnginePrivate::nativePos() const { Q_Q(const QFSFileEngine); QFSFileEngine *thatQ = const_cast(q); if (fh || fd != -1) { // stdlib / stido mode. return posFdFh(); } // Windows native mode. if (fileHandle == INVALID_HANDLE_VALUE) return 0; LARGE_INTEGER currentFilePos; LARGE_INTEGER offset; offset.QuadPart = 0; if (!::SetFilePointerEx(fileHandle, offset, ¤tFilePos, FILE_CURRENT)) { thatQ->setError(QFile::UnspecifiedError, qt_error_string()); return 0; } return qint64(currentFilePos.QuadPart); } /* \internal */ bool QFSFileEnginePrivate::nativeSeek(qint64 pos) { Q_Q(QFSFileEngine); if (fh || fd != -1) { // stdlib / stdio mode. return seekFdFh(pos); } LARGE_INTEGER currentFilePos; LARGE_INTEGER offset; offset.QuadPart = pos; if (!::SetFilePointerEx(fileHandle, offset, ¤tFilePos, FILE_BEGIN)) { q->setError(QFile::UnspecifiedError, qt_error_string()); return false; } return true; } /* \internal */ qint64 QFSFileEnginePrivate::nativeRead(char *data, qint64 maxlen) { Q_Q(QFSFileEngine); if (fh || fd != -1) { // stdio / stdlib mode. if (fh && nativeIsSequential() && feof(fh)) { q->setError(QFile::ReadError, qt_error_string(int(errno))); return -1; } return readFdFh(data, maxlen); } // Windows native mode. if (fileHandle == INVALID_HANDLE_VALUE) return -1; qint64 bytesToRead = maxlen; // Reading on Windows fails with ERROR_NO_SYSTEM_RESOURCES when // the chunks are too large, so we limit the block size to 32MB. static const qint64 maxBlockSize = 32 * 1024 * 1024; qint64 totalRead = 0; do { DWORD blockSize = DWORD(qMin(bytesToRead, maxBlockSize)); DWORD bytesRead; if (!ReadFile(fileHandle, data + totalRead, blockSize, &bytesRead, NULL)) { if (totalRead == 0) { // Note: only return failure if the first ReadFile fails. q->setError(QFile::ReadError, qt_error_string()); return -1; } break; } if (bytesRead == 0) break; totalRead += bytesRead; bytesToRead -= bytesRead; } while (totalRead < maxlen); return totalRead; } /* \internal */ qint64 QFSFileEnginePrivate::nativeReadLine(char *data, qint64 maxlen) { Q_Q(QFSFileEngine); if (fh || fd != -1) { // stdio / stdlib mode. return readLineFdFh(data, maxlen); } // Windows native mode. if (fileHandle == INVALID_HANDLE_VALUE) return -1; // ### No equivalent in Win32? return q->QAbstractFileEngine::readLine(data, maxlen); } /* \internal */ qint64 QFSFileEnginePrivate::nativeWrite(const char *data, qint64 len) { Q_Q(QFSFileEngine); if (fh || fd != -1) { // stdio / stdlib mode. return writeFdFh(data, len); } // Windows native mode. if (fileHandle == INVALID_HANDLE_VALUE) return -1; qint64 bytesToWrite = DWORD(len); // <- lossy // Writing on Windows fails with ERROR_NO_SYSTEM_RESOURCES when // the chunks are too large, so we limit the block size to 32MB. static const DWORD maxBlockSize = 32 * 1024 * 1024; qint64 totalWritten = 0; do { DWORD blockSize = qMin(bytesToWrite, maxBlockSize); DWORD bytesWritten; if (!WriteFile(fileHandle, data + totalWritten, blockSize, &bytesWritten, NULL)) { if (totalWritten == 0) { // Note: Only return error if the first WriteFile failed. q->setError(QFile::WriteError, qt_error_string()); return -1; } break; } if (bytesWritten == 0) break; totalWritten += bytesWritten; bytesToWrite -= bytesWritten; } while (totalWritten < len); return qint64(totalWritten); } /* \internal */ int QFSFileEnginePrivate::nativeHandle() const { if (fh || fd != -1) return fh ? QT_FILENO(fh) : fd; if (cachedFd != -1) return cachedFd; int flags = 0; if (openMode & QIODevice::Append) flags |= _O_APPEND; if (!(openMode & QIODevice::WriteOnly)) flags |= _O_RDONLY; cachedFd = _open_osfhandle((intptr_t) fileHandle, flags); return cachedFd; } /* \internal */ bool QFSFileEnginePrivate::nativeIsSequential() const { #if !defined(Q_OS_WINRT) HANDLE handle = fileHandle; if (fh || fd != -1) handle = (HANDLE)_get_osfhandle(fh ? QT_FILENO(fh) : fd); if (handle == INVALID_HANDLE_VALUE) return false; DWORD fileType = GetFileType(handle); return (fileType == FILE_TYPE_CHAR) || (fileType == FILE_TYPE_PIPE); #else return false; #endif } bool QFSFileEngine::remove() { Q_D(QFSFileEngine); QSystemError error; bool ret = QFileSystemEngine::removeFile(d->fileEntry, error); if (!ret) setError(QFile::RemoveError, error.toString()); return ret; } bool QFSFileEngine::copy(const QString ©Name) { Q_D(QFSFileEngine); QSystemError error; bool ret = QFileSystemEngine::copyFile(d->fileEntry, QFileSystemEntry(copyName), error); if (!ret) setError(QFile::CopyError, error.toString()); return ret; } bool QFSFileEngine::rename(const QString &newName) { Q_D(QFSFileEngine); QSystemError error; bool ret = QFileSystemEngine::renameFile(d->fileEntry, QFileSystemEntry(newName), error); if (!ret) setError(QFile::RenameError, error.toString()); return ret; } bool QFSFileEngine::renameOverwrite(const QString &newName) { Q_D(QFSFileEngine); bool ret = ::MoveFileEx((wchar_t*)d->fileEntry.nativeFilePath().utf16(), (wchar_t*)QFileSystemEntry(newName).nativeFilePath().utf16(), MOVEFILE_REPLACE_EXISTING) != 0; if (!ret) setError(QFile::RenameError, QSystemError(::GetLastError(), QSystemError::NativeError).toString()); return ret; } bool QFSFileEngine::mkdir(const QString &name, bool createParentDirectories) const { return QFileSystemEngine::createDirectory(QFileSystemEntry(name), createParentDirectories); } bool QFSFileEngine::rmdir(const QString &name, bool recurseParentDirectories) const { return QFileSystemEngine::removeDirectory(QFileSystemEntry(name), recurseParentDirectories); } bool QFSFileEngine::caseSensitive() const { return false; } bool QFSFileEngine::setCurrentPath(const QString &path) { return QFileSystemEngine::setCurrentPath(QFileSystemEntry(path)); } QString QFSFileEngine::currentPath(const QString &fileName) { #if !defined(Q_OS_WINRT) QString ret; //if filename is a drive: then get the pwd of that drive if (fileName.length() >= 2 && fileName.at(0).isLetter() && fileName.at(1) == QLatin1Char(':')) { int drv = fileName.toUpper().at(0).toLatin1() - 'A' + 1; if (_getdrive() != drv) { wchar_t buf[PATH_MAX]; ::_wgetdcwd(drv, buf, PATH_MAX); ret = QString::fromWCharArray(buf); } } if (ret.isEmpty()) { //just the pwd ret = QFileSystemEngine::currentPath().filePath(); } if (ret.length() >= 2 && ret[1] == QLatin1Char(':')) ret[0] = ret.at(0).toUpper(); // Force uppercase drive letters. return ret; #else // !Q_OS_WINRT Q_UNUSED(fileName); return QFileSystemEngine::currentPath().filePath(); #endif // Q_OS_WINRT } QString QFSFileEngine::homePath() { return QFileSystemEngine::homePath(); } QString QFSFileEngine::rootPath() { return QFileSystemEngine::rootPath(); } QString QFSFileEngine::tempPath() { return QFileSystemEngine::tempPath(); } QFileInfoList QFSFileEngine::drives() { QFileInfoList ret; #if !defined(Q_OS_WINRT) # if defined(Q_OS_WIN32) const UINT oldErrorMode = ::SetErrorMode(SEM_FAILCRITICALERRORS | SEM_NOOPENFILEERRORBOX); quint32 driveBits = (quint32) GetLogicalDrives() & 0x3ffffff; ::SetErrorMode(oldErrorMode); # endif char driveName[] = "A:/"; while (driveBits) { if (driveBits & 1) ret.append(QFileInfo(QLatin1String(driveName))); driveName[0]++; driveBits = driveBits >> 1; } return ret; #else // !Q_OS_WINRT ret.append(QFileInfo(QLatin1String("/"))); return ret; #endif // Q_OS_WINRT } bool QFSFileEnginePrivate::doStat(QFileSystemMetaData::MetaDataFlags flags) const { if (!tried_stat || !metaData.hasFlags(flags)) { tried_stat = true; int localFd = fd; if (fh && fileEntry.isEmpty()) localFd = QT_FILENO(fh); if (localFd != -1) QFileSystemEngine::fillMetaData(localFd, metaData, flags); if (metaData.missingFlags(flags) && !fileEntry.isEmpty()) QFileSystemEngine::fillMetaData(fileEntry, metaData, metaData.missingFlags(flags)); } return metaData.exists(); } bool QFSFileEngine::link(const QString &newName) { #if !defined(Q_OS_WINRT) # if !defined(QT_NO_LIBRARY) bool ret = false; QString linkName = newName; //### assume that they add .lnk IShellLink *psl; bool neededCoInit = false; HRESULT hres = CoCreateInstance(CLSID_ShellLink, NULL, CLSCTX_INPROC_SERVER, IID_IShellLink, (void **)&psl); if (hres == CO_E_NOTINITIALIZED) { // COM was not initialized neededCoInit = true; CoInitialize(NULL); hres = CoCreateInstance(CLSID_ShellLink, NULL, CLSCTX_INPROC_SERVER, IID_IShellLink, (void **)&psl); } if (SUCCEEDED(hres)) { hres = psl->SetPath((wchar_t *)fileName(AbsoluteName).replace(QLatin1Char('/'), QLatin1Char('\\')).utf16()); if (SUCCEEDED(hres)) { hres = psl->SetWorkingDirectory((wchar_t *)fileName(AbsolutePathName).replace(QLatin1Char('/'), QLatin1Char('\\')).utf16()); if (SUCCEEDED(hres)) { IPersistFile *ppf; hres = psl->QueryInterface(IID_IPersistFile, (void **)&ppf); if (SUCCEEDED(hres)) { hres = ppf->Save((wchar_t*)linkName.utf16(), TRUE); if (SUCCEEDED(hres)) ret = true; ppf->Release(); } } } psl->Release(); } if (!ret) setError(QFile::RenameError, qt_error_string()); if (neededCoInit) CoUninitialize(); return ret; # else // QT_NO_LIBRARY Q_UNUSED(newName); return false; # endif // QT_NO_LIBRARY #else // !Q_OS_WINRT Q_UNUSED(newName); Q_UNIMPLEMENTED(); return false; #endif // Q_OS_WINRT } /*! \reimp */ QAbstractFileEngine::FileFlags QFSFileEngine::fileFlags(QAbstractFileEngine::FileFlags type) const { Q_D(const QFSFileEngine); if (type & Refresh) d->metaData.clear(); QAbstractFileEngine::FileFlags ret = 0; if (type & FlagsMask) ret |= LocalDiskFlag; bool exists; { QFileSystemMetaData::MetaDataFlags queryFlags = 0; queryFlags |= QFileSystemMetaData::MetaDataFlags(uint(type)) & QFileSystemMetaData::Permissions; // AliasType and BundleType are 0x0 if (type & TypesMask) queryFlags |= QFileSystemMetaData::AliasType | QFileSystemMetaData::LinkType | QFileSystemMetaData::FileType | QFileSystemMetaData::DirectoryType | QFileSystemMetaData::BundleType; if (type & FlagsMask) queryFlags |= QFileSystemMetaData::HiddenAttribute | QFileSystemMetaData::ExistsAttribute; queryFlags |= QFileSystemMetaData::LinkType; exists = d->doStat(queryFlags); } if (exists && (type & PermsMask)) ret |= FileFlags(uint(d->metaData.permissions())); if (type & TypesMask) { if ((type & LinkType) && d->metaData.isLegacyLink()) ret |= LinkType; if (d->metaData.isDirectory()) { ret |= DirectoryType; } else { ret |= FileType; } } if (type & FlagsMask) { if (d->metaData.exists()) { ret |= ExistsFlag; if (d->fileEntry.isRoot()) ret |= RootFlag; else if (d->metaData.isHidden()) ret |= HiddenFlag; } } return ret; } QString QFSFileEngine::fileName(FileName file) const { Q_D(const QFSFileEngine); if (file == BaseName) { return d->fileEntry.fileName(); } else if (file == PathName) { return d->fileEntry.path(); } else if (file == AbsoluteName || file == AbsolutePathName) { QString ret; if (!isRelativePath()) { if (d->fileEntry.filePath().startsWith(QLatin1Char('/')) || // It's a absolute path to the current drive, so \a.txt -> Z:\a.txt d->fileEntry.filePath().size() == 2 || // It's a drive letter that needs to get a working dir appended (d->fileEntry.filePath().size() > 2 && d->fileEntry.filePath().at(2) != QLatin1Char('/')) || // It's a drive-relative path, so Z:a.txt -> Z:\currentpath\a.txt d->fileEntry.filePath().contains(QLatin1String("/../")) || d->fileEntry.filePath().contains(QLatin1String("/./")) || d->fileEntry.filePath().endsWith(QLatin1String("/..")) || d->fileEntry.filePath().endsWith(QLatin1String("/."))) { ret = QDir::fromNativeSeparators(QFileSystemEngine::nativeAbsoluteFilePath(d->fileEntry.filePath())); } else { ret = d->fileEntry.filePath(); } } else { ret = QDir::cleanPath(QDir::currentPath() + QLatin1Char('/') + d->fileEntry.filePath()); } // The path should be absolute at this point. // From the docs : // Absolute paths begin with the directory separator "/" // (optionally preceded by a drive specification under Windows). if (ret.at(0) != QLatin1Char('/')) { Q_ASSERT(ret.length() >= 2); Q_ASSERT(ret.at(0).isLetter()); Q_ASSERT(ret.at(1) == QLatin1Char(':')); // Force uppercase drive letters. ret[0] = ret.at(0).toUpper(); } if (file == AbsolutePathName) { int slash = ret.lastIndexOf(QLatin1Char('/')); if (slash < 0) return ret; else if (ret.at(0) != QLatin1Char('/') && slash == 2) return ret.left(3); // include the slash else return ret.left(slash > 0 ? slash : 1); } return ret; } else if (file == CanonicalName || file == CanonicalPathName) { if (!(fileFlags(ExistsFlag) & ExistsFlag)) return QString(); QFileSystemEntry entry(QFileSystemEngine::canonicalName(QFileSystemEntry(fileName(AbsoluteName)), d->metaData)); if (file == CanonicalPathName) return entry.path(); return entry.filePath(); } else if (file == LinkName) { return QFileSystemEngine::getLinkTarget(d->fileEntry, d->metaData).filePath(); } else if (file == BundleName) { return QString(); } return d->fileEntry.filePath(); } bool QFSFileEngine::isRelativePath() const { Q_D(const QFSFileEngine); // drive, e.g. "a:", or UNC root, e.q. "//" return d->fileEntry.isRelative(); } uint QFSFileEngine::ownerId(FileOwner /*own*/) const { static const uint nobodyID = (uint) -2; return nobodyID; } QString QFSFileEngine::owner(FileOwner own) const { Q_D(const QFSFileEngine); return QFileSystemEngine::owner(d->fileEntry, own); } bool QFSFileEngine::setPermissions(uint perms) { Q_D(QFSFileEngine); QSystemError error; bool ret = QFileSystemEngine::setPermissions(d->fileEntry, QFile::Permissions(perms), error); if (!ret) setError(QFile::PermissionsError, error.toString()); return ret; } bool QFSFileEngine::setSize(qint64 size) { Q_D(QFSFileEngine); if (d->fileHandle != INVALID_HANDLE_VALUE || d->fd != -1 || d->fh) { // resize open file HANDLE fh = d->fileHandle; if (fh == INVALID_HANDLE_VALUE) { if (d->fh) fh = (HANDLE)_get_osfhandle(QT_FILENO(d->fh)); else fh = (HANDLE)_get_osfhandle(d->fd); } if (fh == INVALID_HANDLE_VALUE) return false; qint64 currentPos = pos(); if (seek(size) && SetEndOfFile(fh)) { seek(qMin(currentPos, size)); return true; } seek(currentPos); return false; } if (!d->fileEntry.isEmpty()) { // resize file on disk QFile file(d->fileEntry.filePath()); if (file.open(QFile::ReadWrite)) { bool ret = file.resize(size); if (!ret) setError(QFile::ResizeError, file.errorString()); return ret; } } return false; } QDateTime QFSFileEngine::fileTime(FileTime time) const { Q_D(const QFSFileEngine); if (d->doStat(QFileSystemMetaData::Times)) return d->metaData.fileTime(time); return QDateTime(); } uchar *QFSFileEnginePrivate::map(qint64 offset, qint64 size, QFile::MemoryMapFlags flags) { #ifndef Q_OS_WINPHONE Q_Q(QFSFileEngine); Q_UNUSED(flags); if (openMode == QFile::NotOpen) { q->setError(QFile::PermissionsError, qt_error_string(ERROR_ACCESS_DENIED)); return 0; } if (offset == 0 && size == 0) { q->setError(QFile::UnspecifiedError, qt_error_string(ERROR_INVALID_PARAMETER)); return 0; } // check/setup args to map DWORD access = 0; if (flags & QFileDevice::MapPrivateOption) { #ifdef FILE_MAP_COPY access = FILE_MAP_COPY; #else q->setError(QFile::UnspecifiedError, "MapPrivateOption unsupported"); return 0; #endif } else if (openMode & QIODevice::WriteOnly) { access = FILE_MAP_WRITE; } else if (openMode & QIODevice::ReadOnly) { access = FILE_MAP_READ; } if (mapHandle == NULL) { // get handle to the file HANDLE handle = fileHandle; if (handle == INVALID_HANDLE_VALUE && fh) handle = (HANDLE)::_get_osfhandle(QT_FILENO(fh)); #ifdef Q_USE_DEPRECATED_MAP_API nativeClose(); // handle automatically closed by kernel with mapHandle (below). handle = ::CreateFileForMapping((const wchar_t*)fileEntry.nativeFilePath().utf16(), GENERIC_READ | (openMode & QIODevice::WriteOnly ? GENERIC_WRITE : 0), 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); // Since this is a special case, we check if the return value was NULL and if so // we change it to INVALID_HANDLE_VALUE to follow the logic inside this function. if(0 == handle) handle = INVALID_HANDLE_VALUE; #endif if (handle == INVALID_HANDLE_VALUE) { q->setError(QFile::PermissionsError, qt_error_string(ERROR_ACCESS_DENIED)); return 0; } // first create the file mapping handle DWORD protection = (openMode & QIODevice::WriteOnly) ? PAGE_READWRITE : PAGE_READONLY; #ifndef Q_OS_WINRT mapHandle = ::CreateFileMapping(handle, 0, protection, 0, 0, 0); #else mapHandle = ::CreateFileMappingFromApp(handle, 0, protection, 0, 0); #endif if (mapHandle == NULL) { q->setError(QFile::PermissionsError, qt_error_string()); #ifdef Q_USE_DEPRECATED_MAP_API ::CloseHandle(handle); #endif return 0; } } DWORD offsetHi = offset >> 32; DWORD offsetLo = offset & Q_UINT64_C(0xffffffff); SYSTEM_INFO sysinfo; #ifndef Q_OS_WINRT ::GetSystemInfo(&sysinfo); #else ::GetNativeSystemInfo(&sysinfo); #endif DWORD mask = sysinfo.dwAllocationGranularity - 1; DWORD extra = offset & mask; if (extra) offsetLo &= ~mask; // attempt to create the map #ifndef Q_OS_WINRT LPVOID mapAddress = ::MapViewOfFile(mapHandle, access, offsetHi, offsetLo, size + extra); #else LPVOID mapAddress = ::MapViewOfFileFromApp(mapHandle, access, (ULONG64(offsetHi) << 32) + offsetLo, size + extra); #endif if (mapAddress) { uchar *address = extra + static_cast(mapAddress); maps[address] = extra; return address; } switch(GetLastError()) { case ERROR_ACCESS_DENIED: q->setError(QFile::PermissionsError, qt_error_string()); break; case ERROR_INVALID_PARAMETER: // size are out of bounds default: q->setError(QFile::UnspecifiedError, qt_error_string()); } ::CloseHandle(mapHandle); mapHandle = NULL; #else // !Q_OS_WINPHONE Q_UNUSED(offset); Q_UNUSED(size); Q_UNUSED(flags); Q_UNIMPLEMENTED(); #endif // Q_OS_WINPHONE return 0; } bool QFSFileEnginePrivate::unmap(uchar *ptr) { #ifndef Q_OS_WINPHONE Q_Q(QFSFileEngine); if (!maps.contains(ptr)) { q->setError(QFile::PermissionsError, qt_error_string(ERROR_ACCESS_DENIED)); return false; } uchar *start = ptr - maps[ptr]; if (!UnmapViewOfFile(start)) { q->setError(QFile::PermissionsError, qt_error_string()); return false; } maps.remove(ptr); if (maps.isEmpty()) { ::CloseHandle(mapHandle); mapHandle = NULL; } return true; #else // !Q_OS_WINPHONE Q_UNUSED(ptr); Q_UNIMPLEMENTED(); return false; #endif // Q_OS_WINPHONE } QT_END_NAMESPACE