/**************************************************************************** ** ** Copyright (C) 2015 The Qt Company Ltd. ** Contact: http://www.qt.io/licensing/ ** ** This file is part of the QtDBus 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 http://www.qt.io/terms-conditions. For further ** information use the contact form at http://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 2.1 or version 3 as published by the Free ** Software Foundation and appearing in the file LICENSE.LGPLv21 and ** LICENSE.LGPLv3 included in the packaging of this file. Please review the ** following information to ensure the GNU Lesser General Public License ** requirements will be met: https://www.gnu.org/licenses/lgpl.html and ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** As a special exception, The Qt Company gives you certain additional ** rights. These rights are described in The Qt Company 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. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #include #include #include #include #include #include "qdbusargument.h" #include "qdbusconnection_p.h" #include "qdbusconnectionmanager_p.h" #include "qdbusinterface_p.h" #include "qdbusmessage.h" #include "qdbusmetatype.h" #include "qdbusmetatype_p.h" #include "qdbusabstractadaptor.h" #include "qdbusabstractadaptor_p.h" #include "qdbusutil_p.h" #include "qdbusvirtualobject.h" #include "qdbusmessage_p.h" #include "qdbuscontext_p.h" #include "qdbuspendingcall_p.h" #include "qdbusintegrator_p.h" #include "qdbusthreaddebug_p.h" #ifndef QT_NO_DBUS QT_BEGIN_NAMESPACE static bool isDebugging; #define qDBusDebug if (!::isDebugging); else qDebug Q_GLOBAL_STATIC_WITH_ARGS(const QString, orgFreedesktopDBusString, (QLatin1String(DBUS_SERVICE_DBUS))) static inline QString dbusServiceString() { return *orgFreedesktopDBusString(); } static inline QString dbusInterfaceString() { // it's the same string, but just be sure Q_ASSERT(*orgFreedesktopDBusString() == QLatin1String(DBUS_INTERFACE_DBUS)); return *orgFreedesktopDBusString(); } static inline QDebug operator<<(QDebug dbg, const QThread *th) { dbg.nospace() << "QThread(ptr=" << (void*)th; if (th && !th->objectName().isEmpty()) dbg.nospace() << ", name=" << th->objectName(); dbg.nospace() << ')'; return dbg.space(); } #if QDBUS_THREAD_DEBUG static inline QDebug operator<<(QDebug dbg, const QDBusConnectionPrivate *conn) { dbg.nospace() << "QDBusConnection(" << "ptr=" << (void*)conn << ", name=" << conn->name << ", baseService=" << conn->baseService << ", thread="; if (conn->thread() == QThread::currentThread()) dbg.nospace() << "same thread"; else dbg.nospace() << conn->thread(); dbg.nospace() << ')'; return dbg.space(); } Q_AUTOTEST_EXPORT void qdbusDefaultThreadDebug(int action, int condition, QDBusConnectionPrivate *conn) { qDBusDebug() << QThread::currentThread() << "QtDBus threading action" << action << (condition == QDBusLockerBase::BeforeLock ? "before lock" : condition == QDBusLockerBase::AfterLock ? "after lock" : condition == QDBusLockerBase::BeforeUnlock ? "before unlock" : condition == QDBusLockerBase::AfterUnlock ? "after unlock" : condition == QDBusLockerBase::BeforePost ? "before event posting" : condition == QDBusLockerBase::AfterPost ? "after event posting" : condition == QDBusLockerBase::BeforeDeliver ? "before event delivery" : condition == QDBusLockerBase::AfterDeliver ? "after event delivery" : condition == QDBusLockerBase::BeforeAcquire ? "before acquire" : condition == QDBusLockerBase::AfterAcquire ? "after acquire" : condition == QDBusLockerBase::BeforeRelease ? "before release" : condition == QDBusLockerBase::AfterRelease ? "after release" : "condition unknown") << "in connection" << conn; } Q_AUTOTEST_EXPORT qdbusThreadDebugFunc qdbusThreadDebug = 0; #endif typedef void (*QDBusSpyHook)(const QDBusMessage&); typedef QVarLengthArray QDBusSpyHookList; Q_GLOBAL_STATIC(QDBusSpyHookList, qDBusSpyHookList) extern "C" { // libdbus-1 callbacks static bool qDBusRealAddTimeout(QDBusConnectionPrivate *d, DBusTimeout *timeout, int ms); static dbus_bool_t qDBusAddTimeout(DBusTimeout *timeout, void *data) { Q_ASSERT(timeout); Q_ASSERT(data); // qDebug("addTimeout %d", q_dbus_timeout_get_interval(timeout)); QDBusConnectionPrivate *d = static_cast(data); if (!q_dbus_timeout_get_enabled(timeout)) return true; QDBusWatchAndTimeoutLocker locker(AddTimeoutAction, d); if (QCoreApplication::instance() && QThread::currentThread() == d->thread()) { // correct thread return qDBusRealAddTimeout(d, timeout, q_dbus_timeout_get_interval(timeout)); } else { // wrong thread: sync back QDBusConnectionCallbackEvent *ev = new QDBusConnectionCallbackEvent; ev->subtype = QDBusConnectionCallbackEvent::AddTimeout; d->timeoutsPendingAdd.append(qMakePair(timeout, q_dbus_timeout_get_interval(timeout))); d->postEventToThread(AddTimeoutAction, d, ev); return true; } } static bool qDBusRealAddTimeout(QDBusConnectionPrivate *d, DBusTimeout *timeout, int ms) { Q_ASSERT(d->timeouts.keys(timeout).isEmpty()); int timerId = d->startTimer(ms); if (!timerId) return false; d->timeouts[timerId] = timeout; return true; } static void qDBusRemoveTimeout(DBusTimeout *timeout, void *data) { Q_ASSERT(timeout); Q_ASSERT(data); // qDebug("removeTimeout"); QDBusConnectionPrivate *d = static_cast(data); QDBusWatchAndTimeoutLocker locker(RemoveTimeoutAction, d); // is it pending addition? QDBusConnectionPrivate::PendingTimeoutList::iterator pit = d->timeoutsPendingAdd.begin(); while (pit != d->timeoutsPendingAdd.end()) { if (pit->first == timeout) pit = d->timeoutsPendingAdd.erase(pit); else ++pit; } // is it a running timer? bool correctThread = QCoreApplication::instance() && QThread::currentThread() == d->thread(); QDBusConnectionPrivate::TimeoutHash::iterator it = d->timeouts.begin(); while (it != d->timeouts.end()) { if (it.value() == timeout) { if (correctThread) { // correct thread d->killTimer(it.key()); } else { // incorrect thread or no application, post an event for later QDBusConnectionCallbackEvent *ev = new QDBusConnectionCallbackEvent; ev->subtype = QDBusConnectionCallbackEvent::KillTimer; ev->timerId = it.key(); d->postEventToThread(KillTimerAction, d, ev); } it = d->timeouts.erase(it); break; } else { ++it; } } } static void qDBusToggleTimeout(DBusTimeout *timeout, void *data) { Q_ASSERT(timeout); Q_ASSERT(data); //qDebug("ToggleTimeout"); qDBusRemoveTimeout(timeout, data); qDBusAddTimeout(timeout, data); } static bool qDBusRealAddWatch(QDBusConnectionPrivate *d, DBusWatch *watch, int flags, int fd); static dbus_bool_t qDBusAddWatch(DBusWatch *watch, void *data) { Q_ASSERT(watch); Q_ASSERT(data); QDBusConnectionPrivate *d = static_cast(data); int flags = q_dbus_watch_get_flags(watch); int fd = q_dbus_watch_get_fd(watch); if (QCoreApplication::instance() && QThread::currentThread() == d->thread()) { return qDBusRealAddWatch(d, watch, flags, fd); } else { QDBusConnectionCallbackEvent *ev = new QDBusConnectionCallbackEvent; ev->subtype = QDBusConnectionCallbackEvent::AddWatch; ev->watch = watch; ev->fd = fd; ev->extra = flags; d->postEventToThread(AddWatchAction, d, ev); return true; } } static bool qDBusRealAddWatch(QDBusConnectionPrivate *d, DBusWatch *watch, int flags, int fd) { QDBusConnectionPrivate::Watcher watcher; QDBusWatchAndTimeoutLocker locker(AddWatchAction, d); if (flags & DBUS_WATCH_READABLE) { //qDebug("addReadWatch %d", fd); watcher.watch = watch; if (QCoreApplication::instance()) { watcher.read = new QSocketNotifier(fd, QSocketNotifier::Read, d); watcher.read->setEnabled(q_dbus_watch_get_enabled(watch)); d->connect(watcher.read, SIGNAL(activated(int)), SLOT(socketRead(int))); } } if (flags & DBUS_WATCH_WRITABLE) { //qDebug("addWriteWatch %d", fd); watcher.watch = watch; if (QCoreApplication::instance()) { watcher.write = new QSocketNotifier(fd, QSocketNotifier::Write, d); watcher.write->setEnabled(q_dbus_watch_get_enabled(watch)); d->connect(watcher.write, SIGNAL(activated(int)), SLOT(socketWrite(int))); } } d->watchers.insertMulti(fd, watcher); return true; } static void qDBusRemoveWatch(DBusWatch *watch, void *data) { Q_ASSERT(watch); Q_ASSERT(data); //qDebug("remove watch"); QDBusConnectionPrivate *d = static_cast(data); int fd = q_dbus_watch_get_fd(watch); QDBusWatchAndTimeoutLocker locker(RemoveWatchAction, d); QDBusConnectionPrivate::WatcherHash::iterator i = d->watchers.find(fd); while (i != d->watchers.end() && i.key() == fd) { if (i.value().watch == watch) { if (QCoreApplication::instance() && QThread::currentThread() == d->thread()) { // correct thread, delete the socket notifiers delete i.value().read; delete i.value().write; } else { // incorrect thread or no application, use delete later if (i->read) i->read->deleteLater(); if (i->write) i->write->deleteLater(); } i = d->watchers.erase(i); } else { ++i; } } } static void qDBusRealToggleWatch(QDBusConnectionPrivate *d, DBusWatch *watch, int fd); static void qDBusToggleWatch(DBusWatch *watch, void *data) { Q_ASSERT(watch); Q_ASSERT(data); QDBusConnectionPrivate *d = static_cast(data); int fd = q_dbus_watch_get_fd(watch); if (QCoreApplication::instance() && QThread::currentThread() == d->thread()) { qDBusRealToggleWatch(d, watch, fd); } else { QDBusConnectionCallbackEvent *ev = new QDBusConnectionCallbackEvent; ev->subtype = QDBusConnectionCallbackEvent::ToggleWatch; ev->watch = watch; ev->fd = fd; d->postEventToThread(ToggleWatchAction, d, ev); } } static void qDBusRealToggleWatch(QDBusConnectionPrivate *d, DBusWatch *watch, int fd) { QDBusWatchAndTimeoutLocker locker(ToggleWatchAction, d); QDBusConnectionPrivate::WatcherHash::iterator i = d->watchers.find(fd); while (i != d->watchers.end() && i.key() == fd) { if (i.value().watch == watch) { bool enabled = q_dbus_watch_get_enabled(watch); int flags = q_dbus_watch_get_flags(watch); //qDebug("toggle watch %d to %d (write: %d, read: %d)", q_dbus_watch_get_fd(watch), enabled, flags & DBUS_WATCH_WRITABLE, flags & DBUS_WATCH_READABLE); if (flags & DBUS_WATCH_READABLE && i.value().read) i.value().read->setEnabled(enabled); if (flags & DBUS_WATCH_WRITABLE && i.value().write) i.value().write->setEnabled(enabled); return; } ++i; } } static void qDBusUpdateDispatchStatus(DBusConnection *connection, DBusDispatchStatus new_status, void *data) { Q_ASSERT(connection); Q_UNUSED(connection); QDBusConnectionPrivate *d = static_cast(data); static int slotId; // 0 is QObject::deleteLater() if (!slotId) { // it's ok to do this: there's no race condition because the store is atomic // and we always set to the same value slotId = QDBusConnectionPrivate::staticMetaObject.indexOfSlot("doDispatch()"); } //qDBusDebug() << "Updating dispatcher status" << slotId; if (new_status == DBUS_DISPATCH_DATA_REMAINS) QDBusConnectionPrivate::staticMetaObject.method(slotId). invoke(d, Qt::QueuedConnection); } static void qDBusNewConnection(DBusServer *server, DBusConnection *connection, void *data) { // ### We may want to separate the server from the QDBusConnectionPrivate Q_ASSERT(server); Q_UNUSED(server); Q_ASSERT(connection); Q_ASSERT(data); // keep the connection alive q_dbus_connection_ref(connection); QDBusConnectionPrivate *serverConnection = static_cast(data); QDBusConnectionPrivate *newConnection = new QDBusConnectionPrivate(serverConnection->parent()); QMutexLocker locker(&QDBusConnectionManager::instance()->mutex); QDBusConnectionManager::instance()->setConnection(QLatin1String("QDBusServer-") + QString::number(reinterpret_cast(newConnection)), newConnection); serverConnection->serverConnectionNames << newConnection->name; // setPeer does the error handling for us QDBusErrorInternal error; newConnection->setPeer(connection, error); QDBusConnection retval = QDBusConnectionPrivate::q(newConnection); // make QDBusServer emit the newConnection signal serverConnection->serverConnection(retval); } } // extern "C" static QByteArray buildMatchRule(const QString &service, const QString &objectPath, const QString &interface, const QString &member, const QStringList &argMatch, const QString & /*signature*/) { QString result = QLatin1String("type='signal',"); QString keyValue = QLatin1String("%1='%2',"); if (!service.isEmpty()) result += keyValue.arg(QLatin1String("sender"), service); if (!objectPath.isEmpty()) result += keyValue.arg(QLatin1String("path"), objectPath); if (!interface.isEmpty()) result += keyValue.arg(QLatin1String("interface"), interface); if (!member.isEmpty()) result += keyValue.arg(QLatin1String("member"), member); // add the argument string-matching now if (!argMatch.isEmpty()) { keyValue = QLatin1String("arg%1='%2',"); for (int i = 0; i < argMatch.count(); ++i) if (!argMatch.at(i).isNull()) result += keyValue.arg(i).arg(argMatch.at(i)); } result.chop(1); // remove ending comma return result.toLatin1(); } static bool findObject(const QDBusConnectionPrivate::ObjectTreeNode *root, const QString &fullpath, int &usedLength, QDBusConnectionPrivate::ObjectTreeNode &result) { if (!fullpath.compare(QLatin1String("/")) && root->obj) { usedLength = 1; result = *root; return root; } int start = 0; int length = fullpath.length(); if (fullpath.at(0) == QLatin1Char('/')) start = 1; // walk the object tree const QDBusConnectionPrivate::ObjectTreeNode *node = root; while (start < length && node) { if (node->flags & QDBusConnection::ExportChildObjects) break; if ((node->flags & QDBusConnectionPrivate::VirtualObject) && (node->flags & QDBusConnection::SubPath)) break; int end = fullpath.indexOf(QLatin1Char('/'), start); end = (end == -1 ? length : end); QStringRef pathComponent(&fullpath, start, end - start); QDBusConnectionPrivate::ObjectTreeNode::DataList::ConstIterator it = qLowerBound(node->children.constBegin(), node->children.constEnd(), pathComponent); if (it != node->children.constEnd() && it->name == pathComponent) // match node = it; else node = 0; start = end + 1; } // found our object usedLength = (start > length ? length : start); if (node) { if (node->obj || !node->children.isEmpty()) result = *node; else // there really is no object here // we're just looking at an unused space in the QVector node = 0; } return node; } static QObject *findChildObject(const QDBusConnectionPrivate::ObjectTreeNode *root, const QString &fullpath, int start) { int length = fullpath.length(); // any object in the tree can tell us to switch to its own object tree: const QDBusConnectionPrivate::ObjectTreeNode *node = root; if (node && node->flags & QDBusConnection::ExportChildObjects) { QObject *obj = node->obj; while (obj) { if (start >= length) // we're at the correct level return obj; int pos = fullpath.indexOf(QLatin1Char('/'), start); pos = (pos == -1 ? length : pos); QStringRef pathComponent(&fullpath, start, pos - start); const QObjectList children = obj->children(); // find a child with the proper name QObject *next = 0; QObjectList::ConstIterator it = children.constBegin(); QObjectList::ConstIterator end = children.constEnd(); for ( ; it != end; ++it) if ((*it)->objectName() == pathComponent) { next = *it; break; } if (!next) break; obj = next; start = pos + 1; } } // object not found return 0; } static bool shouldWatchService(const QString &service) { return !service.isEmpty() && !service.startsWith(QLatin1Char(':')); } extern Q_DBUS_EXPORT void qDBusAddSpyHook(QDBusSpyHook); void qDBusAddSpyHook(QDBusSpyHook hook) { qDBusSpyHookList()->append(hook); } extern "C" { static DBusHandlerResult qDBusSignalFilter(DBusConnection *connection, DBusMessage *message, void *data) { Q_ASSERT(data); Q_UNUSED(connection); QDBusConnectionPrivate *d = static_cast(data); if (d->mode == QDBusConnectionPrivate::InvalidMode) return DBUS_HANDLER_RESULT_NOT_YET_HANDLED; QDBusMessage amsg = QDBusMessagePrivate::fromDBusMessage(message, d->capabilities); qDBusDebug() << d << "got message (signal):" << amsg; return d->handleMessage(amsg) ? DBUS_HANDLER_RESULT_HANDLED : DBUS_HANDLER_RESULT_NOT_YET_HANDLED; } } bool QDBusConnectionPrivate::handleMessage(const QDBusMessage &amsg) { const QDBusSpyHookList *list = qDBusSpyHookList(); for (int i = 0; i < list->size(); ++i) { qDBusDebug() << "calling the message spy hook"; (*(*list)[i])(amsg); } if (!ref) return false; switch (amsg.type()) { case QDBusMessage::SignalMessage: handleSignal(amsg); // if there are any other filters in this DBusConnection, // let them see the signal too return false; case QDBusMessage::MethodCallMessage: handleObjectCall(amsg); return true; case QDBusMessage::ReplyMessage: case QDBusMessage::ErrorMessage: case QDBusMessage::InvalidMessage: return false; // we don't handle those here } return false; } static void huntAndDestroy(QObject *needle, QDBusConnectionPrivate::ObjectTreeNode &haystack) { QDBusConnectionPrivate::ObjectTreeNode::DataList::Iterator it = haystack.children.begin(); QDBusConnectionPrivate::ObjectTreeNode::DataList::Iterator end = haystack.children.end(); for ( ; it != end; ++it) huntAndDestroy(needle, *it); if (needle == haystack.obj) { haystack.obj = 0; haystack.flags = 0; } } static void huntAndEmit(DBusConnection *connection, DBusMessage *msg, QObject *needle, const QDBusConnectionPrivate::ObjectTreeNode &haystack, bool isScriptable, bool isAdaptor, const QString &path = QString()) { QDBusConnectionPrivate::ObjectTreeNode::DataList::ConstIterator it = haystack.children.constBegin(); QDBusConnectionPrivate::ObjectTreeNode::DataList::ConstIterator end = haystack.children.constEnd(); for ( ; it != end; ++it) huntAndEmit(connection, msg, needle, *it, isScriptable, isAdaptor, path + QLatin1Char('/') + it->name); if (needle == haystack.obj) { // is this a signal we should relay? if (isAdaptor && (haystack.flags & QDBusConnection::ExportAdaptors) == 0) return; // no: it comes from an adaptor and we're not exporting adaptors else if (!isAdaptor) { int mask = isScriptable ? QDBusConnection::ExportScriptableSignals : QDBusConnection::ExportNonScriptableSignals; if ((haystack.flags & mask) == 0) return; // signal was not exported } QByteArray p = path.toLatin1(); if (p.isEmpty()) p = "/"; qDBusDebug() << QThread::currentThread() << "emitting signal at" << p; DBusMessage *msg2 = q_dbus_message_copy(msg); q_dbus_message_set_path(msg2, p); q_dbus_connection_send(connection, msg2, 0); q_dbus_message_unref(msg2); } } static int findSlot(const QMetaObject *mo, const QByteArray &name, int flags, const QString &signature_, QList& metaTypes) { QByteArray msgSignature = signature_.toLatin1(); for (int idx = mo->methodCount() - 1 ; idx >= QObject::staticMetaObject.methodCount(); --idx) { QMetaMethod mm = mo->method(idx); // check access: if (mm.access() != QMetaMethod::Public) continue; // check type: if (mm.methodType() != QMetaMethod::Slot && mm.methodType() != QMetaMethod::Method) continue; // check name: QByteArray slotname = mm.signature(); int paren = slotname.indexOf('('); if (paren != name.length() || !slotname.startsWith(name)) continue; int returnType = qDBusNameToTypeId(mm.typeName()); bool isAsync = qDBusCheckAsyncTag(mm.tag()); bool isScriptable = mm.attributes() & QMetaMethod::Scriptable; // consistency check: if (isAsync && returnType != QMetaType::Void) continue; int inputCount = qDBusParametersForMethod(mm, metaTypes); if (inputCount == -1) continue; // problem parsing metaTypes[0] = returnType; bool hasMessage = false; if (inputCount > 0 && metaTypes.at(inputCount) == QDBusMetaTypeId::message) { // "no input parameters" is allowed as long as the message meta type is there hasMessage = true; --inputCount; } // try to match the parameters int i; QByteArray reconstructedSignature; for (i = 1; i <= inputCount; ++i) { const char *typeSignature = QDBusMetaType::typeToSignature( metaTypes.at(i) ); if (!typeSignature) break; // invalid reconstructedSignature += typeSignature; if (!msgSignature.startsWith(reconstructedSignature)) break; } if (reconstructedSignature != msgSignature) continue; // we didn't match them all if (hasMessage) ++i; // make sure that the output parameters have signatures too if (returnType != 0 && QDBusMetaType::typeToSignature(returnType) == 0) continue; bool ok = true; for (int j = i; ok && j < metaTypes.count(); ++j) if (QDBusMetaType::typeToSignature(metaTypes.at(i)) == 0) ok = false; if (!ok) continue; // consistency check: if (isAsync && metaTypes.count() > i + 1) continue; if (mm.methodType() == QMetaMethod::Slot) { if (isScriptable && (flags & QDBusConnection::ExportScriptableSlots) == 0) continue; // scriptable slots not exported if (!isScriptable && (flags & QDBusConnection::ExportNonScriptableSlots) == 0) continue; // non-scriptable slots not exported } else { if (isScriptable && (flags & QDBusConnection::ExportScriptableInvokables) == 0) continue; // scriptable invokables not exported if (!isScriptable && (flags & QDBusConnection::ExportNonScriptableInvokables) == 0) continue; // non-scriptable invokables not exported } // if we got here, this slot matched return idx; } // no slot matched return -1; } static QDBusCallDeliveryEvent * const DIRECT_DELIVERY = (QDBusCallDeliveryEvent *)1; QDBusCallDeliveryEvent* QDBusConnectionPrivate::prepareReply(QDBusConnectionPrivate *target, QObject *object, int idx, const QList &metaTypes, const QDBusMessage &msg) { Q_ASSERT(object); Q_UNUSED(object); int n = metaTypes.count() - 1; if (metaTypes[n] == QDBusMetaTypeId::message) --n; if (msg.arguments().count() < n) return 0; // too few arguments // check that types match for (int i = 0; i < n; ++i) if (metaTypes.at(i + 1) != msg.arguments().at(i).userType() && msg.arguments().at(i).userType() != qMetaTypeId()) return 0; // no match // we can deliver // prepare for the call if (target == object) return DIRECT_DELIVERY; return new QDBusCallDeliveryEvent(QDBusConnection(target), idx, target, msg, metaTypes); } void QDBusConnectionPrivate::activateSignal(const QDBusConnectionPrivate::SignalHook& hook, const QDBusMessage &msg) { // This is called by QDBusConnectionPrivate::handleSignal to deliver a signal // that was received from D-Bus // // Signals are delivered to slots if the parameters match // Slots can have less parameters than there are on the message // Slots can optionally have one final parameter that is a QDBusMessage // Slots receive read-only copies of the message (i.e., pass by value or by const-ref) QDBusCallDeliveryEvent *call = prepareReply(this, hook.obj, hook.midx, hook.params, msg); if (call == DIRECT_DELIVERY) { // short-circuit delivery Q_ASSERT(this == hook.obj); deliverCall(this, 0, msg, hook.params, hook.midx); return; } if (call) postEventToThread(ActivateSignalAction, hook.obj, call); } bool QDBusConnectionPrivate::activateCall(QObject* object, int flags, const QDBusMessage &msg) { // This is called by QDBusConnectionPrivate::handleObjectCall to place a call // to a slot on the object. // // The call is delivered to the first slot that matches the following conditions: // - has the same name as the message's target member // - ALL of the message's types are found in slot's parameter list // - optionally has one more parameter of type QDBusMessage // If none match, then the slot of the same name as the message target and with // the first type of QDBusMessage is delivered. // // The D-Bus specification requires that all MethodCall messages be replied to, unless the // caller specifically waived this requirement. This means that we inspect if the user slot // generated a reply and, if it didn't, we will. Obviously, if the user slot doesn't take a // QDBusMessage parameter, it cannot generate a reply. // // When a return message is generated, the slot's return type, if any, will be placed // in the message's first position. If there are non-const reference parameters to the // slot, they must appear at the end and will be placed in the subsequent message // positions. static const char cachePropertyName[] = "_qdbus_slotCache"; if (!object) return false; #ifndef QT_NO_PROPERTIES Q_ASSERT_X(QThread::currentThread() == object->thread(), "QDBusConnection: internal threading error", "function called for an object that is in another thread!!"); QDBusSlotCache slotCache = qvariant_cast(object->property(cachePropertyName)); QString cacheKey = msg.member(), signature = msg.signature(); if (!signature.isEmpty()) { cacheKey.reserve(cacheKey.length() + 1 + signature.length()); cacheKey += QLatin1Char('.'); cacheKey += signature; } QDBusSlotCache::Hash::ConstIterator cacheIt = slotCache.hash.constFind(cacheKey); while (cacheIt != slotCache.hash.constEnd() && cacheIt->flags != flags && cacheIt.key() == cacheKey) ++cacheIt; if (cacheIt == slotCache.hash.constEnd() || cacheIt.key() != cacheKey) { // not cached, analyze the meta object const QMetaObject *mo = object->metaObject(); QByteArray memberName = msg.member().toUtf8(); // find a slot that matches according to the rules above QDBusSlotCache::Data slotData; slotData.flags = flags; slotData.slotIdx = ::findSlot(mo, memberName, flags, msg.signature(), slotData.metaTypes); if (slotData.slotIdx == -1) { // ### this is where we want to add the connection as an arg too // try with no parameters, but with a QDBusMessage slotData.slotIdx = ::findSlot(mo, memberName, flags, QString(), slotData.metaTypes); if (slotData.metaTypes.count() != 2 || slotData.metaTypes.at(1) != QDBusMetaTypeId::message) { // not found // save the negative lookup slotData.slotIdx = -1; slotData.metaTypes.clear(); slotCache.hash.insert(cacheKey, slotData); object->setProperty(cachePropertyName, QVariant::fromValue(slotCache)); return false; } } // save to the cache slotCache.hash.insert(cacheKey, slotData); object->setProperty(cachePropertyName, QVariant::fromValue(slotCache)); // found the slot to be called deliverCall(object, flags, msg, slotData.metaTypes, slotData.slotIdx); return true; } else if (cacheIt->slotIdx == -1) { // negative cache return false; } else { // use the cache deliverCall(object, flags, msg, cacheIt->metaTypes, cacheIt->slotIdx); return true; } #endif // QT_NO_PROPERTIES return false; } void QDBusConnectionPrivate::deliverCall(QObject *object, int /*flags*/, const QDBusMessage &msg, const QList &metaTypes, int slotIdx) { Q_ASSERT_X(!object || QThread::currentThread() == object->thread(), "QDBusConnection: internal threading error", "function called for an object that is in another thread!!"); QVarLengthArray params; params.reserve(metaTypes.count()); QVariantList auxParameters; // let's create the parameter list // first one is the return type -- add it below params.append(0); // add the input parameters int i; int pCount = qMin(msg.arguments().count(), metaTypes.count() - 1); for (i = 1; i <= pCount; ++i) { int id = metaTypes[i]; if (id == QDBusMetaTypeId::message) break; const QVariant &arg = msg.arguments().at(i - 1); if (arg.userType() == id) // no conversion needed params.append(const_cast(arg.constData())); else if (arg.userType() == qMetaTypeId()) { // convert to what the function expects void *null = 0; auxParameters.append(QVariant(id, null)); const QDBusArgument &in = *reinterpret_cast(arg.constData()); QVariant &out = auxParameters[auxParameters.count() - 1]; if (!QDBusMetaType::demarshall(in, out.userType(), out.data())) qFatal("Internal error: demarshalling function for type '%s' (%d) failed!", out.typeName(), out.userType()); params.append(const_cast(out.constData())); } else { qFatal("Internal error: got invalid meta type %d (%s) " "when trying to convert to meta type %d (%s)", arg.userType(), QMetaType::typeName(arg.userType()), id, QMetaType::typeName(id)); } } if (metaTypes.count() > i && metaTypes[i] == QDBusMetaTypeId::message) { params.append(const_cast(static_cast(&msg))); ++i; } // output arguments QVariantList outputArgs; void *null = 0; if (metaTypes[0] != QMetaType::Void) { QVariant arg(metaTypes[0], null); outputArgs.append( arg ); params[0] = const_cast(outputArgs.at( outputArgs.count() - 1 ).constData()); } for ( ; i < metaTypes.count(); ++i) { QVariant arg(metaTypes[i], null); outputArgs.append( arg ); params.append(const_cast(outputArgs.at( outputArgs.count() - 1 ).constData())); } // make call: bool fail; if (!object) { fail = true; } else { // FIXME: save the old sender! QDBusContextPrivate context(QDBusConnection(this), msg); QDBusContextPrivate *old = QDBusContextPrivate::set(object, &context); QDBusConnectionPrivate::setSender(this); QPointer ptr = object; fail = object->qt_metacall(QMetaObject::InvokeMetaMethod, slotIdx, params.data()) >= 0; QDBusConnectionPrivate::setSender(0); // the object might be deleted in the slot if (!ptr.isNull()) QDBusContextPrivate::set(object, old); } // do we create a reply? Only if the caller is waiting for a reply and one hasn't been sent // yet. if (msg.isReplyRequired() && !msg.isDelayedReply()) { if (!fail) { // normal reply qDBusDebug() << this << "Automatically sending reply:" << outputArgs; send(msg.createReply(outputArgs)); } else { // generate internal error qWarning("Internal error: Failed to deliver message"); send(msg.createErrorReply(QDBusError::InternalError, QLatin1String("Failed to deliver message"))); } } return; } extern bool qDBusInitThreads(); QDBusConnectionPrivate::QDBusConnectionPrivate(QObject *p) : QObject(p), ref(1), capabilities(0), mode(InvalidMode), connection(0), server(0), busService(0), watchAndTimeoutLock(QMutex::Recursive), rootNode(QString(QLatin1Char('/'))) { static const bool threads = q_dbus_threads_init_default(); static const int debugging = qgetenv("QDBUS_DEBUG").toInt(); ::isDebugging = debugging; Q_UNUSED(threads) Q_UNUSED(debugging) #ifdef QDBUS_THREAD_DEBUG if (debugging > 1) qdbusThreadDebug = qdbusDefaultThreadDebug; #endif QDBusMetaTypeId::init(); rootNode.flags = 0; // prepopulate watchedServices: // we know that the owner of org.freedesktop.DBus is itself watchedServices.insert(dbusServiceString(), WatchedServiceData(dbusServiceString(), 1)); // prepopulate matchRefCounts: // we know that org.freedesktop.DBus will never change owners matchRefCounts.insert("type='signal',sender='org.freedesktop.DBus',interface='org.freedesktop.DBus',member='NameOwnerChanged',arg0='org.freedesktop.DBus'", 1); } QDBusConnectionPrivate::~QDBusConnectionPrivate() { if (thread() && thread() != QThread::currentThread()) qWarning("QDBusConnection(name=\"%s\")'s last reference in not in its creation thread! " "Timer and socket errors will follow and the program will probably crash", qPrintable(name)); closeConnection(); rootNode.children.clear(); // free resources qDeleteAll(cachedMetaObjects); if (server) q_dbus_server_unref(server); if (connection) q_dbus_connection_unref(connection); connection = 0; server = 0; } void QDBusConnectionPrivate::deleteYourself() { if (thread() && thread() != QThread::currentThread()) { // last reference dropped while not in the correct thread // ask the correct thread to delete // note: since we're posting an event to another thread, we // must consider deleteLater() to take effect immediately deleteLater(); } else { delete this; } } void QDBusConnectionPrivate::closeConnection() { QDBusWriteLocker locker(CloseConnectionAction, this); ConnectionMode oldMode = mode; mode = InvalidMode; // prevent reentrancy baseService.clear(); if (server) q_dbus_server_disconnect(server); if (oldMode == ClientMode || oldMode == PeerMode) { if (connection) { q_dbus_connection_close(connection); // send the "close" message while (q_dbus_connection_dispatch(connection) == DBUS_DISPATCH_DATA_REMAINS) ; } } } void QDBusConnectionPrivate::checkThread() { if (!thread()) { if (QCoreApplication::instance()) moveToThread(QCoreApplication::instance()->thread()); else qWarning("The thread that had QDBusConnection('%s') has died and there is no main thread", qPrintable(name)); } } bool QDBusConnectionPrivate::handleError(const QDBusErrorInternal &error) { if (!error) return false; // no error //lock.lockForWrite(); lastError = error; //lock.unlock(); return true; } void QDBusConnectionPrivate::timerEvent(QTimerEvent *e) { { QDBusWatchAndTimeoutLocker locker(TimerEventAction, this); DBusTimeout *timeout = timeouts.value(e->timerId(), 0); if (timeout) q_dbus_timeout_handle(timeout); } doDispatch(); } void QDBusConnectionPrivate::customEvent(QEvent *e) { Q_ASSERT(e->type() == QEvent::User); QDBusConnectionCallbackEvent *ev = static_cast(e); QDBusLockerBase::reportThreadAction(int(AddTimeoutAction) + int(ev->subtype), QDBusLockerBase::BeforeDeliver, this); switch (ev->subtype) { case QDBusConnectionCallbackEvent::AddTimeout: { QDBusWatchAndTimeoutLocker locker(RealAddTimeoutAction, this); while (!timeoutsPendingAdd.isEmpty()) { QPair entry = timeoutsPendingAdd.takeFirst(); qDBusRealAddTimeout(this, entry.first, entry.second); } break; } case QDBusConnectionCallbackEvent::KillTimer: killTimer(ev->timerId); break; case QDBusConnectionCallbackEvent::AddWatch: qDBusRealAddWatch(this, ev->watch, ev->extra, ev->fd); break; case QDBusConnectionCallbackEvent::ToggleWatch: qDBusRealToggleWatch(this, ev->watch, ev->fd); break; } QDBusLockerBase::reportThreadAction(int(AddTimeoutAction) + int(ev->subtype), QDBusLockerBase::AfterDeliver, this); } void QDBusConnectionPrivate::doDispatch() { QDBusDispatchLocker locker(DoDispatchAction, this); if (mode == ClientMode || mode == PeerMode) while (q_dbus_connection_dispatch(connection) == DBUS_DISPATCH_DATA_REMAINS) ; } void QDBusConnectionPrivate::socketRead(int fd) { QVarLengthArray pendingWatches; { QDBusWatchAndTimeoutLocker locker(SocketReadAction, this); WatcherHash::ConstIterator it = watchers.constFind(fd); while (it != watchers.constEnd() && it.key() == fd) { if (it->watch && it->read && it->read->isEnabled()) pendingWatches.append(it.value().watch); ++it; } } for (int i = 0; i < pendingWatches.size(); ++i) if (!q_dbus_watch_handle(pendingWatches[i], DBUS_WATCH_READABLE)) qDebug("OUT OF MEM"); doDispatch(); } void QDBusConnectionPrivate::socketWrite(int fd) { QVarLengthArray pendingWatches; { QDBusWatchAndTimeoutLocker locker(SocketWriteAction, this); WatcherHash::ConstIterator it = watchers.constFind(fd); while (it != watchers.constEnd() && it.key() == fd) { if (it->watch && it->write && it->write->isEnabled()) pendingWatches.append(it.value().watch); ++it; } } for (int i = 0; i < pendingWatches.size(); ++i) if (!q_dbus_watch_handle(pendingWatches[i], DBUS_WATCH_WRITABLE)) qDebug("OUT OF MEM"); } void QDBusConnectionPrivate::objectDestroyed(QObject *obj) { QDBusWriteLocker locker(ObjectDestroyedAction, this); huntAndDestroy(obj, rootNode); SignalHookHash::iterator sit = signalHooks.begin(); while (sit != signalHooks.end()) { if (static_cast(sit.value().obj) == obj) sit = disconnectSignal(sit); else ++sit; } obj->disconnect(this); } void QDBusConnectionPrivate::relaySignal(QObject *obj, const QMetaObject *mo, int signalId, const QVariantList &args) { QString interface = qDBusInterfaceFromMetaObject(mo); QMetaMethod mm = mo->method(signalId); QByteArray memberName = mm.signature(); memberName.truncate(memberName.indexOf('(')); // check if it's scriptable bool isScriptable = mm.attributes() & QMetaMethod::Scriptable; bool isAdaptor = false; for ( ; mo; mo = mo->superClass()) if (mo == &QDBusAbstractAdaptor::staticMetaObject) { isAdaptor = true; break; } QDBusReadLocker locker(RelaySignalAction, this); QDBusMessage message = QDBusMessage::createSignal(QLatin1String("/"), interface, QLatin1String(memberName)); QDBusMessagePrivate::setParametersValidated(message, true); message.setArguments(args); QDBusError error; DBusMessage *msg = QDBusMessagePrivate::toDBusMessage(message, capabilities, &error); if (!msg) { qWarning("QDBusConnection: Could not emit signal %s.%s: %s", qPrintable(interface), memberName.constData(), qPrintable(error.message())); lastError = error; return; } //qDBusDebug() << "Emitting signal" << message; //qDBusDebug() << "for paths:"; q_dbus_message_set_no_reply(msg, true); // the reply would not be delivered to anything huntAndEmit(connection, msg, obj, rootNode, isScriptable, isAdaptor); q_dbus_message_unref(msg); } void QDBusConnectionPrivate::serviceOwnerChangedNoLock(const QString &name, const QString &oldOwner, const QString &newOwner) { Q_UNUSED(oldOwner); // QDBusWriteLocker locker(UpdateSignalHookOwnerAction, this); WatchedServicesHash::Iterator it = watchedServices.find(name); if (it == watchedServices.end()) return; if (oldOwner != it->owner) qWarning("QDBusConnection: name '%s' had owner '%s' but we thought it was '%s'", qPrintable(name), qPrintable(oldOwner), qPrintable(it->owner)); qDBusDebug() << this << "Updating name" << name << "from" << oldOwner << "to" << newOwner; it->owner = newOwner; } int QDBusConnectionPrivate::findSlot(QObject* obj, const QByteArray &normalizedName, QList ¶ms) { int midx = obj->metaObject()->indexOfMethod(normalizedName); if (midx == -1) return -1; int inputCount = qDBusParametersForMethod(obj->metaObject()->method(midx), params); if ( inputCount == -1 || inputCount + 1 != params.count() ) return -1; // failed to parse or invalid arguments or output arguments return midx; } bool QDBusConnectionPrivate::prepareHook(QDBusConnectionPrivate::SignalHook &hook, QString &key, const QString &service, const QString &path, const QString &interface, const QString &name, const QStringList &argMatch, QObject *receiver, const char *signal, int minMIdx, bool buildSignature) { QByteArray normalizedName = signal + 1; hook.midx = findSlot(receiver, signal + 1, hook.params); if (hook.midx == -1) { normalizedName = QMetaObject::normalizedSignature(signal + 1); hook.midx = findSlot(receiver, normalizedName, hook.params); } if (hook.midx < minMIdx) { if (hook.midx == -1) {} return false; } hook.service = service; hook.path = path; hook.obj = receiver; hook.argumentMatch = argMatch; // build the D-Bus signal name and signature // This should not happen for QDBusConnection::connect, use buildSignature here, since // QDBusConnection::connect passes false and everything else uses true QString mname = name; if (buildSignature && mname.isNull()) { normalizedName.truncate(normalizedName.indexOf('(')); mname = QString::fromUtf8(normalizedName); } key = mname; key.reserve(interface.length() + 1 + mname.length()); key += QLatin1Char(':'); key += interface; if (buildSignature) { hook.signature.clear(); for (int i = 1; i < hook.params.count(); ++i) if (hook.params.at(i) != QDBusMetaTypeId::message) hook.signature += QLatin1String( QDBusMetaType::typeToSignature( hook.params.at(i) ) ); } hook.matchRule = buildMatchRule(service, path, interface, mname, argMatch, hook.signature); return true; // connect to this signal } void QDBusConnectionPrivate::sendError(const QDBusMessage &msg, QDBusError::ErrorType code) { if (code == QDBusError::UnknownMethod) { QString interfaceMsg; if (msg.interface().isEmpty()) interfaceMsg = QLatin1String("any interface"); else interfaceMsg = QString::fromLatin1("interface '%1'").arg(msg.interface()); send(msg.createErrorReply(code, QString::fromLatin1("No such method '%1' in %2 at object path '%3' " "(signature '%4')") .arg(msg.member(), interfaceMsg, msg.path(), msg.signature()))); } else if (code == QDBusError::UnknownInterface) { send(msg.createErrorReply(QDBusError::UnknownInterface, QString::fromLatin1("No such interface '%1' at object path '%2'") .arg(msg.interface(), msg.path()))); } else if (code == QDBusError::UnknownObject) { send(msg.createErrorReply(QDBusError::UnknownObject, QString::fromLatin1("No such object path '%1'").arg(msg.path()))); } } bool QDBusConnectionPrivate::activateInternalFilters(const ObjectTreeNode &node, const QDBusMessage &msg) { // object may be null const QString interface = msg.interface(); if (interface.isEmpty() || interface == QLatin1String(DBUS_INTERFACE_INTROSPECTABLE)) { if (msg.member() == QLatin1String("Introspect") && msg.signature().isEmpty()) { //qDebug() << "QDBusConnectionPrivate::activateInternalFilters introspect" << msg.d_ptr->msg; QDBusMessage reply = msg.createReply(qDBusIntrospectObject(node, msg.path())); send(reply); return true; } if (!interface.isEmpty()) { sendError(msg, QDBusError::UnknownMethod); return true; } } if (node.obj && (interface.isEmpty() || interface == QLatin1String(DBUS_INTERFACE_PROPERTIES))) { //qDebug() << "QDBusConnectionPrivate::activateInternalFilters properties" << msg.d_ptr->msg; if (msg.member() == QLatin1String("Get") && msg.signature() == QLatin1String("ss")) { QDBusMessage reply = qDBusPropertyGet(node, msg); send(reply); return true; } else if (msg.member() == QLatin1String("Set") && msg.signature() == QLatin1String("ssv")) { QDBusMessage reply = qDBusPropertySet(node, msg); send(reply); return true; } else if (msg.member() == QLatin1String("GetAll") && msg.signature() == QLatin1String("s")) { QDBusMessage reply = qDBusPropertyGetAll(node, msg); send(reply); return true; } if (!interface.isEmpty()) { sendError(msg, QDBusError::UnknownMethod); return true; } } return false; } void QDBusConnectionPrivate::activateObject(ObjectTreeNode &node, const QDBusMessage &msg, int pathStartPos) { // This is called by QDBusConnectionPrivate::handleObjectCall to place a call to a slot // on the object. // // The call is routed through the adaptor sub-objects if we have any // object may be null if (node.flags & QDBusConnectionPrivate::VirtualObject) { if (node.treeNode->handleMessage(msg, q(this))) { return; } else { if (activateInternalFilters(node, msg)) return; } } if (pathStartPos != msg.path().length()) { node.flags &= ~QDBusConnection::ExportAllSignals; node.obj = findChildObject(&node, msg.path(), pathStartPos); if (!node.obj) { sendError(msg, QDBusError::UnknownObject); return; } } QDBusAdaptorConnector *connector; if (node.flags & QDBusConnection::ExportAdaptors && (connector = qDBusFindAdaptorConnector(node.obj))) { int newflags = node.flags | QDBusConnection::ExportAllSlots; if (msg.interface().isEmpty()) { // place the call in all interfaces // let the first one that handles it to work QDBusAdaptorConnector::AdaptorMap::ConstIterator it = connector->adaptors.constBegin(); QDBusAdaptorConnector::AdaptorMap::ConstIterator end = connector->adaptors.constEnd(); for ( ; it != end; ++it) if (activateCall(it->adaptor, newflags, msg)) return; } else { // check if we have an interface matching the name that was asked: QDBusAdaptorConnector::AdaptorMap::ConstIterator it; it = qLowerBound(connector->adaptors.constBegin(), connector->adaptors.constEnd(), msg.interface()); if (it != connector->adaptors.constEnd() && msg.interface() == QLatin1String(it->interface)) { if (!activateCall(it->adaptor, newflags, msg)) sendError(msg, QDBusError::UnknownMethod); return; } } } // no adaptors matched or were exported // try our standard filters if (activateInternalFilters(node, msg)) return; // internal filters have already run or an error has been sent // try the object itself: if (node.flags & (QDBusConnection::ExportScriptableSlots|QDBusConnection::ExportNonScriptableSlots) || node.flags & (QDBusConnection::ExportScriptableInvokables|QDBusConnection::ExportNonScriptableInvokables)) { bool interfaceFound = true; if (!msg.interface().isEmpty()) interfaceFound = qDBusInterfaceInObject(node.obj, msg.interface()); if (interfaceFound) { if (!activateCall(node.obj, node.flags, msg)) sendError(msg, QDBusError::UnknownMethod); return; } } // nothing matched, send an error code if (msg.interface().isEmpty()) sendError(msg, QDBusError::UnknownMethod); else sendError(msg, QDBusError::UnknownInterface); } void QDBusConnectionPrivate::handleObjectCall(const QDBusMessage &msg) { // if the msg is external, we were called from inside doDispatch // that means the dispatchLock mutex is locked // must not call out to user code in that case // // however, if the message is internal, handleMessage was called // directly and no lock is in place. We can therefore call out to // user code, if necessary ObjectTreeNode result; int usedLength; QThread *objThread = 0; QSemaphore sem; bool semWait; { QDBusReadLocker locker(HandleObjectCallAction, this); if (!findObject(&rootNode, msg.path(), usedLength, result)) { // qDebug("Call failed: no object found at %s", qPrintable(msg.path())); sendError(msg, QDBusError::UnknownObject); return; } if (!result.obj) { // no object -> no threading issues // it's either going to be an error, or an internal filter activateObject(result, msg, usedLength); return; } objThread = result.obj->thread(); if (!objThread) { send(msg.createErrorReply(QDBusError::InternalError, QString::fromLatin1("Object '%1' (at path '%2')" " has no thread. Cannot deliver message.") .arg(result.obj->objectName(), msg.path()))); return; } if (!QDBusMessagePrivate::isLocal(msg)) { // external incoming message // post it and forget postEventToThread(HandleObjectCallPostEventAction, result.obj, new QDBusActivateObjectEvent(QDBusConnection(this), this, result, usedLength, msg)); return; } else if (objThread != QThread::currentThread()) { // synchronize with other thread postEventToThread(HandleObjectCallPostEventAction, result.obj, new QDBusActivateObjectEvent(QDBusConnection(this), this, result, usedLength, msg, &sem)); semWait = true; } else { semWait = false; } } // release the lock if (semWait) SEM_ACQUIRE(HandleObjectCallSemaphoreAction, sem); else activateObject(result, msg, usedLength); } QDBusActivateObjectEvent::~QDBusActivateObjectEvent() { if (!handled) { // we're being destroyed without delivering // it means the object was deleted between posting and delivering QDBusConnectionPrivate *that = QDBusConnectionPrivate::d(connection); that->sendError(message, QDBusError::UnknownObject); } // semaphore releasing happens in ~QMetaCallEvent } void QDBusActivateObjectEvent::placeMetaCall(QObject *) { QDBusConnectionPrivate *that = QDBusConnectionPrivate::d(connection); QDBusLockerBase::reportThreadAction(HandleObjectCallPostEventAction, QDBusLockerBase::BeforeDeliver, that); that->activateObject(node, message, pathStartPos); QDBusLockerBase::reportThreadAction(HandleObjectCallPostEventAction, QDBusLockerBase::AfterDeliver, that); handled = true; } void QDBusConnectionPrivate::handleSignal(const QString &key, const QDBusMessage& msg) { SignalHookHash::const_iterator it = signalHooks.find(key); SignalHookHash::const_iterator end = signalHooks.constEnd(); //qDebug("looking for: %s", path.toLocal8Bit().constData()); //qDBusDebug() << signalHooks.keys(); for ( ; it != end && it.key() == key; ++it) { const SignalHook &hook = it.value(); if (!hook.service.isEmpty()) { const QString owner = shouldWatchService(hook.service) ? watchedServices.value(hook.service).owner : hook.service; if (owner != msg.service()) continue; } if (!hook.path.isEmpty() && hook.path != msg.path()) continue; if (!hook.signature.isEmpty() && hook.signature != msg.signature()) continue; if (hook.signature.isEmpty() && !hook.signature.isNull() && !msg.signature().isEmpty()) continue; if (!hook.argumentMatch.isEmpty()) { const QVariantList arguments = msg.arguments(); if (hook.argumentMatch.size() > arguments.size()) continue; bool matched = true; for (int i = 0; i < hook.argumentMatch.size(); ++i) { const QString ¶m = hook.argumentMatch.at(i); if (param.isNull()) continue; // don't try to match against this if (param == arguments.at(i).toString()) continue; // matched matched = false; break; } if (!matched) continue; } activateSignal(hook, msg); } } void QDBusConnectionPrivate::handleSignal(const QDBusMessage& msg) { // We call handlesignal(QString, QDBusMessage) three times: // one with member:interface // one with member: // one with :interface // This allows us to match signals with wildcards on member or interface // (but not both) QString key = msg.member(); key.reserve(key.length() + 1 + msg.interface().length()); key += QLatin1Char(':'); key += msg.interface(); QDBusReadLocker locker(HandleSignalAction, this); handleSignal(key, msg); // one try key.truncate(msg.member().length() + 1); // keep the ':' handleSignal(key, msg); // second try key = QLatin1Char(':'); key += msg.interface(); handleSignal(key, msg); // third try } static dbus_int32_t server_slot = -1; void QDBusConnectionPrivate::setServer(DBusServer *s, const QDBusErrorInternal &error) { if (!s) { handleError(error); return; } server = s; mode = ServerMode; dbus_bool_t data_allocated = q_dbus_server_allocate_data_slot(&server_slot); if (data_allocated && server_slot < 0) return; dbus_bool_t watch_functions_set = q_dbus_server_set_watch_functions(server, qDBusAddWatch, qDBusRemoveWatch, qDBusToggleWatch, this, 0); //qDebug() << "watch_functions_set" << watch_functions_set; Q_UNUSED(watch_functions_set); dbus_bool_t time_functions_set = q_dbus_server_set_timeout_functions(server, qDBusAddTimeout, qDBusRemoveTimeout, qDBusToggleTimeout, this, 0); //qDebug() << "time_functions_set" << time_functions_set; Q_UNUSED(time_functions_set); q_dbus_server_set_new_connection_function(server, qDBusNewConnection, this, 0); dbus_bool_t data_set = q_dbus_server_set_data(server, server_slot, this, 0); //qDebug() << "data_set" << data_set; Q_UNUSED(data_set); } void QDBusConnectionPrivate::setPeer(DBusConnection *c, const QDBusErrorInternal &error) { if (!c) { handleError(error); return; } connection = c; mode = PeerMode; q_dbus_connection_set_exit_on_disconnect(connection, false); q_dbus_connection_set_watch_functions(connection, qDBusAddWatch, qDBusRemoveWatch, qDBusToggleWatch, this, 0); q_dbus_connection_set_timeout_functions(connection, qDBusAddTimeout, qDBusRemoveTimeout, qDBusToggleTimeout, this, 0); q_dbus_connection_set_dispatch_status_function(connection, qDBusUpdateDispatchStatus, this, 0); q_dbus_connection_add_filter(connection, qDBusSignalFilter, this, 0); QMetaObject::invokeMethod(this, "doDispatch", Qt::QueuedConnection); } static QDBusConnection::ConnectionCapabilities connectionCapabilies(DBusConnection *connection) { QDBusConnection::ConnectionCapabilities result = 0; typedef dbus_bool_t (*can_send_type_t)(DBusConnection *, int); static can_send_type_t can_send_type = 0; #if defined(QT_LINKED_LIBDBUS) # if DBUS_VERSION-0 >= 0x010400 can_send_type = dbus_connection_can_send_type; # endif #else // run-time check if the next functions are available can_send_type = (can_send_type_t)qdbus_resolve_conditionally("dbus_connection_can_send_type"); #endif #ifndef DBUS_TYPE_UNIX_FD # define DBUS_TYPE_UNIX_FD int('h') #endif if (can_send_type && can_send_type(connection, DBUS_TYPE_UNIX_FD)) result |= QDBusConnection::UnixFileDescriptorPassing; return result; } void QDBusConnectionPrivate::setConnection(DBusConnection *dbc, const QDBusErrorInternal &error) { if (!dbc) { handleError(error); return; } connection = dbc; mode = ClientMode; const char *service = q_dbus_bus_get_unique_name(connection); Q_ASSERT(service); baseService = QString::fromUtf8(service); capabilities = connectionCapabilies(connection); q_dbus_connection_set_exit_on_disconnect(connection, false); q_dbus_connection_set_watch_functions(connection, qDBusAddWatch, qDBusRemoveWatch, qDBusToggleWatch, this, 0); q_dbus_connection_set_timeout_functions(connection, qDBusAddTimeout, qDBusRemoveTimeout, qDBusToggleTimeout, this, 0); q_dbus_connection_set_dispatch_status_function(connection, qDBusUpdateDispatchStatus, this, 0); q_dbus_connection_add_filter(connection, qDBusSignalFilter, this, 0); // Initialize the hooks for the NameAcquired and NameLost signals // we don't use connectSignal here because we don't need the rules to be sent to the bus // the bus will always send us these two signals SignalHook hook; hook.service = dbusServiceString(); hook.path.clear(); // no matching hook.obj = this; hook.params << QMetaType::Void << QVariant::String; // both functions take a QString as parameter and return void hook.midx = staticMetaObject.indexOfSlot("registerServiceNoLock(QString)"); Q_ASSERT(hook.midx != -1); signalHooks.insert(QLatin1String("NameAcquired:" DBUS_INTERFACE_DBUS), hook); hook.midx = staticMetaObject.indexOfSlot("unregisterServiceNoLock(QString)"); Q_ASSERT(hook.midx != -1); signalHooks.insert(QLatin1String("NameLost:" DBUS_INTERFACE_DBUS), hook); qDBusDebug() << this << ": connected successfully"; // schedule a dispatch: QMetaObject::invokeMethod(this, "doDispatch", Qt::QueuedConnection); } extern "C"{ static void qDBusResultReceived(DBusPendingCall *pending, void *user_data) { QDBusPendingCallPrivate *call = reinterpret_cast(user_data); Q_ASSERT(call->pending == pending); Q_UNUSED(pending); QDBusConnectionPrivate::processFinishedCall(call); } } void QDBusConnectionPrivate::waitForFinished(QDBusPendingCallPrivate *pcall) { Q_ASSERT(pcall->pending); //Q_ASSERT(pcall->mutex.isLocked()); // there's no such function if (pcall->waitingForFinished) { // another thread is already waiting pcall->waitForFinishedCondition.wait(&pcall->mutex); } else { pcall->waitingForFinished = true; pcall->mutex.unlock(); { QDBusDispatchLocker locker(PendingCallBlockAction, this); q_dbus_pending_call_block(pcall->pending); // QDBusConnectionPrivate::processFinishedCall() is called automatically } pcall->mutex.lock(); if (pcall->pending) { q_dbus_pending_call_unref(pcall->pending); pcall->pending = 0; } pcall->waitForFinishedCondition.wakeAll(); } } void QDBusConnectionPrivate::processFinishedCall(QDBusPendingCallPrivate *call) { QDBusConnectionPrivate *connection = const_cast(call->connection); QMutexLocker locker(&call->mutex); QDBusMessage &msg = call->replyMessage; if (call->pending) { // decode the message DBusMessage *reply = q_dbus_pending_call_steal_reply(call->pending); msg = QDBusMessagePrivate::fromDBusMessage(reply, connection->capabilities); q_dbus_message_unref(reply); } qDBusDebug() << connection << "got message reply (async):" << msg; // Check if the reply has the expected signature call->checkReceivedSignature(); if (!call->receiver.isNull() && call->methodIdx != -1 && msg.type() == QDBusMessage::ReplyMessage) { // Deliver the return values of a remote function call. // // There is only one connection and it is specified by idx // The slot must have the same parameter types that the message does // The slot may have less parameters than the message // The slot may optionally have one final parameter that is QDBusMessage // The slot receives read-only copies of the message (i.e., pass by value or by const-ref) QDBusCallDeliveryEvent *e = prepareReply(connection, call->receiver, call->methodIdx, call->metaTypes, msg); if (e) connection->postEventToThread(MessageResultReceivedAction, call->receiver, e); else qDBusDebug() << "Deliver failed!"; } if (call->pending && !call->waitingForFinished) { q_dbus_pending_call_unref(call->pending); call->pending = 0; } locker.unlock(); // Are there any watchers? if (call->watcherHelper) call->watcherHelper->emitSignals(msg, call->sentMessage); if (msg.type() == QDBusMessage::ErrorMessage) emit connection->callWithCallbackFailed(QDBusError(msg), call->sentMessage); if (!call->ref.deref()) delete call; } int QDBusConnectionPrivate::send(const QDBusMessage& message) { if (QDBusMessagePrivate::isLocal(message)) return -1; // don't send; the reply will be retrieved by the caller // through the d_ptr->localReply link QDBusError error; DBusMessage *msg = QDBusMessagePrivate::toDBusMessage(message, capabilities, &error); if (!msg) { if (message.type() == QDBusMessage::MethodCallMessage) qWarning("QDBusConnection: error: could not send message to service \"%s\" path \"%s\" interface \"%s\" member \"%s\": %s", qPrintable(message.service()), qPrintable(message.path()), qPrintable(message.interface()), qPrintable(message.member()), qPrintable(error.message())); else if (message.type() == QDBusMessage::SignalMessage) qWarning("QDBusConnection: error: could not send signal path \"%s\" interface \"%s\" member \"%s\": %s", qPrintable(message.path()), qPrintable(message.interface()), qPrintable(message.member()), qPrintable(error.message())); else qWarning("QDBusConnection: error: could not send %s message to service \"%s\": %s", message.type() == QDBusMessage::ReplyMessage ? "reply" : message.type() == QDBusMessage::ErrorMessage ? "error" : "invalid", qPrintable(message.service()), qPrintable(error.message())); lastError = error; return 0; } q_dbus_message_set_no_reply(msg, true); // the reply would not be delivered to anything qDBusDebug() << this << "sending message (no reply):" << message; checkThread(); bool isOk = q_dbus_connection_send(connection, msg, 0); int serial = 0; if (isOk) serial = q_dbus_message_get_serial(msg); q_dbus_message_unref(msg); return serial; } QDBusMessage QDBusConnectionPrivate::sendWithReply(const QDBusMessage &message, int sendMode, int timeout) { checkThread(); if ((sendMode == QDBus::BlockWithGui || sendMode == QDBus::Block) && isServiceRegisteredByThread(message.service())) // special case for synchronous local calls return sendWithReplyLocal(message); if (!QCoreApplication::instance() || sendMode == QDBus::Block) { QDBusError err; DBusMessage *msg = QDBusMessagePrivate::toDBusMessage(message, capabilities, &err); if (!msg) { qWarning("QDBusConnection: error: could not send message to service \"%s\" path \"%s\" interface \"%s\" member \"%s\": %s", qPrintable(message.service()), qPrintable(message.path()), qPrintable(message.interface()), qPrintable(message.member()), qPrintable(err.message())); lastError = err; return QDBusMessage::createError(err); } qDBusDebug() << this << "sending message (blocking):" << message; QDBusErrorInternal error; DBusMessage *reply = q_dbus_connection_send_with_reply_and_block(connection, msg, timeout, error); q_dbus_message_unref(msg); if (!!error) { lastError = err = error; return QDBusMessage::createError(err); } QDBusMessage amsg = QDBusMessagePrivate::fromDBusMessage(reply, capabilities); q_dbus_message_unref(reply); qDBusDebug() << this << "got message reply (blocking):" << amsg; return amsg; } else { // use the event loop QDBusPendingCallPrivate *pcall = sendWithReplyAsync(message, 0, 0, 0, timeout); Q_ASSERT(pcall); if (pcall->replyMessage.type() == QDBusMessage::InvalidMessage) { pcall->watcherHelper = new QDBusPendingCallWatcherHelper; QEventLoop loop; loop.connect(pcall->watcherHelper, SIGNAL(reply(QDBusMessage)), SLOT(quit())); loop.connect(pcall->watcherHelper, SIGNAL(error(QDBusError,QDBusMessage)), SLOT(quit())); // enter the event loop and wait for a reply loop.exec(QEventLoop::ExcludeUserInputEvents | QEventLoop::WaitForMoreEvents); } QDBusMessage reply = pcall->replyMessage; lastError = reply; // set or clear error bool r = pcall->ref.deref(); Q_ASSERT(!r); Q_UNUSED(r); delete pcall; return reply; } } QDBusMessage QDBusConnectionPrivate::sendWithReplyLocal(const QDBusMessage &message) { qDBusDebug() << this << "sending message via local-loop:" << message; QDBusMessage localCallMsg = QDBusMessagePrivate::makeLocal(*this, message); bool handled = handleMessage(localCallMsg); if (!handled) { QString interface = message.interface(); if (interface.isEmpty()) interface = QLatin1String(""); return QDBusMessage::createError(QDBusError::InternalError, QString::fromLatin1("Internal error trying to call %1.%2 at %3 (signature '%4'") .arg(interface, message.member(), message.path(), message.signature())); } // if the message was handled, there might be a reply QDBusMessage localReplyMsg = QDBusMessagePrivate::makeLocalReply(*this, localCallMsg); if (localReplyMsg.type() == QDBusMessage::InvalidMessage) { qWarning("QDBusConnection: cannot call local method '%s' at object %s (with signature '%s') " "on blocking mode", qPrintable(message.member()), qPrintable(message.path()), qPrintable(message.signature())); return QDBusMessage::createError( QDBusError(QDBusError::InternalError, QLatin1String("local-loop message cannot have delayed replies"))); } // there is a reply qDBusDebug() << this << "got message via local-loop:" << localReplyMsg; return localReplyMsg; } QDBusPendingCallPrivate *QDBusConnectionPrivate::sendWithReplyAsync(const QDBusMessage &message, QObject *receiver, const char *returnMethod, const char *errorMethod, int timeout) { if (isServiceRegisteredByThread(message.service())) { // special case for local calls QDBusPendingCallPrivate *pcall = new QDBusPendingCallPrivate(message, this); pcall->replyMessage = sendWithReplyLocal(message); if (receiver && returnMethod) pcall->setReplyCallback(receiver, returnMethod); if (errorMethod) { pcall->watcherHelper = new QDBusPendingCallWatcherHelper; connect(pcall->watcherHelper, SIGNAL(error(QDBusError,QDBusMessage)), receiver, errorMethod, Qt::QueuedConnection); pcall->watcherHelper->moveToThread(thread()); } if ((receiver && returnMethod) || errorMethod) { // no one waiting, will delete pcall in processFinishedCall() pcall->ref = 1; } else { // set double ref to prevent race between processFinishedCall() and ref counting // by QDBusPendingCall::QExplicitlySharedDataPointer pcall->ref = 2; } processFinishedCall(pcall); return pcall; } checkThread(); QDBusPendingCallPrivate *pcall = new QDBusPendingCallPrivate(message, this); if (receiver && returnMethod) pcall->setReplyCallback(receiver, returnMethod); if (errorMethod) { pcall->watcherHelper = new QDBusPendingCallWatcherHelper; connect(pcall->watcherHelper, SIGNAL(error(QDBusError,QDBusMessage)), receiver, errorMethod, Qt::QueuedConnection); pcall->watcherHelper->moveToThread(thread()); } if ((receiver && returnMethod) || errorMethod) { // no one waiting, will delete pcall in processFinishedCall() pcall->ref = 1; } else { // set double ref to prevent race between processFinishedCall() and ref counting // by QDBusPendingCall::QExplicitlySharedDataPointer pcall->ref = 2; } QDBusError error; DBusMessage *msg = QDBusMessagePrivate::toDBusMessage(message, capabilities, &error); if (!msg) { qWarning("QDBusConnection: error: could not send message to service \"%s\" path \"%s\" interface \"%s\" member \"%s\": %s", qPrintable(message.service()), qPrintable(message.path()), qPrintable(message.interface()), qPrintable(message.member()), qPrintable(error.message())); pcall->replyMessage = QDBusMessage::createError(error); lastError = error; processFinishedCall(pcall); return pcall; } qDBusDebug() << this << "sending message (async):" << message; DBusPendingCall *pending = 0; QDBusDispatchLocker locker(SendWithReplyAsyncAction, this); if (q_dbus_connection_send_with_reply(connection, msg, &pending, timeout)) { if (pending) { q_dbus_message_unref(msg); pcall->pending = pending; q_dbus_pending_call_set_notify(pending, qDBusResultReceived, pcall, 0); return pcall; } else { // we're probably disconnected at this point lastError = error = QDBusError(QDBusError::Disconnected, QLatin1String("Not connected to server")); } } else { lastError = error = QDBusError(QDBusError::NoMemory, QLatin1String("Out of memory")); } q_dbus_message_unref(msg); pcall->replyMessage = QDBusMessage::createError(error); processFinishedCall(pcall); return pcall; } bool QDBusConnectionPrivate::connectSignal(const QString &service, const QString &path, const QString &interface, const QString &name, const QStringList &argumentMatch, const QString &signature, QObject *receiver, const char *slot) { // check the slot QDBusConnectionPrivate::SignalHook hook; QString key; QString name2 = name; if (name2.isNull()) name2.detach(); hook.signature = signature; if (!prepareHook(hook, key, service, path, interface, name, argumentMatch, receiver, slot, 0, false)) return false; // don't connect // avoid duplicating: QDBusConnectionPrivate::SignalHookHash::ConstIterator it = signalHooks.find(key); QDBusConnectionPrivate::SignalHookHash::ConstIterator end = signalHooks.constEnd(); for ( ; it != end && it.key() == key; ++it) { const QDBusConnectionPrivate::SignalHook &entry = it.value(); if (entry.service == hook.service && entry.path == hook.path && entry.signature == hook.signature && entry.obj == hook.obj && entry.midx == hook.midx && entry.argumentMatch == hook.argumentMatch) { // no need to compare the parameters if it's the same slot return true; // already there } } connectSignal(key, hook); return true; } void QDBusConnectionPrivate::connectSignal(const QString &key, const SignalHook &hook) { signalHooks.insertMulti(key, hook); connect(hook.obj, SIGNAL(destroyed(QObject*)), SLOT(objectDestroyed(QObject*)), Qt::ConnectionType(Qt::DirectConnection | Qt::UniqueConnection)); MatchRefCountHash::iterator it = matchRefCounts.find(hook.matchRule); if (it != matchRefCounts.end()) { // Match already present it.value() = it.value() + 1; return; } matchRefCounts.insert(hook.matchRule, 1); if (connection) { if (mode != QDBusConnectionPrivate::PeerMode) { qDBusDebug("Adding rule: %s", hook.matchRule.constData()); q_dbus_bus_add_match(connection, hook.matchRule, NULL); // Successfully connected the signal // Do we need to watch for this name? if (shouldWatchService(hook.service)) { WatchedServicesHash::mapped_type &data = watchedServices[hook.service]; if (++data.refcount == 1) { // we need to watch for this service changing connectSignal(dbusServiceString(), QString(), dbusInterfaceString(), QLatin1String("NameOwnerChanged"), QStringList() << hook.service, QString(), this, SLOT(serviceOwnerChangedNoLock(QString,QString,QString))); data.owner = getNameOwnerNoCache(hook.service); qDBusDebug() << this << "Watching service" << hook.service << "for owner changes (current owner:" << data.owner << ")"; } } } } } bool QDBusConnectionPrivate::disconnectSignal(const QString &service, const QString &path, const QString &interface, const QString &name, const QStringList &argumentMatch, const QString &signature, QObject *receiver, const char *slot) { // check the slot QDBusConnectionPrivate::SignalHook hook; QString key; QString name2 = name; if (name2.isNull()) name2.detach(); hook.signature = signature; if (!prepareHook(hook, key, service, path, interface, name, argumentMatch, receiver, slot, 0, false)) return false; // don't disconnect // avoid duplicating: QDBusConnectionPrivate::SignalHookHash::Iterator it = signalHooks.find(key); QDBusConnectionPrivate::SignalHookHash::Iterator end = signalHooks.end(); for ( ; it != end && it.key() == key; ++it) { const QDBusConnectionPrivate::SignalHook &entry = it.value(); if (entry.service == hook.service && entry.path == hook.path && entry.signature == hook.signature && entry.obj == hook.obj && entry.midx == hook.midx && entry.argumentMatch == hook.argumentMatch) { // no need to compare the parameters if it's the same slot disconnectSignal(it); return true; // it was there } } // the slot was not found return false; } QDBusConnectionPrivate::SignalHookHash::Iterator QDBusConnectionPrivate::disconnectSignal(SignalHookHash::Iterator &it) { const SignalHook &hook = it.value(); bool erase = false; MatchRefCountHash::iterator i = matchRefCounts.find(hook.matchRule); if (i == matchRefCounts.end()) { qWarning("QDBusConnectionPrivate::disconnectSignal: MatchRule not found in matchRefCounts!!"); } else { if (i.value() == 1) { erase = true; matchRefCounts.erase(i); } else { i.value() = i.value() - 1; } } // we don't care about errors here if (connection && erase) { if (mode != QDBusConnectionPrivate::PeerMode) { qDBusDebug("Removing rule: %s", hook.matchRule.constData()); q_dbus_bus_remove_match(connection, hook.matchRule, NULL); // Successfully disconnected the signal // Were we watching for this name? WatchedServicesHash::Iterator sit = watchedServices.find(hook.service); if (sit != watchedServices.end()) { if (--sit.value().refcount == 0) { watchedServices.erase(sit); disconnectSignal(dbusServiceString(), QString(), dbusInterfaceString(), QLatin1String("NameOwnerChanged"), QStringList() << hook.service, QString(), this, SLOT(_q_serviceOwnerChanged(QString,QString,QString))); } } } } return signalHooks.erase(it); } static void cleanupDeletedNodes(QDBusConnectionPrivate::ObjectTreeNode &parent) { QMutableVectorIterator it(parent.children); while (it.hasNext()) { QDBusConnectionPrivate::ObjectTreeNode& node = it.next(); if (node.obj == 0 && node.children.isEmpty()) it.remove(); else cleanupDeletedNodes(node); } } void QDBusConnectionPrivate::registerObject(const ObjectTreeNode *node) { connect(node->obj, SIGNAL(destroyed(QObject*)), SLOT(objectDestroyed(QObject*)), Qt::DirectConnection); if (node->flags & (QDBusConnection::ExportAdaptors | QDBusConnection::ExportScriptableSignals | QDBusConnection::ExportNonScriptableSignals)) { QDBusAdaptorConnector *connector = qDBusCreateAdaptorConnector(node->obj); if (node->flags & (QDBusConnection::ExportScriptableSignals | QDBusConnection::ExportNonScriptableSignals)) { connector->disconnectAllSignals(node->obj); connector->connectAllSignals(node->obj); } // disconnect and reconnect to avoid duplicates connector->disconnect(SIGNAL(relaySignal(QObject*,const QMetaObject*,int,QVariantList)), this, SLOT(relaySignal(QObject*,const QMetaObject*,int,QVariantList))); connect(connector, SIGNAL(relaySignal(QObject*,const QMetaObject*,int,QVariantList)), this, SLOT(relaySignal(QObject*,const QMetaObject*,int,QVariantList)), Qt::DirectConnection); } static int counter = 0; if ((++counter % 20) == 0) cleanupDeletedNodes(rootNode); } void QDBusConnectionPrivate::connectRelay(const QString &service, const QString &path, const QString &interface, QDBusAbstractInterface *receiver, const char *signal) { // this function is called by QDBusAbstractInterface when one of its signals is connected // we set up a relay from D-Bus into it SignalHook hook; QString key; if (!prepareHook(hook, key, service, path, interface, QString(), QStringList(), receiver, signal, QDBusAbstractInterface::staticMetaObject.methodCount(), true)) return; // don't connect // add it to our list: QDBusWriteLocker locker(ConnectRelayAction, this); SignalHookHash::ConstIterator it = signalHooks.find(key); SignalHookHash::ConstIterator end = signalHooks.constEnd(); for ( ; it != end && it.key() == key; ++it) { const SignalHook &entry = it.value(); if (entry.service == hook.service && entry.path == hook.path && entry.signature == hook.signature && entry.obj == hook.obj && entry.midx == hook.midx) return; // already there, no need to re-add } connectSignal(key, hook); } void QDBusConnectionPrivate::disconnectRelay(const QString &service, const QString &path, const QString &interface, QDBusAbstractInterface *receiver, const char *signal) { // this function is called by QDBusAbstractInterface when one of its signals is disconnected // we remove relay from D-Bus into it SignalHook hook; QString key; if (!prepareHook(hook, key, service, path, interface, QString(), QStringList(), receiver, signal, QDBusAbstractInterface::staticMetaObject.methodCount(), true)) return; // don't connect // remove it from our list: QDBusWriteLocker locker(DisconnectRelayAction, this); SignalHookHash::Iterator it = signalHooks.find(key); SignalHookHash::Iterator end = signalHooks.end(); for ( ; it != end && it.key() == key; ++it) { const SignalHook &entry = it.value(); if (entry.service == hook.service && entry.path == hook.path && entry.signature == hook.signature && entry.obj == hook.obj && entry.midx == hook.midx) { // found it disconnectSignal(it); return; } } qWarning("QDBusConnectionPrivate::disconnectRelay called for a signal that was not found"); } QString QDBusConnectionPrivate::getNameOwner(const QString& serviceName) { if (QDBusUtil::isValidUniqueConnectionName(serviceName)) return serviceName; if (!connection) return QString(); { // acquire a read lock for the cache QReadLocker locker(&lock); WatchedServicesHash::ConstIterator it = watchedServices.constFind(serviceName); if (it != watchedServices.constEnd()) return it->owner; } // not cached return getNameOwnerNoCache(serviceName); } QString QDBusConnectionPrivate::getNameOwnerNoCache(const QString &serviceName) { QDBusMessage msg = QDBusMessage::createMethodCall(dbusServiceString(), QLatin1String(DBUS_PATH_DBUS), dbusInterfaceString(), QLatin1String("GetNameOwner")); QDBusMessagePrivate::setParametersValidated(msg, true); msg << serviceName; QDBusMessage reply = sendWithReply(msg, QDBus::Block); if (reply.type() == QDBusMessage::ReplyMessage) return reply.arguments().at(0).toString(); return QString(); } QDBusMetaObject * QDBusConnectionPrivate::findMetaObject(const QString &service, const QString &path, const QString &interface, QDBusError &error) { // service must be a unique connection name if (!interface.isEmpty()) { QDBusReadLocker locker(FindMetaObject1Action, this); QDBusMetaObject *mo = cachedMetaObjects.value(interface, 0); if (mo) return mo; } // introspect the target object QDBusMessage msg = QDBusMessage::createMethodCall(service, path, QLatin1String(DBUS_INTERFACE_INTROSPECTABLE), QLatin1String("Introspect")); QDBusMessagePrivate::setParametersValidated(msg, true); QDBusMessage reply = sendWithReply(msg, QDBus::Block); // it doesn't exist yet, we have to create it QDBusWriteLocker locker(FindMetaObject2Action, this); QDBusMetaObject *mo = 0; if (!interface.isEmpty()) mo = cachedMetaObjects.value(interface, 0); if (mo) // maybe it got created when we switched from read to write lock return mo; QString xml; if (reply.type() == QDBusMessage::ReplyMessage) { if (reply.signature() == QLatin1String("s")) // fetch the XML description xml = reply.arguments().at(0).toString(); } else { error = reply; lastError = error; if (reply.type() != QDBusMessage::ErrorMessage || error.type() != QDBusError::UnknownMethod) return 0; // error } // release the lock and return QDBusMetaObject *result = QDBusMetaObject::createMetaObject(interface, xml, cachedMetaObjects, error); lastError = error; return result; } void QDBusConnectionPrivate::registerService(const QString &serviceName) { QDBusWriteLocker locker(RegisterServiceAction, this); registerServiceNoLock(serviceName); } void QDBusConnectionPrivate::registerServiceNoLock(const QString &serviceName) { serviceNames.append(serviceName); } void QDBusConnectionPrivate::unregisterService(const QString &serviceName) { QDBusWriteLocker locker(UnregisterServiceAction, this); unregisterServiceNoLock(serviceName); } void QDBusConnectionPrivate::unregisterServiceNoLock(const QString &serviceName) { serviceNames.removeAll(serviceName); } bool QDBusConnectionPrivate::isServiceRegisteredByThread(const QString &serviceName) const { if (!serviceName.isEmpty() && serviceName == baseService) return true; QStringList copy = serviceNames; return copy.contains(serviceName); } void QDBusConnectionPrivate::postEventToThread(int action, QObject *object, QEvent *ev) { QDBusLockerBase::reportThreadAction(action, QDBusLockerBase::BeforePost, this); QCoreApplication::postEvent(object, ev); QDBusLockerBase::reportThreadAction(action, QDBusLockerBase::AfterPost, this); } QT_END_NAMESPACE #endif // QT_NO_DBUS