/**************************************************************************** ** ** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/ ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** 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. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include // always first #include "qmimedatabase.h" #include "qmimedatabase_p.h" #include "qmimeprovider_p.h" #include "qmimetype_p.h" #include #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE bool qt_isQMimeDatabaseDebuggingActivated (false); #ifndef QT_NO_DEBUG_OUTPUT #define DBG() if (qt_isQMimeDatabaseDebuggingActivated) qDebug() << static_cast(this) << Q_FUNC_INFO #else #define DBG() if (0) qDebug() << static_cast(this) << Q_FUNC_INFO #endif Q_GLOBAL_STATIC(QMimeDatabasePrivate, staticQMimeDatabase) QMimeDatabasePrivate *QMimeDatabasePrivate::instance() { return staticQMimeDatabase(); } QMimeDatabasePrivate::QMimeDatabasePrivate() : m_provider(0), m_defaultMimeType(QLatin1String("application/octet-stream")) { } QMimeDatabasePrivate::~QMimeDatabasePrivate() { delete m_provider; m_provider = 0; } QMimeProviderBase *QMimeDatabasePrivate::provider() { if (!m_provider) { QMimeProviderBase *binaryProvider = new QMimeBinaryProvider(this); if (binaryProvider->isValid()) { m_provider = binaryProvider; } else { delete binaryProvider; m_provider = new QMimeXMLProvider(this); } } return m_provider; } void QMimeDatabasePrivate::setProvider(QMimeProviderBase *theProvider) { delete m_provider; m_provider = theProvider; } /*! \internal Returns a MIME type or an invalid one if none found */ QMimeType QMimeDatabasePrivate::mimeTypeForName(const QString &nameOrAlias) { return provider()->mimeTypeForName(provider()->resolveAlias(nameOrAlias)); } QStringList QMimeDatabasePrivate::mimeTypeForFileName(const QString &fileName, QString *foundSuffix) { if (fileName.endsWith(QLatin1Char('/'))) return QStringList() << QLatin1String("inode/directory"); const QStringList matchingMimeTypes = provider()->findByFileName(QFileInfo(fileName).fileName(), foundSuffix); return matchingMimeTypes; } static inline bool isTextFile(const QByteArray &data) { // UTF16 byte order marks static const char bigEndianBOM[] = "\xFE\xFF"; static const char littleEndianBOM[] = "\xFF\xFE"; if (data.startsWith(bigEndianBOM) || data.startsWith(littleEndianBOM)) return true; // Check the first 32 bytes (see shared-mime spec) const char *p = data.constData(); const char *e = p + qMin(32, data.size()); for ( ; p < e; ++p) { if ((unsigned char)(*p) < 32 && *p != 9 && *p !=10 && *p != 13) return false; } return true; } QMimeType QMimeDatabasePrivate::findByData(const QByteArray &data, int *accuracyPtr) { if (data.isEmpty()) { *accuracyPtr = 100; return mimeTypeForName(QLatin1String("application/x-zerosize")); } *accuracyPtr = 0; QMimeType candidate = provider()->findByMagic(data, accuracyPtr); if (candidate.isValid()) return candidate; if (isTextFile(data)) { *accuracyPtr = 5; return mimeTypeForName(QLatin1String("text/plain")); } return mimeTypeForName(defaultMimeType()); } QMimeType QMimeDatabasePrivate::mimeTypeForNameAndData(const QString &fileName, QIODevice *device, int *accuracyPtr) { // First, glob patterns are evaluated. If there is a match with max weight, // this one is selected and we are done. Otherwise, the file contents are // evaluated and the match with the highest value (either a magic priority or // a glob pattern weight) is selected. Matching starts from max level (most // specific) in both cases, even when there is already a suffix matching candidate. *accuracyPtr = 0; // Pass 1) Try to match on the file name QStringList candidatesByName = mimeTypeForFileName(fileName); if (candidatesByName.count() == 1) { *accuracyPtr = 100; const QMimeType mime = mimeTypeForName(candidatesByName.at(0)); if (mime.isValid()) return mime; candidatesByName.clear(); } // Extension is unknown, or matches multiple mimetypes. // Pass 2) Match on content, if we can read the data if (device->isOpen()) { // Read 16K in one go (QIODEVICE_BUFFERSIZE in qiodevice_p.h). // This is much faster than seeking back and forth into QIODevice. const QByteArray data = device->peek(16384); int magicAccuracy = 0; QMimeType candidateByData(findByData(data, &magicAccuracy)); // Disambiguate conflicting extensions (if magic matching found something) if (candidateByData.isValid() && magicAccuracy > 0) { // "for glob_match in glob_matches:" // "if glob_match is subclass or equal to sniffed_type, use glob_match" const QString sniffedMime = candidateByData.name(); foreach (const QString &m, candidatesByName) { if (inherits(m, sniffedMime)) { // We have magic + pattern pointing to this, so it's a pretty good match *accuracyPtr = 100; return mimeTypeForName(m); } } *accuracyPtr = magicAccuracy; return candidateByData; } } if (candidatesByName.count() > 1) { *accuracyPtr = 20; candidatesByName.sort(); // to make it deterministic const QMimeType mime = mimeTypeForName(candidatesByName.at(0)); if (mime.isValid()) return mime; } return mimeTypeForName(defaultMimeType()); } QList QMimeDatabasePrivate::allMimeTypes() { return provider()->allMimeTypes(); } bool QMimeDatabasePrivate::inherits(const QString &mime, const QString &parent) { const QString resolvedParent = provider()->resolveAlias(parent); //Q_ASSERT(provider()->resolveAlias(mime) == mime); QStack toCheck; toCheck.push(mime); while (!toCheck.isEmpty()) { const QString current = toCheck.pop(); if (current == resolvedParent) return true; foreach (const QString &par, provider()->parents(current)) toCheck.push(par); } return false; } /*! \class QMimeDatabase \brief The QMimeDatabase class maintains a database of MIME types. \since 5.0 The MIME type database is provided by the freedesktop.org shared-mime-info project. If the MIME type database cannot be found on the system, as is the case on most Windows and Mac OS X systems, Qt will use its own copy of it. Applications which want to define custom MIME types need to install an XML file into the locations searched for MIME definitions. These locations can be queried with \code QStandardPaths::locateAll(QStandardPaths::GenericDataLocation, QLatin1String("mime/packages"), QStandardPaths::LocateDirectory); \endcode On a typical Unix system, this will be /usr/share/mime/packages/, but it is also possible to extend the list of directories by setting the environment variable XDG_DATA_DIRS. For instance adding /opt/myapp/share to XDG_DATA_DIRS will result in /opt/myapp/share/mime/packages/ being searched for MIME definitions. Here is an example of MIME XML: \code Qt qmake Profile \endcode For more details about the syntax of XML MIME definitions, including defining "magic" in order to detect MIME types based on data as well, read the Shared Mime Info specification at http://standards.freedesktop.org/shared-mime-info-spec/shared-mime-info-spec-latest.html On Unix systems, a binary cache is used for more performance. This cache is generated by the command "update-mime-database path", where path would be /opt/myapp/share/mime in the above example. Make sure to run this command when installing the MIME type definition file. \threadsafe \snippet code/src_corelib_mimetype_qmimedatabase.cpp 0 \sa QMimeType */ /*! \fn QMimeDatabase::QMimeDatabase(); Constructs this QMimeDatabase object. */ QMimeDatabase::QMimeDatabase() : d(staticQMimeDatabase()) { DBG(); } /*! \fn QMimeDatabase::~QMimeDatabase(); Destroys the QMimeDatabase object. */ QMimeDatabase::~QMimeDatabase() { DBG(); d = 0; } /*! \fn QMimeType QMimeDatabase::mimeTypeForName(const QString &nameOrAlias) const; Returns a MIME type for \a nameOrAlias or an invalid one if none found. */ QMimeType QMimeDatabase::mimeTypeForName(const QString &nameOrAlias) const { QMutexLocker locker(&d->mutex); return d->mimeTypeForName(nameOrAlias); } /*! Returns a MIME type for \a fileInfo. A valid MIME type is always returned. The default matching algorithm looks at both the file name and the file contents, if necessary. The file extension has priority over the contents, but the contents will be used if the file extension is unknown, or matches multiple MIME types. If \a fileInfo is a Unix symbolic link, the file that it refers to will be used instead. If the file doesn't match any known pattern or data, the default MIME type (application/octet-stream) is returned. When \a mode is set to MatchExtension, only the file name is used, not the file contents. The file doesn't even have to exist. If the file name doesn't match any known pattern, the default MIME type (application/octet-stream) is returned. If multiple MIME types match this file, the first one (alphabetically) is returned. When \a mode is set to MatchContent, and the file is readable, only the file contents are used to determine the MIME type. This is equivalent to calling mimeTypeForData with a QFile as input device. In all cases, the \a fileName can also include an absolute or relative path. \sa isDefault, mimeTypeForData */ QMimeType QMimeDatabase::mimeTypeForFile(const QFileInfo &fileInfo, MatchMode mode) const { DBG() << "fileInfo" << fileInfo.absoluteFilePath(); QMutexLocker locker(&d->mutex); if (fileInfo.isDir()) return d->mimeTypeForName(QLatin1String("inode/directory")); QFile file(fileInfo.absoluteFilePath()); #ifdef Q_OS_UNIX // Cannot access statBuf.st_mode from the filesystem engine, so we have to stat again. const QByteArray nativeFilePath = QFile::encodeName(file.fileName()); QT_STATBUF statBuffer; if (QT_LSTAT(nativeFilePath.constData(), &statBuffer) == 0) { if (S_ISCHR(statBuffer.st_mode)) return d->mimeTypeForName(QLatin1String("inode/chardevice")); if (S_ISBLK(statBuffer.st_mode)) return d->mimeTypeForName(QLatin1String("inode/blockdevice")); if (S_ISFIFO(statBuffer.st_mode)) return d->mimeTypeForName(QLatin1String("inode/fifo")); if (S_ISSOCK(statBuffer.st_mode)) return d->mimeTypeForName(QLatin1String("inode/socket")); } #endif int priority = 0; switch (mode) { case MatchDefault: file.open(QIODevice::ReadOnly); // isOpen() will be tested by method below return d->mimeTypeForNameAndData(fileInfo.absoluteFilePath(), &file, &priority); case MatchExtension: locker.unlock(); return mimeTypeForFile(fileInfo.absoluteFilePath(), mode); case MatchContent: if (file.open(QIODevice::ReadOnly)) { locker.unlock(); return mimeTypeForData(&file); } else { return d->mimeTypeForName(d->defaultMimeType()); } default: Q_ASSERT(false); } return d->mimeTypeForName(d->defaultMimeType()); } /*! Returns a MIME type for the file named \a fileName using \a mode. \overload */ QMimeType QMimeDatabase::mimeTypeForFile(const QString &fileName, MatchMode mode) const { if (mode == MatchExtension) { QMutexLocker locker(&d->mutex); QStringList matches = d->mimeTypeForFileName(fileName); const int matchCount = matches.count(); if (matchCount == 0) { return d->mimeTypeForName(d->defaultMimeType()); } else if (matchCount == 1) { return d->mimeTypeForName(matches.first()); } else { // We have to pick one. matches.sort(); // Make it deterministic return d->mimeTypeForName(matches.first()); } } else { // Implemented as a wrapper around mimeTypeForFile(QFileInfo), so no mutex. QFileInfo fileInfo(fileName); return mimeTypeForFile(fileInfo); } } /*! Returns the MIME types for the file name \a fileName. If the file name doesn't match any known pattern, an empty list is returned. If multiple MIME types match this file, they are all returned. This function does not try to open the file. To also use the content when determining the MIME type, use mimeTypeForFile() or mimeTypeForNameAndData() instead. \sa mimeTypeForFile */ QList QMimeDatabase::mimeTypesForFileName(const QString &fileName) const { QMutexLocker locker(&d->mutex); QStringList matches = d->mimeTypeForFileName(fileName); QList mimes; matches.sort(); // Make it deterministic foreach (const QString &mime, matches) mimes.append(d->mimeTypeForName(mime)); return mimes; } /*! Returns the suffix for the file \a fileName, as known by the MIME database. This allows to pre-select "tar.bz2" for foo.tar.bz2, but still only "txt" for my.file.with.dots.txt. */ QString QMimeDatabase::suffixForFileName(const QString &fileName) const { QMutexLocker locker(&d->mutex); QString foundSuffix; d->mimeTypeForFileName(fileName, &foundSuffix); return foundSuffix; } /*! Returns a MIME type for \a data. A valid MIME type is always returned. If \a data doesn't match any known MIME type data, the default MIME type (application/octet-stream) is returned. */ QMimeType QMimeDatabase::mimeTypeForData(const QByteArray &data) const { QMutexLocker locker(&d->mutex); int accuracy = 0; return d->findByData(data, &accuracy); } /*! Returns a MIME type for the data in \a device. A valid MIME type is always returned. If the data in \a device doesn't match any known MIME type data, the default MIME type (application/octet-stream) is returned. */ QMimeType QMimeDatabase::mimeTypeForData(QIODevice *device) const { QMutexLocker locker(&d->mutex); int accuracy = 0; const bool openedByUs = !device->isOpen() && device->open(QIODevice::ReadOnly); if (device->isOpen()) { // Read 16K in one go (QIODEVICE_BUFFERSIZE in qiodevice_p.h). // This is much faster than seeking back and forth into QIODevice. const QByteArray data = device->peek(16384); const QMimeType result = d->findByData(data, &accuracy); if (openedByUs) device->close(); return result; } return d->mimeTypeForName(d->defaultMimeType()); } /*! Returns a MIME type for \a url. If the URL is a local file, this calls mimeTypeForFile. Otherwise the matching is done based on the file name only, except for schemes where file names don't mean much, like HTTP. This method always returns the default mimetype for HTTP URLs, use QNetworkAccessManager to handle HTTP URLs properly. A valid MIME type is always returned. If \a url doesn't match any known MIME type data, the default MIME type (application/octet-stream) is returned. */ QMimeType QMimeDatabase::mimeTypeForUrl(const QUrl &url) const { if (url.isLocalFile()) return mimeTypeForFile(url.toLocalFile()); const QString scheme = url.scheme(); if (scheme.startsWith(QLatin1String("http"))) return mimeTypeForName(d->defaultMimeType()); return mimeTypeForFile(url.path()); } /*! Returns a MIME type for the given \a fileName and \a device data. This overload can be useful when the file is remote, and we started to download some of its data in a device. This allows to do full MIME type matching for remote files as well. If the device is not open, it will be opened by this function, and closed after the MIME type detection is completed. A valid MIME type is always returned. If \a device data doesn't match any known MIME type data, the default MIME type (application/octet-stream) is returned. This method looks at both the file name and the file contents, if necessary. The file extension has priority over the contents, but the contents will be used if the file extension is unknown, or matches multiple MIME types. */ QMimeType QMimeDatabase::mimeTypeForNameAndData(const QString &fileName, QIODevice *device) const { DBG() << "fileName" << fileName; int accuracy = 0; const bool openedByUs = !device->isOpen() && device->open(QIODevice::ReadOnly); const QMimeType result = d->mimeTypeForNameAndData(fileName, device, &accuracy); if (openedByUs) device->close(); return result; } /*! Returns a MIME type for the given \a fileName and device \a data. This overload can be useful when the file is remote, and we started to download some of its data. This allows to do full MIME type matching for remote files as well. A valid MIME type is always returned. If \a data doesn't match any known MIME type data, the default MIME type (application/octet-stream) is returned. This method looks at both the file name and the file contents, if necessary. The file extension has priority over the contents, but the contents will be used if the file extension is unknown, or matches multiple MIME types. */ QMimeType QMimeDatabase::mimeTypeForNameAndData(const QString &fileName, const QByteArray &data) const { DBG() << "fileName" << fileName; QBuffer buffer(const_cast(&data)); buffer.open(QIODevice::ReadOnly); int accuracy = 0; return d->mimeTypeForNameAndData(fileName, &buffer, &accuracy); } /*! Returns the list of all available MIME types. This can be useful for showing all MIME types to the user, for instance in a MIME type editor. Do not use unless really necessary in other cases though, prefer using the mimeTypeFor* methods for performance reasons. */ QList QMimeDatabase::allMimeTypes() const { QMutexLocker locker(&d->mutex); return d->allMimeTypes(); } #undef DBG QT_END_NAMESPACE