/**************************************************************************** ** ** 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 QtDBus module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial Usage ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** 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. ** ** 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. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qdbusabstractadaptor.h" #include #include #include #include #include #include "qdbusconnection.h" #include "qdbusconnection_p.h" // for qDBusParametersForMethod #include "qdbusabstractadaptor_p.h" #include "qdbusmetatype_p.h" QT_BEGIN_NAMESPACE QDBusAdaptorConnector *qDBusFindAdaptorConnector(QObject *obj) { if (!obj) return 0; const QObjectList &children = obj->children(); QObjectList::ConstIterator it = children.constBegin(); QObjectList::ConstIterator end = children.constEnd(); for ( ; it != end; ++it) { QDBusAdaptorConnector *connector = qobject_cast(*it); if (connector) { connector->polish(); return connector; } } return 0; } QDBusAdaptorConnector *qDBusFindAdaptorConnector(QDBusAbstractAdaptor *adaptor) { return qDBusFindAdaptorConnector(adaptor->parent()); } QDBusAdaptorConnector *qDBusCreateAdaptorConnector(QObject *obj) { QDBusAdaptorConnector *connector = qDBusFindAdaptorConnector(obj); if (connector) return connector; return new QDBusAdaptorConnector(obj); } QString QDBusAbstractAdaptorPrivate::retrieveIntrospectionXml(QDBusAbstractAdaptor *adaptor) { return adaptor->d_func()->xml; } void QDBusAbstractAdaptorPrivate::saveIntrospectionXml(QDBusAbstractAdaptor *adaptor, const QString &xml) { adaptor->d_func()->xml = xml; } /*! \class QDBusAbstractAdaptor \inmodule QtDBus \since 4.2 \brief The QDBusAbstractAdaptor class is the base class of D-Bus adaptor classes. The QDBusAbstractAdaptor class is the starting point for all objects intending to provide interfaces to the external world using D-Bus. This is accomplished by attaching a one or more classes derived from QDBusAbstractAdaptor to a normal QObject and then registering that QObject with QDBusConnection::registerObject. QDBusAbstractAdaptor objects are intended to be light-weight wrappers, mostly just relaying calls into the real object (its parent) and the signals from it. Each QDBusAbstractAdaptor-derived class should define the D-Bus interface it is implementing using the Q_CLASSINFO macro in the class definition. Note that only one interface can be exposed in this way. QDBusAbstractAdaptor uses the standard QObject mechanism of signals, slots and properties to determine what signals, methods and properties to export to the bus. Any signal emitted by QDBusAbstractAdaptor-derived classes will be automatically be relayed through any D-Bus connections the object is registered on. Classes derived from QDBusAbstractAdaptor must be created on the heap using the \a new operator and must not be deleted by the user (they will be deleted automatically when the object they are connected to is also deleted). \sa {usingadaptors.html}{Using adaptors}, QDBusConnection */ /*! Constructs a QDBusAbstractAdaptor with \a obj as the parent object. */ QDBusAbstractAdaptor::QDBusAbstractAdaptor(QObject* obj) : QObject(*new QDBusAbstractAdaptorPrivate, obj) { QDBusAdaptorConnector *connector = qDBusCreateAdaptorConnector(obj); connector->waitingForPolish = true; QMetaObject::invokeMethod(connector, "polish", Qt::QueuedConnection); } /*! Destroys the adaptor. \warning Adaptors are destroyed automatically when the real object they refer to is destroyed. Do not delete the adaptors yourself. */ QDBusAbstractAdaptor::~QDBusAbstractAdaptor() { } /*! Toggles automatic signal relaying from the real object (see object()). Automatic signal relaying consists of signal-to-signal connection of the signals on the parent that have the exact same method signatue in both classes. If \a enable is set to true, connect the signals; if set to false, disconnect all signals. */ void QDBusAbstractAdaptor::setAutoRelaySignals(bool enable) { const QMetaObject *us = metaObject(); const QMetaObject *them = parent()->metaObject(); bool connected = false; for (int idx = staticMetaObject.methodCount(); idx < us->methodCount(); ++idx) { QMetaMethod mm = us->method(idx); if (mm.methodType() != QMetaMethod::Signal) continue; // try to connect/disconnect to a signal on the parent that has the same method signature QByteArray sig = QMetaObject::normalizedSignature(mm.signature()); if (them->indexOfSignal(sig) == -1) continue; sig.prepend(QSIGNAL_CODE + '0'); parent()->disconnect(sig, this, sig); if (enable) connected = connect(parent(), sig, sig) || connected; } d_func()->autoRelaySignals = connected; } /*! Returns true if automatic signal relaying from the real object (see object()) is enabled, otherwiser returns false. \sa setAutoRelaySignals() */ bool QDBusAbstractAdaptor::autoRelaySignals() const { return d_func()->autoRelaySignals; } QDBusAdaptorConnector::QDBusAdaptorConnector(QObject *obj) : QObject(obj), waitingForPolish(false) { } QDBusAdaptorConnector::~QDBusAdaptorConnector() { } void QDBusAdaptorConnector::addAdaptor(QDBusAbstractAdaptor *adaptor) { // find the interface name const QMetaObject *mo = adaptor->metaObject(); int ciid = mo->indexOfClassInfo(QCLASSINFO_DBUS_INTERFACE); if (ciid != -1) { QMetaClassInfo mci = mo->classInfo(ciid); if (*mci.value()) { // find out if this interface exists first const char *interface = mci.value(); AdaptorMap::Iterator it = qLowerBound(adaptors.begin(), adaptors.end(), QByteArray(interface)); if (it != adaptors.end() && qstrcmp(interface, it->interface) == 0) { // exists. Replace it (though it's probably the same) if (it->adaptor != adaptor) { // reconnect the signals disconnectAllSignals(it->adaptor); connectAllSignals(adaptor); } it->adaptor = adaptor; } else { // create a new one AdaptorData entry; entry.interface = interface; entry.adaptor = adaptor; adaptors << entry; // connect the adaptor's signals to our relaySlot slot connectAllSignals(adaptor); } } } } void QDBusAdaptorConnector::disconnectAllSignals(QObject *obj) { QMetaObject::disconnect(obj, -1, this, metaObject()->methodOffset()); } void QDBusAdaptorConnector::connectAllSignals(QObject *obj) { QMetaObject::connect(obj, -1, this, metaObject()->methodOffset(), Qt::DirectConnection); } void QDBusAdaptorConnector::polish() { if (!waitingForPolish) return; // avoid working multiple times if multiple adaptors were added waitingForPolish = false; const QObjectList &objs = parent()->children(); QObjectList::ConstIterator it = objs.constBegin(); QObjectList::ConstIterator end = objs.constEnd(); for ( ; it != end; ++it) { QDBusAbstractAdaptor *adaptor = qobject_cast(*it); if (adaptor) addAdaptor(adaptor); } // sort the adaptor list qSort(adaptors); } void QDBusAdaptorConnector::relaySlot(void **argv) { QObjectPrivate *d = static_cast(d_ptr.data()); relay(d->currentSender->sender, d->currentSender->signal, argv); } void QDBusAdaptorConnector::relay(QObject *senderObj, int lastSignalIdx, void **argv) { if (lastSignalIdx < QObject::staticMetaObject.methodCount()) // QObject signal (destroyed(QObject *)) -- ignore return; const QMetaObject *senderMetaObject = senderObj->metaObject(); QMetaMethod mm = senderMetaObject->method(lastSignalIdx); QObject *realObject = senderObj; if (qobject_cast(senderObj)) // it's an adaptor, so the real object is in fact its parent realObject = realObject->parent(); // break down the parameter list QList types; int inputCount = qDBusParametersForMethod(mm, types); if (inputCount == -1) // invalid signal signature // qDBusParametersForMethod has already complained return; if (inputCount + 1 != types.count() || types.at(inputCount) == QDBusMetaTypeId::message) { // invalid signal signature // qDBusParametersForMethod has not yet complained about this one qWarning("QDBusAbstractAdaptor: Cannot relay signal %s::%s", senderMetaObject->className(), mm.signature()); return; } QVariantList args; for (int i = 1; i < types.count(); ++i) args << QVariant(types.at(i), argv[i]); // now emit the signal with all the information emit relaySignal(realObject, senderMetaObject, lastSignalIdx, args); } // our Meta Object // modify carefully: this has been hand-edited! // the relaySlot slot has local ID 0 (we use this when calling QMetaObject::connect) // it also gets called with the void** array static const uint qt_meta_data_QDBusAdaptorConnector[] = { // content: 1, // revision 0, // classname 0, 0, // classinfo 3, 10, // methods 0, 0, // properties 0, 0, // enums/sets // slots: signature, parameters, type, tag, flags 106, 22, 22, 22, 0x0a, 118, 22, 22, 22, 0x0a, // signals: signature, parameters, type, tag, flags 47, 23, 22, 22, 0x05, 0 // eod }; static const char qt_meta_stringdata_QDBusAdaptorConnector[] = { "QDBusAdaptorConnector\0\0obj,metaobject,sid,args\0" "relaySignal(QObject*,const QMetaObject*,int,QVariantList)\0\0relaySlot()\0" "polish()\0" }; const QMetaObject QDBusAdaptorConnector::staticMetaObject = { { &QObject::staticMetaObject, qt_meta_stringdata_QDBusAdaptorConnector, qt_meta_data_QDBusAdaptorConnector, 0 } }; const QMetaObject *QDBusAdaptorConnector::metaObject() const { return &staticMetaObject; } void *QDBusAdaptorConnector::qt_metacast(const char *_clname) { if (!_clname) return 0; if (!strcmp(_clname, qt_meta_stringdata_QDBusAdaptorConnector)) return static_cast(const_cast(this)); return QObject::qt_metacast(_clname); } int QDBusAdaptorConnector::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QObject::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { switch (_id) { case 0: relaySlot(_a); break; // HAND EDIT: add the _a parameter case 1: polish(); break; case 2: relaySignal((*reinterpret_cast< QObject*(*)>(_a[1])),(*reinterpret_cast< const QMetaObject*(*)>(_a[2])),(*reinterpret_cast< int(*)>(_a[3])),(*reinterpret_cast< const QVariantList(*)>(_a[4]))); break; } _id -= 3; } return _id; } // SIGNAL 0 void QDBusAdaptorConnector::relaySignal(QObject * _t1, const QMetaObject * _t2, int _t3, const QVariantList & _t4) { void *_a[] = { 0, const_cast(reinterpret_cast(&_t1)), const_cast(reinterpret_cast(&_t2)), const_cast(reinterpret_cast(&_t3)), const_cast(reinterpret_cast(&_t4)) }; QMetaObject::activate(this, &staticMetaObject, 2, _a); } QT_END_NAMESPACE