/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qplatformdefs.h" #include "qabstractfileengine.h" #include "private/qfsfileengine_p.h" #include "private/qcore_unix_p.h" #include "qfilesystementry_p.h" #include "qfilesystemengine_p.h" #ifndef QT_NO_FSFILEENGINE #include "qfile.h" #include "qdir.h" #include "qdatetime.h" #include "qvarlengtharray.h" #include #include #include #if defined(Q_OS_SYMBIAN) # include # include # include # include "private/qcore_symbian_p.h" #endif #include #if !defined(QWS) && defined(Q_OS_MAC) # include #endif QT_BEGIN_NAMESPACE #if defined(Q_OS_SYMBIAN) /*! \internal Returns true if supplied path is a relative path */ static bool isRelativePathSymbian(const QString& fileName) { return !(fileName.startsWith(QLatin1Char('/')) || (fileName.length() >= 2 && ((fileName.at(0).isLetter() && fileName.at(1) == QLatin1Char(':')) || (fileName.at(0) == QLatin1Char('/') && fileName.at(1) == QLatin1Char('/'))))); } /*! \internal convert symbian error code to the one suitable for setError. example usage: setSymbianError(err, QFile::CopyError, QLatin1String("copy error")) */ void QFSFileEnginePrivate::setSymbianError(int symbianError, QFile::FileError defaultError, QString defaultString) { Q_Q(QFSFileEngine); switch (symbianError) { case KErrNone: q->setError(QFile::NoError, QLatin1String("")); break; case KErrAccessDenied: q->setError(QFile::PermissionsError, QLatin1String("access denied")); break; case KErrPermissionDenied: q->setError(QFile::PermissionsError, QLatin1String("permission denied")); break; case KErrAbort: q->setError(QFile::AbortError, QLatin1String("aborted")); break; case KErrCancel: q->setError(QFile::AbortError, QLatin1String("cancelled")); break; case KErrTimedOut: q->setError(QFile::TimeOutError, QLatin1String("timed out")); break; default: q->setError(defaultError, defaultString); break; } } #endif /*! \internal Returns the stdlib open string corresponding to a QIODevice::OpenMode. */ static inline QByteArray openModeToFopenMode(QIODevice::OpenMode flags, const QFileSystemEntry &fileEntry, QFileSystemMetaData &metaData) { QByteArray mode; if ((flags & QIODevice::ReadOnly) && !(flags & QIODevice::Truncate)) { mode = "rb"; if (flags & QIODevice::WriteOnly) { metaData.clearFlags(QFileSystemMetaData::FileType); if (!fileEntry.isEmpty() && QFileSystemEngine::fillMetaData(fileEntry, metaData, QFileSystemMetaData::FileType) && metaData.isFile()) { mode += '+'; } else { mode = "wb+"; } } } else if (flags & QIODevice::WriteOnly) { mode = "wb"; if (flags & QIODevice::ReadOnly) mode += '+'; } if (flags & QIODevice::Append) { mode = "ab"; if (flags & QIODevice::ReadOnly) mode += '+'; } #if defined(__GLIBC__) && (__GLIBC__ * 0x100 + __GLIBC_MINOR__) >= 0x0207 // must be glibc >= 2.7 mode += 'e'; #endif return mode; } /*! \internal Returns the stdio open flags corresponding to a QIODevice::OpenMode. */ static inline int openModeToOpenFlags(QIODevice::OpenMode mode) { int oflags = QT_OPEN_RDONLY; #ifdef QT_LARGEFILE_SUPPORT oflags |= QT_OPEN_LARGEFILE; #endif if ((mode & QFile::ReadWrite) == QFile::ReadWrite) { oflags = QT_OPEN_RDWR | QT_OPEN_CREAT; } else if (mode & QFile::WriteOnly) { oflags = QT_OPEN_WRONLY | QT_OPEN_CREAT; } if (mode & QFile::Append) { oflags |= QT_OPEN_APPEND; } else if (mode & QFile::WriteOnly) { if ((mode & QFile::Truncate) || !(mode & QFile::ReadOnly)) oflags |= QT_OPEN_TRUNC; } return oflags; } /*! \internal Sets the file descriptor to close on exec. That is, the file descriptor is not inherited by child processes. */ static inline bool setCloseOnExec(int fd) { return fd != -1 && fcntl(fd, F_SETFD, FD_CLOEXEC) != -1; } #ifdef Q_OS_SYMBIAN /*! \internal */ bool QFSFileEnginePrivate::nativeOpen(QIODevice::OpenMode openMode) { Q_Q(QFSFileEngine); fh = 0; fd = -1; QString fn(QFileSystemEngine::absoluteName(fileEntry).nativeFilePath()); RFs& fs = qt_s60GetRFs(); TUint symbianMode = 0; if(openMode & QIODevice::ReadOnly) symbianMode |= EFileRead; if(openMode & QIODevice::WriteOnly) symbianMode |= EFileWrite; if(openMode & QIODevice::Text) symbianMode |= EFileStreamText; // pre Symbian 9.4, file I/O is always unbuffered, and the enum values don't exist if(QSysInfo::symbianVersion() >= QSysInfo::SV_9_4) { if (openMode & QFile::Unbuffered) { if (openMode & QIODevice::WriteOnly) symbianMode |= 0x00001000; //EFileWriteDirectIO; if (openMode & QIODevice::ReadOnly) symbianMode |= 0x00004000; //EFileReadDirectIO; } else { if (openMode & QIODevice::WriteOnly) symbianMode |= 0x00000800; //EFileWriteBuffered; // use implementation defaults for read buffering } } // Until Qt supports file sharing, we can't support EFileShareReadersOrWriters safely, // but Qt does this on other platforms and autotests rely on it. // The reason is that Unix locks are only advisory - the application needs to test the // lock after opening the file. Symbian and Windows locks are mandatory - opening a // locked file will fail. symbianMode |= EFileShareReadersOrWriters; TInt r; //note QIODevice::Truncate only has meaning for read/write access //write-only files are always truncated unless append is specified //reference openModeToOpenFlags in qfsfileengine_unix.cpp if ((openMode & QIODevice::Truncate) || (!(openMode & QIODevice::ReadOnly) && !(openMode & QIODevice::Append))) { r = symbianFile.Replace(fs, qt_QString2TPtrC(fn), symbianMode); } else { r = symbianFile.Open(fs, qt_QString2TPtrC(fn), symbianMode); if (r == KErrNotFound && (openMode & QIODevice::WriteOnly)) { r = symbianFile.Create(fs, qt_QString2TPtrC(fn), symbianMode); } } if (r == KErrNone) { #ifdef SYMBIAN_ENABLE_64_BIT_FILE_SERVER_API TInt64 size; #else TInt size; #endif r = symbianFile.Size(size); if (r==KErrNone) { if (openMode & QIODevice::Append) symbianFilePos = size; else symbianFilePos = 0; //TODO: port this (QFileSystemMetaData in open?) //cachedSize = size; } } if (r != KErrNone) { setSymbianError(r, QFile::OpenError, QLatin1String("open error")); symbianFile.Close(); return false; } closeFileHandle = true; return true; } #else /*! \internal */ bool QFSFileEnginePrivate::nativeOpen(QIODevice::OpenMode openMode) { Q_Q(QFSFileEngine); if (openMode & QIODevice::Unbuffered) { int flags = openModeToOpenFlags(openMode); // Try to open the file in unbuffered mode. do { fd = QT_OPEN(fileEntry.nativeFilePath().constData(), flags, 0666); } while (fd == -1 && errno == EINTR); // On failure, return and report the error. if (fd == -1) { q->setError(errno == EMFILE ? QFile::ResourceError : QFile::OpenError, qt_error_string(errno)); return false; } if (!(openMode & QIODevice::WriteOnly)) { // we don't need this check if we tried to open for writing because then // we had received EISDIR anyway. if (QFileSystemEngine::fillMetaData(fd, metaData) && metaData.isDirectory()) { q->setError(QFile::OpenError, QLatin1String("file to open is a directory")); QT_CLOSE(fd); return false; } } // Seek to the end when in Append mode. if (flags & QFile::Append) { int ret; do { ret = QT_LSEEK(fd, 0, SEEK_END); } while (ret == -1 && errno == EINTR); if (ret == -1) { q->setError(errno == EMFILE ? QFile::ResourceError : QFile::OpenError, qt_error_string(int(errno))); return false; } } fh = 0; } else { QByteArray fopenMode = openModeToFopenMode(openMode, fileEntry, metaData); // Try to open the file in buffered mode. do { fh = QT_FOPEN(fileEntry.nativeFilePath().constData(), fopenMode.constData()); } while (!fh && errno == EINTR); // On failure, return and report the error. if (!fh) { q->setError(errno == EMFILE ? QFile::ResourceError : QFile::OpenError, qt_error_string(int(errno))); return false; } if (!(openMode & QIODevice::WriteOnly)) { // we don't need this check if we tried to open for writing because then // we had received EISDIR anyway. if (QFileSystemEngine::fillMetaData(QT_FILENO(fh), metaData) && metaData.isDirectory()) { q->setError(QFile::OpenError, QLatin1String("file to open is a directory")); fclose(fh); return false; } } setCloseOnExec(fileno(fh)); // ignore failure // Seek to the end when in Append mode. if (openMode & QIODevice::Append) { int ret; do { ret = QT_FSEEK(fh, 0, SEEK_END); } while (ret == -1 && errno == EINTR); if (ret == -1) { q->setError(errno == EMFILE ? QFile::ResourceError : QFile::OpenError, qt_error_string(int(errno))); return false; } } fd = -1; } closeFileHandle = true; return true; } #endif /*! \internal */ bool QFSFileEnginePrivate::nativeClose() { return closeFdFh(); } /*! \internal */ bool QFSFileEnginePrivate::nativeFlush() { #ifdef Q_OS_SYMBIAN if (symbianFile.SubSessionHandle()) return (KErrNone == symbianFile.Flush()); #endif return fh ? flushFh() : fd != -1; } /*! \internal */ qint64 QFSFileEnginePrivate::nativeRead(char *data, qint64 len) { Q_Q(QFSFileEngine); #ifdef Q_OS_SYMBIAN if (symbianFile.SubSessionHandle()) { if(len > KMaxTInt) { //this check is more likely to catch a corrupt length, since it isn't possible to allocate 2GB buffers (yet..) q->setError(QFile::ReadError, QLatin1String("Maximum 2GB in single read on this platform")); return -1; } TPtr8 ptr(reinterpret_cast(data), static_cast(len)); TInt r = symbianFile.Read(ptr); if (r != KErrNone) { setSymbianError(r, QFile::ReadError, QLatin1String("read error")); return -1; } return qint64(ptr.Length()); } #endif if (fh && nativeIsSequential()) { size_t readBytes = 0; int oldFlags = fcntl(QT_FILENO(fh), F_GETFL); for (int i = 0; i < 2; ++i) { // Unix: Make the underlying file descriptor non-blocking if ((oldFlags & O_NONBLOCK) == 0) fcntl(QT_FILENO(fh), F_SETFL, oldFlags | O_NONBLOCK); // Cross platform stdlib read size_t read = 0; do { read = fread(data + readBytes, 1, size_t(len - readBytes), fh); } while (read == 0 && !feof(fh) && errno == EINTR); if (read > 0) { readBytes += read; break; } else { if (readBytes) break; readBytes = read; } // Unix: Restore the blocking state of the underlying socket if ((oldFlags & O_NONBLOCK) == 0) { fcntl(QT_FILENO(fh), F_SETFL, oldFlags); if (readBytes == 0) { int readByte = 0; do { readByte = fgetc(fh); } while (readByte == -1 && errno == EINTR); if (readByte != -1) { *data = uchar(readByte); readBytes += 1; } else { break; } } } } // Unix: Restore the blocking state of the underlying socket if ((oldFlags & O_NONBLOCK) == 0) { fcntl(QT_FILENO(fh), F_SETFL, oldFlags); } if (readBytes == 0 && !feof(fh)) { // if we didn't read anything and we're not at EOF, it must be an error q->setError(QFile::ReadError, qt_error_string(int(errno))); return -1; } return readBytes; } return readFdFh(data, len); } /*! \internal */ qint64 QFSFileEnginePrivate::nativeReadLine(char *data, qint64 maxlen) { return readLineFdFh(data, maxlen); } /*! \internal */ qint64 QFSFileEnginePrivate::nativeWrite(const char *data, qint64 len) { Q_Q(QFSFileEngine); #ifdef Q_OS_SYMBIAN if (symbianFile.SubSessionHandle()) { if(len > KMaxTInt) { //this check is more likely to catch a corrupt length, since it isn't possible to allocate 2GB buffers (yet..) q->setError(QFile::WriteError, QLatin1String("Maximum 2GB in single write on this platform")); return -1; } const TPtrC8 ptr(reinterpret_cast(data), static_cast(len)); TInt r = symbianFile.Write(ptr); if (r != KErrNone) { setSymbianError(r, QFile::WriteError, QLatin1String("write error")); return -1; } return len; } #endif return writeFdFh(data, len); } /*! \internal */ qint64 QFSFileEnginePrivate::nativePos() const { #ifdef Q_OS_SYMBIAN if (symbianFile.SubSessionHandle()) { #ifdef SYMBIAN_ENABLE_64_BIT_FILE_SERVER_API qint64 pos; #else TInt pos; #endif TInt err = symbianFile.Seek(ESeekCurrent, pos); if(err != KErrNone) { //TODO: error reporting //setSymbianError(err, QFile::PositionError, QLatin1String("seek failed")); return -1; } return pos; } #endif return posFdFh(); } /*! \internal */ bool QFSFileEnginePrivate::nativeSeek(qint64 pos) { #ifdef Q_OS_SYMBIAN Q_Q(QFSFileEngine); if (symbianFile.SubSessionHandle()) { #ifdef SYMBIAN_ENABLE_64_BIT_FILE_SERVER_API TInt r = symbianFile.Seek(ESeekStart, pos); #else if(pos > KMaxTInt) { q->setError(QFile::PositionError, QLatin1String("Maximum 2GB file position on this platform")); return false; } TInt pos32(pos); TInt r = symbianFile.Seek(ESeekStart, pos32); #endif if (r != KErrNone) { setSymbianError(r, QFile::PositionError, QLatin1String("seek failed")); return false; } return true; } #endif return seekFdFh(pos); } /*! \internal */ int QFSFileEnginePrivate::nativeHandle() const { return fh ? fileno(fh) : fd; } /*! \internal */ bool QFSFileEnginePrivate::nativeIsSequential() const { #ifdef Q_OS_SYMBIAN if (symbianFile.SubSessionHandle()) return false; #endif return isSequentialFdFh(); } bool QFSFileEngine::remove() { Q_D(QFSFileEngine); bool ret = QFileSystemEngine::removeFile(d->fileEntry); if (!ret) { #ifdef Q_OS_SYMBIAN //TODO: error reporting d->setSymbianError(KErrGeneral, QFile::RemoveError, QLatin1String("remove error")); #else setError(QFile::RemoveError, qt_error_string(errno)); #endif } return ret; } bool QFSFileEngine::copy(const QString &newName) { Q_D(QFSFileEngine); bool ret = QFileSystemEngine::copyFile(d->fileEntry, QFileSystemEntry(newName)); if (!ret) { #ifdef Q_OS_SYMBIAN //TODO: error reporting d->setSymbianError(KErrGeneral, QFile::CopyError, QLatin1String("copy error")); #else // ### Add copy code for Unix to the filesystem engine setError(QFile::UnspecifiedError, QLatin1String("Not implemented!")); //setError(QFile::CopyError, qt_error_string(errno)); #endif } return ret; } bool QFSFileEngine::rename(const QString &newName) { Q_D(QFSFileEngine); bool ret = QFileSystemEngine::renameFile(d->fileEntry, QFileSystemEntry(newName)); if (!ret) { #ifdef Q_OS_SYMBIAN //TODO: error reporting d->setSymbianError(KErrGeneral, QFile::RenameError, QLatin1String("rename error")); #else setError(QFile::RenameError, qt_error_string(errno)); #endif } return ret; } bool QFSFileEngine::link(const QString &newName) { Q_D(QFSFileEngine); bool ret = QFileSystemEngine::createLink(d->fileEntry, QFileSystemEntry(newName)); if (!ret) { #ifdef Q_OS_SYMBIAN //TODO: error reporting d->setSymbianError(KErrNotSupported, QFile::RenameError, QLatin1String("not supported")); #else setError(QFile::RenameError, qt_error_string(errno)); #endif } return ret; } qint64 QFSFileEnginePrivate::nativeSize() const { #ifdef Q_OS_SYMBIAN if (symbianFile.SubSessionHandle()) { #ifdef SYMBIAN_ENABLE_64_BIT_FILE_SERVER_API qint64 size; #else TInt size; #endif TInt err = symbianFile.Size(size); if(err != KErrNone) { //TODO: error reporting return 0; } return size; } #endif return sizeFdFh(); } 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 { #if defined(Q_OS_SYMBIAN) return false; #else return true; #endif } bool QFSFileEngine::setCurrentPath(const QString &path) { int r; r = QT_CHDIR(QFile::encodeName(path)); return r >= 0; } QString QFSFileEngine::currentPath(const QString &) { QString result; QT_STATBUF st; #if defined(Q_OS_SYMBIAN) char nativeCurrentName[PATH_MAX+1]; if (::getcwd(nativeCurrentName, PATH_MAX)) result = QDir::fromNativeSeparators(QFile::decodeName(QByteArray(nativeCurrentName))); if (result.isEmpty()) { # if defined(QT_DEBUG) qWarning("QFSFileEngine::currentPath: getcwd() failed"); # endif } else #endif if (QT_STAT(".", &st) == 0) { #if defined(__GLIBC__) && !defined(PATH_MAX) char *currentName = ::get_current_dir_name(); if (currentName) { result = QFile::decodeName(QByteArray(currentName)); ::free(currentName); } #elif !defined(Q_OS_SYMBIAN) char currentName[PATH_MAX+1]; if (::getcwd(currentName, PATH_MAX)) result = QFile::decodeName(QByteArray(currentName)); # if defined(QT_DEBUG) if (result.isNull()) qWarning("QFSFileEngine::currentPath: getcwd() failed"); # endif #endif } else { #if defined(Q_OS_SYMBIAN) // If current dir returned by Open C doesn't exist, // try to create it (can happen with application private dirs) // Ignore mkdir failures; we want to be consistent with Open C // current path regardless. QT_MKDIR(QFile::encodeName(QLatin1String(nativeCurrentName)), 0777); #else # if defined(QT_DEBUG) qWarning("QFSFileEngine::currentPath: stat(\".\") failed"); # endif #endif } return result; } QString QFSFileEngine::homePath() { #if defined(Q_OS_SYMBIAN) QString home = rootPath(); #else QString home = QFile::decodeName(qgetenv("HOME")); if (home.isNull()) home = rootPath(); #endif return home; } QString QFSFileEngine::rootPath() { #if defined(Q_OS_SYMBIAN) TFileName symbianPath = PathInfo::PhoneMemoryRootPath(); return QDir::cleanPath(QDir::fromNativeSeparators(qt_TDesC2QString(symbianPath))); #else return QLatin1String("/"); #endif } QString QFSFileEngine::tempPath() { #if defined(Q_OS_SYMBIAN) TFileName symbianPath = PathInfo::PhoneMemoryRootPath(); QString temp = QDir::fromNativeSeparators(qt_TDesC2QString(symbianPath)); temp += QLatin1String( "temp/"); // Just to verify that folder really exist on hardware QT_MKDIR(QFile::encodeName(temp), 0777); #else QString temp = QFile::decodeName(qgetenv("TMPDIR")); if (temp.isEmpty()) temp = QLatin1String("/tmp/"); #endif return temp; } QFileInfoList QFSFileEngine::drives() { QFileInfoList ret; #if defined(Q_OS_SYMBIAN) TDriveList driveList; RFs rfs = qt_s60GetRFs(); TInt err = rfs.DriveList(driveList); if (err == KErrNone) { char driveName[] = "A:/"; for (char i = 0; i < KMaxDrives; i++) { if (driveList[i]) { driveName[0] = 'A' + i; ret.append(QFileInfo(QLatin1String(driveName))); } } } else { qWarning("QFSFileEngine::drives: Getting drives failed"); } #else ret.append(QFileInfo(rootPath())); #endif return ret; } bool QFSFileEnginePrivate::doStat(QFileSystemMetaData::MetaDataFlags flags) const { if (!tried_stat || !metaData.hasFlags(flags)) { tried_stat = 1; int localFd = fd; if (fh && fileEntry.isEmpty()) localFd = QT_FILENO(fh); if (localFd != -1) QFileSystemEngine::fillMetaData(localFd, metaData); if (metaData.missingFlags(flags) && !fileEntry.isEmpty()) QFileSystemEngine::fillMetaData(fileEntry, metaData, metaData.missingFlags(flags)); } return metaData.exists(); } bool QFSFileEnginePrivate::isSymlink() const { if (!metaData.hasFlags(QFileSystemMetaData::LinkType)) QFileSystemEngine::fillMetaData(fileEntry, metaData, QFileSystemMetaData::LinkType); return metaData.isLink(); } /*! \reimp */ QAbstractFileEngine::FileFlags QFSFileEngine::fileFlags(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; 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 && !d->metaData.isLink()) return ret; if (exists && (type & PermsMask)) ret |= FileFlags(uint(d->metaData.permissions())); if (type & TypesMask) { if (d->metaData.isAlias()) { ret |= LinkType; } else { if ((type & LinkType) && d->metaData.isLink()) ret |= LinkType; if (exists) { if (d->metaData.isFile()) { ret |= FileType; } else if (d->metaData.isDirectory()) { ret |= DirectoryType; if ((type & BundleType) && d->metaData.isBundle()) ret |= BundleType; } } } } if (type & FlagsMask) { if (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 == BundleName) { return QFileSystemEngine::bundleName(d->fileEntry); } else if (file == BaseName) { return d->fileEntry.fileName(); } else if (file == PathName) { return d->fileEntry.path(); } else if (file == AbsoluteName || file == AbsolutePathName) { QFileSystemEntry entry(QFileSystemEngine::absoluteName(d->fileEntry)); if (file == AbsolutePathName) { return entry.path(); } return entry.filePath(); } else if (file == CanonicalName || file == CanonicalPathName) { QFileSystemEntry entry(QFileSystemEngine::canonicalName(d->fileEntry)); if (file == CanonicalPathName) return entry.path(); return entry.filePath(); } else if (file == LinkName) { if (d->isSymlink()) { QFileSystemEntry entry = QFileSystemEngine::getLinkTarget(d->fileEntry, d->metaData); return entry.filePath(); } return QString(); } return d->fileEntry.filePath(); } bool QFSFileEngine::isRelativePath() const { Q_D(const QFSFileEngine); #if defined(Q_OS_SYMBIAN) return isRelativePathSymbian(d->fileEntry.filePath()); #else return d->fileEntry.filePath().length() ? d->fileEntry.filePath()[0] != QLatin1Char('/') : true; #endif } uint QFSFileEngine::ownerId(FileOwner own) const { Q_D(const QFSFileEngine); static const uint nobodyID = (uint) -2; if (d->doStat(QFileSystemMetaData::OwnerIds)) return d->metaData.ownerId(own); return nobodyID; } QString QFSFileEngine::owner(FileOwner own) const { #if !defined(QT_NO_THREAD) && defined(_POSIX_THREAD_SAFE_FUNCTIONS) && !defined(Q_OS_OPENBSD) int size_max = sysconf(_SC_GETPW_R_SIZE_MAX); if (size_max == -1) size_max = 1024; QVarLengthArray buf(size_max); #endif if (own == OwnerUser) { struct passwd *pw = 0; #if !defined(QT_NO_THREAD) && defined(_POSIX_THREAD_SAFE_FUNCTIONS) && !defined(Q_OS_OPENBSD) struct passwd entry; getpwuid_r(ownerId(own), &entry, buf.data(), buf.size(), &pw); #else pw = getpwuid(ownerId(own)); #endif if (pw) return QFile::decodeName(QByteArray(pw->pw_name)); } else if (own == OwnerGroup) { #if !defined(Q_OS_SYMBIAN) struct group *gr = 0; #if !defined(QT_NO_THREAD) && defined(_POSIX_THREAD_SAFE_FUNCTIONS) && !defined(Q_OS_OPENBSD) size_max = sysconf(_SC_GETGR_R_SIZE_MAX); if (size_max == -1) size_max = 1024; buf.resize(size_max); struct group entry; // Some large systems have more members than the POSIX max size // Loop over by doubling the buffer size (upper limit 250k) for (unsigned size = size_max; size < 256000; size += size) { buf.resize(size); // ERANGE indicates that the buffer was too small if (!getgrgid_r(ownerId(own), &entry, buf.data(), buf.size(), &gr) || errno != ERANGE) break; } #else gr = getgrgid(ownerId(own)); #endif if (gr) return QFile::decodeName(QByteArray(gr->gr_name)); #endif } return QString(); } #ifdef Q_OS_SYMBIAN bool QFSFileEngine::setPermissions(uint perms) { Q_D(QFSFileEngine); //TODO: connect up error reporting properly if (!QFileSystemEngine::setPermissions(d->fileEntry, QFile::Permissions(perms), 0)) { setError(QFile::PermissionsError, QString()); return false; } return true; } bool QFSFileEngine::setSize(qint64 size) { Q_D(QFSFileEngine); bool ret = false; TInt err = KErrNone; if (d->symbianFile.SubSessionHandle()) { TInt err = d->symbianFile.SetSize(size); ret = (err == KErrNone); } if (d->fd != -1) ret = QT_FTRUNCATE(d->fd, size) == 0; else if (d->fh) ret = QT_FTRUNCATE(QT_FILENO(d->fh), size) == 0; else { RFile tmp; QString symbianFilename(d->fileEntry.nativeFilePath()); err = tmp.Open(qt_s60GetRFs(), qt_QString2TPtrC(symbianFilename), EFileWrite); if (err == KErrNone) { err = tmp.SetSize(size); tmp.Close(); } ret = (err == KErrNone); } if (!ret) { if (err) d->setSymbianError(err, QFile::ResizeError, QString()); else setError(QFile::ResizeError, qt_error_string(errno)); } return ret; } #else bool QFSFileEngine::setPermissions(uint perms) { Q_D(QFSFileEngine); bool ret = false; mode_t mode = 0; if (perms & ReadOwnerPerm) mode |= S_IRUSR; if (perms & WriteOwnerPerm) mode |= S_IWUSR; if (perms & ExeOwnerPerm) mode |= S_IXUSR; if (perms & ReadUserPerm) mode |= S_IRUSR; if (perms & WriteUserPerm) mode |= S_IWUSR; if (perms & ExeUserPerm) mode |= S_IXUSR; if (perms & ReadGroupPerm) mode |= S_IRGRP; if (perms & WriteGroupPerm) mode |= S_IWGRP; if (perms & ExeGroupPerm) mode |= S_IXGRP; if (perms & ReadOtherPerm) mode |= S_IROTH; if (perms & WriteOtherPerm) mode |= S_IWOTH; if (perms & ExeOtherPerm) mode |= S_IXOTH; if (d->fd != -1) ret = fchmod(d->fd, mode) == 0; else ret = ::chmod(d->fileEntry.nativeFilePath().constData(), mode) == 0; if (!ret) setError(QFile::PermissionsError, qt_error_string(errno)); return ret; } bool QFSFileEngine::setSize(qint64 size) { Q_D(QFSFileEngine); bool ret = false; if (d->fd != -1) ret = QT_FTRUNCATE(d->fd, size) == 0; else if (d->fh) ret = QT_FTRUNCATE(QT_FILENO(d->fh), size) == 0; else ret = QT_TRUNCATE(d->fileEntry.nativeFilePath().constData(), size) == 0; if (!ret) setError(QFile::ResizeError, qt_error_string(errno)); return ret; } #endif QDateTime QFSFileEngine::fileTime(FileTime time) const { Q_D(const QFSFileEngine); if (d->doStat(QFileSystemMetaData::Times)) return d->metaData.fileTime(time); return QDateTime(); } #ifdef Q_OS_SYMBIAN uchar *QFSFileEnginePrivate::map(qint64 offset, qint64 size, QFile::MemoryMapFlags flags) { //Q_Q(QFSFileEngine); Q_UNUSED(flags) Q_UNUSED(offset) Q_UNUSED(size) return 0; //TODO: use RFileMap when available in symbian^4 } bool QFSFileEnginePrivate::unmap(uchar *ptr) { //TODO: RFileMap as the value in maps, unmap it here when API is available... //Q_Q(QFSFileEngine); //if (!maps.contains(ptr)) { // q->setError(QFile::PermissionsError, qt_error_string(EACCES)); // return false; //} Q_UNUSED(ptr) return false; } #else uchar *QFSFileEnginePrivate::map(qint64 offset, qint64 size, QFile::MemoryMapFlags flags) { Q_Q(QFSFileEngine); Q_UNUSED(flags); if (openMode == QIODevice::NotOpen) { q->setError(QFile::PermissionsError, qt_error_string(int(EACCES))); return 0; } if (offset < 0 || offset != qint64(QT_OFF_T(offset)) || size < 0 || quint64(size) > quint64(size_t(-1))) { q->setError(QFile::UnspecifiedError, qt_error_string(int(EINVAL))); return 0; } // If we know the mapping will extend beyond EOF, fail early to avoid // undefined behavior. Otherwise, let mmap have its say. if (doStat(QFileSystemMetaData::SizeAttribute) && (QT_OFF_T(size) > metaData.size() - QT_OFF_T(offset))) qWarning("QFSFileEngine::map: Mapping a file beyond its size is not portable"); int access = 0; if (openMode & QIODevice::ReadOnly) access |= PROT_READ; if (openMode & QIODevice::WriteOnly) access |= PROT_WRITE; int pageSize = getpagesize(); int extra = offset % pageSize; if (quint64(size + extra) > quint64((size_t)-1)) { q->setError(QFile::UnspecifiedError, qt_error_string(int(EINVAL))); return 0; } size_t realSize = (size_t)size + extra; QT_OFF_T realOffset = QT_OFF_T(offset); realOffset &= ~(QT_OFF_T(pageSize - 1)); #ifdef Q_OS_SYMBIAN void *mapAddress; TRAPD(err, mapAddress = QT_MMAP((void*)0, realSize, access, MAP_SHARED, nativeHandle(), realOffset)); if (err != KErrNone) { qWarning("OpenC bug: leave from mmap %d", err); mapAddress = MAP_FAILED; errno = EINVAL; } #else void *mapAddress = QT_MMAP((void*)0, realSize, access, MAP_SHARED, nativeHandle(), realOffset); #endif if (MAP_FAILED != mapAddress) { uchar *address = extra + static_cast(mapAddress); maps[address] = QPair(extra, realSize); return address; } switch(errno) { case EBADF: q->setError(QFile::PermissionsError, qt_error_string(int(EACCES))); break; case ENFILE: case ENOMEM: q->setError(QFile::ResourceError, qt_error_string(int(errno))); break; case EINVAL: // size are out of bounds default: q->setError(QFile::UnspecifiedError, qt_error_string(int(errno))); break; } return 0; } bool QFSFileEnginePrivate::unmap(uchar *ptr) { Q_Q(QFSFileEngine); if (!maps.contains(ptr)) { q->setError(QFile::PermissionsError, qt_error_string(EACCES)); return false; } uchar *start = ptr - maps[ptr].first; size_t len = maps[ptr].second; if (-1 == munmap(start, len)) { q->setError(QFile::UnspecifiedError, qt_error_string(errno)); return false; } maps.remove(ptr); return true; } #endif QT_END_NAMESPACE #endif // QT_NO_FSFILEENGINE