X-Git-Url: https://git.quassel-irc.org/?p=quassel.git;a=blobdiff_plain;f=src%2Fcommon%2Fsignalproxy.h;h=b58aae8f1a9cdba0e1c9577447d03a3507883c56;hp=f44db23ef1e4f608c6912bfc900ec2b6dfb61fe0;hb=a22e08480288685d73d9abd18c6a1087451c388b;hpb=a634acadbcf6017474f68a3eaf7cb632660e9e49 diff --git a/src/common/signalproxy.h b/src/common/signalproxy.h index f44db23e..b58aae8f 100644 --- a/src/common/signalproxy.h +++ b/src/common/signalproxy.h @@ -1,11 +1,11 @@ /*************************************************************************** - * Copyright (C) 2005-07 by The Quassel IRC Development Team * + * Copyright (C) 2005-2018 by the Quassel Project * * devel@quassel-irc.org * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * - * (at your option) any later version. * + * (at your option) version 3. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * @@ -15,74 +15,474 @@ * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the * * Free Software Foundation, Inc., * - * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * ***************************************************************************/ -#ifndef _RPCPEER_H_ -#define _RPCPEER_H_ +#pragma once -#include +#include "common-export.h" -class QxtRPCPeer; +#include +#include +#include +#include +#include +#include -class SignalProxy : public QObject { - Q_OBJECT +#include +#include +#include +#include +#include - public: +#include "funchelpers.h" +#include "protocol.h" +#include "types.h" - enum ProxyType { Client, Server }; +struct QMetaObject; +class QIODevice; - SignalProxy(ProxyType type, QIODevice *device = 0, QObject *parent = 0); - ~SignalProxy(); +class Peer; +class SyncableObject; - ProxyType proxyType() const { return type; } - void attachSignal(QObject* sender, const char* signal, const QByteArray& rpcFunction = QByteArray()); - void attachSlot(const QByteArray& rpcFunction, QObject* recv, const char* slot); +class COMMON_EXPORT SignalProxy : public QObject +{ + Q_OBJECT - public slots: - void addPeer(QIODevice *device); + template::FunctionType> + class SlotObject; + class SlotObjectBase; - void sendSignal(const char *signal, QVariant p1 = QVariant(), QVariant p2 = QVariant(), QVariant p3 = QVariant(), QVariant p4 = QVariant(), - QVariant p5 = QVariant(), QVariant p6 = QVariant(), QVariant p7 = QVariant(), QVariant p8 = QVariant(), QVariant p9 = QVariant()); - - //void detachSender(); - void detachObject(QObject *); +public: + enum ProxyMode + { + Server, + Client + }; - signals: - void peerDisconnected(); + enum EventType + { + RemovePeerEvent = QEvent::User + }; - private slots: - void socketDisconnected(); + SignalProxy(QObject* parent); + SignalProxy(ProxyMode mode, QObject* parent); + ~SignalProxy() override; - private: - struct Connection { - QPointer peer; - QPointer device; - }; + void setProxyMode(ProxyMode mode); + inline ProxyMode proxyMode() const { return _proxyMode; } - struct SignalDesc { - QObject *sender; - QByteArray signal; - QByteArray rpcFunction; + void setHeartBeatInterval(int secs); + inline int heartBeatInterval() const { return _heartBeatInterval; } + void setMaxHeartBeatCount(int max); + inline int maxHeartBeatCount() const { return _maxHeartBeatCount; } - SignalDesc(QObject *sndr, const char *sig, const QByteArray &func) : sender(sndr), signal(sig), rpcFunction(func) {} - }; + bool addPeer(Peer* peer); - struct SlotDesc { - QByteArray rpcFunction; - QObject *recv; - QByteArray slot; + /** + * Attaches a signal for remote emission. + * + * After calling this method, whenever the sender emits the given signal, an RpcCall message is sent to connected peers. + * On the other end, a slot can be attached to handle this message by calling attachSlot(). - SlotDesc(const QByteArray& func, QObject* r, const char* s) : rpcFunction(func), recv(r), slot(s) {} - }; + * By default, the signal name being sent is as if the SIGNAL() macro had been used, i.e. the normalized signature prefixed with a '2'. + * This can be overridden by explicitly providing the signalName argument. + * + * @sa attachSlot + * + * @param sender The sender of the signal + * @param signal The signal itself (given as a member function pointer) + * @param signalName Optional string to be used instead of the actual signal name. Will be normalized. + * @returns true if attaching the signal was successful + */ + template + bool attachSignal(const typename FunctionTraits::ClassType* sender, Signal signal, const QByteArray& signalName = {}); - ProxyType type; - QList peers; - QList attachedSignals; - QList attachedSlots; + /** + * Attaches a slot to a remote signal. + * + * After calling this method, upon receipt of an RpcCall message with a signalName matching the signalName parameter, the given slot + * is called with the parameters contained in the message. This is intended to be used in conjunction with attachSignal() on the other + * end of the connection. + * + * Normally, the signalName should be given using the SIGNAL() macro; it will be normalized automatically. + * + * @sa attachSignal + * + * @param signalName Name of the signal as stored in the RpcCall message + * @param receiver Receiver of the signal + * @param slot Slot to be called (given as a member function pointer) + * @returns true if attaching the slot was successful + */ + template::value>> + bool attachSlot(const QByteArray& signalName, typename FunctionTraits::ClassType* receiver, Slot slot); -}; + /** + * @overload + * + * Attaches a functor to a remote signal. + * + * After calling this method, upon receipt of an RpcCall message with a signalName matching the signalName parameter, the given functor + * is invoked with the parameters contained in the message. This is intended to be used in conjunction with attachSignal() on the other + * end of the connection. This overload can be used, for example, with a lambda that accepts arguments matching the RpcCall parameter + * list. + * + * The context parameter controls the lifetime of the connection; if the context is deleted, the functor is deleted as well. + * + * @sa attachSignal + * + * @param signalName Name of the signal as stored in the RpcCall message + * @param context QObject context controlling the lifetime of the callable + * @param slot The functor to be invoked + * @returns true if attaching the functor was successful + */ + template::value>> + bool attachSlot(const QByteArray& signalName, const QObject* context, Slot slot); + + void synchronize(SyncableObject* obj); + void stopSynchronize(SyncableObject* obj); + + class ExtendedMetaObject; + ExtendedMetaObject* extendedMetaObject(const QMetaObject* meta) const; + ExtendedMetaObject* createExtendedMetaObject(const QMetaObject* meta, bool checkConflicts = false); + inline ExtendedMetaObject* extendedMetaObject(const QObject* obj) const { return extendedMetaObject(metaObject(obj)); } + inline ExtendedMetaObject* createExtendedMetaObject(const QObject* obj, bool checkConflicts = false) + { + return createExtendedMetaObject(metaObject(obj), checkConflicts); + } + bool isSecure() const { return _secure; } + void dumpProxyStats(); + void dumpSyncMap(SyncableObject* object); + static SignalProxy* current(); + /**@{*/ + /** + * This method allows to send a signal only to a limited set of peers + * @param peers A list of peers that should receive it + * @param closure Code you want to execute within of that restricted environment + */ + void restrictTargetPeers(QSet peers, std::function closure); + void restrictTargetPeers(Peer* peer, std::function closure) + { + QSet set; + set.insert(peer); + restrictTargetPeers(set, std::move(closure)); + } + + // A better version, but only implemented on Qt5 if Initializer Lists exist +#ifdef Q_COMPILER_INITIALIZER_LISTS + void restrictTargetPeers(std::initializer_list peers, std::function closure) + { + restrictTargetPeers(QSet(peers), std::move(closure)); + } #endif + /**}@*/ + + inline int peerCount() const { return _peerMap.size(); } + QVariantList peerData(); + + Peer* peerById(int peerId); + + /** + * @return If handling a signal, the Peer from which the current signal originates + */ + Peer* sourcePeer(); + void setSourcePeer(Peer* sourcePeer); + + /** + * @return If sending a signal, the Peer to which the current signal is directed + */ + Peer* targetPeer(); + void setTargetPeer(Peer* targetPeer); + +protected: + void customEvent(QEvent* event) override; + void sync_call__(const SyncableObject* obj, ProxyMode modeType, const char* funcname, va_list ap); + void renameObject(const SyncableObject* obj, const QString& newname, const QString& oldname); + +private slots: + void removePeerBySender(); + void objectRenamed(const QByteArray& classname, const QString& newname, const QString& oldname); + void updateSecureState(); + +signals: + void peerRemoved(Peer* peer); + void connected(); + void disconnected(); + void objectInitialized(SyncableObject*); + void heartBeatIntervalChanged(int secs); + void maxHeartBeatCountChanged(int max); + void lagUpdated(int lag); + void secureStateChanged(bool); + +private: + template + class PeerMessageEvent; + + void init(); + void initServer(); + void initClient(); + + static const QMetaObject* metaObject(const QObject* obj); + + void removePeer(Peer* peer); + void removeAllPeers(); + + int nextPeerId() { return _lastPeerId++; } + + /** + * Attaches a SlotObject for the given signal name. + * + * @param signalName Signal name to be associated with the SlotObject + * @param slotObject The SlotObject instance to be invoked for incoming and matching RpcCall messages + */ + void attachSlotObject(const QByteArray& signalName, std::unique_ptr slotObject); + + /** + * Deletes all SlotObjects associated with the given context. + * + * @param context The context + */ + void detachSlotObjects(const QObject* context); + + /** + * Dispatches an RpcMessage for the given signal and parameters. + * + * @param signalName The signal + * @param params The parameters + */ + void dispatchSignal(QByteArray signalName, QVariantList params); + + template + void dispatch(const T& protoMessage); + template + void dispatch(Peer* peer, const T& protoMessage); + + void handle(Peer* peer, const Protocol::SyncMessage& syncMessage); + void handle(Peer* peer, const Protocol::RpcCall& rpcCall); + void handle(Peer* peer, const Protocol::InitRequest& initRequest); + void handle(Peer* peer, const Protocol::InitData& initData); + + template + void handle(Peer*, T) + { + Q_ASSERT(0); + } + + bool invokeSlot(QObject* receiver, int methodId, const QVariantList& params, QVariant& returnValue, Peer* peer = nullptr); + bool invokeSlot(QObject* receiver, int methodId, const QVariantList& params = QVariantList(), Peer* peer = nullptr); + + void requestInit(SyncableObject* obj); + QVariantMap initData(SyncableObject* obj) const; + void setInitData(SyncableObject* obj, const QVariantMap& properties); + + static void disconnectDevice(QIODevice* dev, const QString& reason = QString()); + +private: + QHash _peerMap; + + // containg a list of argtypes for fast access + QHash _extendedMetaObjects; + + std::unordered_multimap, Hash> _attachedSlots; ///< Attached slot objects + + // slaves for sync + using ObjectId = QHash; + QHash _syncSlave; + + ProxyMode _proxyMode; + int _heartBeatInterval; + int _maxHeartBeatCount; + + bool _secure; // determines if all connections are in a secured state (using ssl or internal connections) + + int _lastPeerId = 0; + + QSet _restrictedTargets; + bool _restrictMessageTarget = false; + + Peer* _sourcePeer = nullptr; + Peer* _targetPeer = nullptr; + + friend class SyncableObject; + friend class Peer; +}; + +// ---- Template function implementations --------------------------------------- + +template +bool SignalProxy::attachSignal(const typename FunctionTraits::ClassType* sender, Signal signal, const QByteArray& signalName) +{ + static_assert(std::is_member_function_pointer::value, "Signal must be given as member function pointer"); + + // Determine the signalName to be stored in the RpcCall + QByteArray name; + if (signalName.isEmpty()) { + auto method = QMetaMethod::fromSignal(signal); + if (!method.isValid()) { + qWarning().nospace() << Q_FUNC_INFO << ": Function pointer is not a signal"; + return false; + } + name = "2" + method.methodSignature(); // SIGNAL() prefixes the signature with "2" + } + else { + name = QMetaObject::normalizedSignature(signalName.constData()); + } + + // Upon signal emission, marshall the signal's arguments into a QVariantList and dispatch an RpcCall message + connect(sender, signal, this, [this, signalName = std::move(name)](auto&&... args) { + this->dispatchSignal(std::move(signalName), {QVariant::fromValue(args)...}); + }); + + return true; +} + +template +bool SignalProxy::attachSlot(const QByteArray& signalName, typename FunctionTraits::ClassType* receiver, Slot slot) +{ + // Create a wrapper function that invokes the member function pointer for the receiver instance + attachSlotObject(signalName, std::make_unique>(receiver, [receiver, slot = std::move(slot)](auto&&... args) { + (receiver->*slot)(std::forward(args)...); + })); + return true; +} + +template +bool SignalProxy::attachSlot(const QByteArray& signalName, const QObject* context, Slot slot) +{ + static_assert(!std::is_same::value, "Old-style slots not supported"); + + attachSlotObject(signalName, std::make_unique>(context, std::move(slot))); + return true; +} + +/** + * Base object for storing a slot (or functor) to be invoked with a list of arguments. + * + * @note Having this untemplated base class for SlotObject allows for handling slots in the implementation rather than in the header. + */ +class COMMON_EXPORT SignalProxy::SlotObjectBase +{ +public: + virtual ~SlotObjectBase() = default; + + /** + * @returns The context associated with the slot + */ + const QObject* context() const; + + /** + * Invokes the slot with the given list of parameters. + * + * If the parameters cannot all be converted to the slot's argument types, or there is a mismatch in argument count, + * the invocation will fail. + * + * @param params List of arguments marshalled as QVariants + * @returns true if the invocation was successful + */ + virtual bool invoke(const QVariantList& params) const = 0; + +protected: + SlotObjectBase(const QObject* context); + +private: + const QObject* _context; +}; + +/** + * Specialization of SlotObjectBase for a particular type of slot. + * + * Callable may be a function wrapper around a member function pointer of type Slot, + * or a functor that can be invoked directly. + * + * @tparam Slot Type of the slot, used for determining the callable's signature + * @tparam Callable Type of the actual callable to be invoked + */ +template +class SignalProxy::SlotObject : public SlotObjectBase +{ +public: + /** + * Constructs a SlotObject for the given callable, whose lifetime is controlled by context. + * + * @param context Context object; if destroyed, the slot object will be destroyed as well by SignalProxy. + * @param callable Callable to be invoked + */ + SlotObject(const QObject* context, Callable callable) + : SlotObjectBase(context) + , _callable(std::move(callable)) + {} + + // See base class + bool invoke(const QVariantList& params) const override + { + if (QThread::currentThread() != context()->thread()) { + qWarning() << "Cannot call slot in different thread!"; + return false; + } + return invokeWithArgsList(_callable, params) ? true : false; + } + +private: + Callable _callable; +}; + +// ================================================== +// ExtendedMetaObject +// ================================================== +class SignalProxy::ExtendedMetaObject +{ + class MethodDescriptor + { + public: + MethodDescriptor(const QMetaMethod& method); + MethodDescriptor() = default; + + inline const QByteArray& methodName() const { return _methodName; } + inline const QList& argTypes() const { return _argTypes; } + inline int returnType() const { return _returnType; } + inline int minArgCount() const { return _minArgCount; } + inline SignalProxy::ProxyMode receiverMode() const { return _receiverMode; } + + private: + QByteArray _methodName; + QList _argTypes; + int _returnType{-1}; + int _minArgCount{-1}; + SignalProxy::ProxyMode _receiverMode{ + SignalProxy::Client}; // Only acceptable as a Sync Call if the receiving SignalProxy is in this mode. + }; + +public: + ExtendedMetaObject(const QMetaObject* meta, bool checkConflicts); + + inline const QByteArray& methodName(int methodId) { return methodDescriptor(methodId).methodName(); } + inline const QList& argTypes(int methodId) { return methodDescriptor(methodId).argTypes(); } + inline int returnType(int methodId) { return methodDescriptor(methodId).returnType(); } + inline int minArgCount(int methodId) { return methodDescriptor(methodId).minArgCount(); } + inline SignalProxy::ProxyMode receiverMode(int methodId) { return methodDescriptor(methodId).receiverMode(); } + + inline int methodId(const QByteArray& methodName) { return _methodIds.contains(methodName) ? _methodIds[methodName] : -1; } + + inline int updatedRemotelyId() { return _updatedRemotelyId; } + + inline const QHash& slotMap() { return _methodIds; } + const QHash& receiveMap(); + + const QMetaObject* metaObject() const { return _meta; } + + static QByteArray methodName(const QMetaMethod& method); + static QString methodBaseName(const QMetaMethod& method); + +private: + const MethodDescriptor& methodDescriptor(int methodId); + + const QMetaObject* _meta; + int _updatedRemotelyId; // id of the updatedRemotely() signal - makes things faster + + QHash _methods; + QHash _methodIds; + QHash _receiveMap; // if slot x is called then hand over the result to slot y +};