// SPDX-FileCopyrightText: 2016 Kitsune Ral // SPDX-License-Identifier: LGPL-2.1-or-later #pragma once #include "converters.h" #include "logging.h" #include "function_traits.h" namespace Quotient { // === event_ptr_tt<> and type casting facilities === template using event_ptr_tt = std::unique_ptr; /// Unwrap a plain pointer from a smart pointer template inline EventT* rawPtr(const event_ptr_tt& ptr) { return ptr.get(); } /// Unwrap a plain pointer and downcast it to the specified type template inline TargetEventT* weakPtrCast(const event_ptr_tt& ptr) { return static_cast(rawPtr(ptr)); } // === Standard Matrix key names and basicEventJson() === constexpr auto TypeKeyL = "type"_ls; constexpr auto BodyKeyL = "body"_ls; constexpr auto ContentKeyL = "content"_ls; constexpr auto EventIdKeyL = "event_id"_ls; constexpr auto SenderKeyL = "sender"_ls; constexpr auto RoomIdKeyL = "room_id"_ls; constexpr auto UnsignedKeyL = "unsigned"_ls; constexpr auto RedactedCauseKeyL = "redacted_because"_ls; constexpr auto PrevContentKeyL = "prev_content"_ls; constexpr auto StateKeyKeyL = "state_key"_ls; const QString TypeKey { TypeKeyL }; const QString BodyKey { BodyKeyL }; const QString ContentKey { ContentKeyL }; const QString EventIdKey { EventIdKeyL }; const QString SenderKey { SenderKeyL }; const QString RoomIdKey { RoomIdKeyL }; const QString UnsignedKey { UnsignedKeyL }; const QString StateKeyKey { StateKeyKeyL }; /// Make a minimal correct Matrix event JSON inline QJsonObject basicEventJson(const QString& matrixType, const QJsonObject& content) { return { { TypeKey, matrixType }, { ContentKey, content } }; } // === Event types === using event_type_t = QLatin1String; using event_mtype_t = const char*; class QUOTIENT_API EventTypeRegistry { public: ~EventTypeRegistry() = default; [[deprecated("event_type_t is a string now, use it directly instead")]] static QString getMatrixType(event_type_t typeId); private: EventTypeRegistry() = default; Q_DISABLE_COPY_MOVE(EventTypeRegistry) }; template inline event_type_t typeId() { return std::decay_t::TypeId; } constexpr inline event_type_t UnknownEventTypeId = "?"_ls; [[deprecated("Use UnknownEventTypeId")]] constexpr inline event_type_t unknownEventTypeId() { return UnknownEventTypeId; } // === Event creation facilities === //! Create an event of arbitrary type from its arguments template inline event_ptr_tt makeEvent(ArgTs&&... args) { return std::make_unique(std::forward(args)...); } namespace _impl { class QUOTIENT_API EventFactoryBase { public: EventFactoryBase(const EventFactoryBase&) = delete; protected: // This class is only to inherit from explicit EventFactoryBase(const char* name) : name(name) {} void logAddingMethod(event_type_t TypeId, size_t newSize); private: const char* const name; }; } // namespace _impl //! \brief A family of event factories to create events from CS API responses //! //! Each of these factories, as instantiated by event base types (Event, //! RoomEvent etc.) is capable of producing an event object derived from //! \p BaseEventT, using the JSON payload and the event type passed to its //! make() method. Don't use these directly to make events; use loadEvent() //! overloads as the frontend for these. Never instantiate new factories //! outside of base event classes. //! \sa loadEvent, setupFactory, Event::factory, RoomEvent::factory, //! StateEventBase::factory template class EventFactory : public _impl::EventFactoryBase { private: std::vector (*)(const QJsonObject&, const QString&)> methods {}; template static event_ptr_tt makeIfMatches(const QJsonObject& json, const QString& matrixType) { // If your matrix event type is not all ASCII, it's your problem // (see https://github.com/matrix-org/matrix-doc/pull/2758) return EventT::TypeId == matrixType ? makeEvent(json) : nullptr; } public: explicit EventFactory(const char* fName) : EventFactoryBase { fName } {} //! \brief Add a method to create events of a given type //! //! Adds a standard factory method (makeIfMatches) for \p EventT so that //! event objects of this type can be created dynamically by loadEvent. //! The caller is responsible for ensuring this method is called only //! once per type. //! \sa loadEvent, Quotient::loadEvent template const auto& addMethod() { logAddingMethod(EventT::TypeId, methods.size() + 1); return methods.emplace_back(&makeIfMatches); } auto loadEvent(const QJsonObject& json, const QString& matrixType) { for (const auto& f : methods) if (auto e = f(json, matrixType)) return e; return makeEvent(UnknownEventTypeId, json); } }; //! \brief Point of customisation to dynamically load events //! //! The default specialisation of this calls BaseEventT::factory.loadEvent() //! and if that fails (i.e. returns nullptr) creates an unknown event of //! BaseEventT. Other specialisations may reuse other factories, add validations //! common to BaseEventT events, and so on. template event_ptr_tt doLoadEvent(const QJsonObject& json, const QString& matrixType) { return BaseEventT::factory.loadEvent(json, matrixType); } // === Event === class QUOTIENT_API Event { public: using Type = event_type_t; static inline EventFactory factory { "Event" }; explicit Event(Type type, const QJsonObject& json); explicit Event(Type type, event_mtype_t matrixType, const QJsonObject& contentJson = {}); Q_DISABLE_COPY(Event) Event(Event&&) = default; Event& operator=(Event&&) = delete; virtual ~Event(); Type type() const { return _type; } QString matrixType() const; [[deprecated("Use fullJson() and stringify it with QJsonDocument::toJson() " "or by other means")]] QByteArray originalJson() const; [[deprecated("Use fullJson() instead")]] // QJsonObject originalJsonObject() const { return fullJson(); } const QJsonObject& fullJson() const { return _json; } // According to the CS API spec, every event also has // a "content" object; but since its structure is different for // different types, we're implementing it per-event type. // NB: const return types below are meant to catch accidental attempts // to change event JSON (e.g., consider contentJson()["inexistentKey"]). const QJsonObject contentJson() const; template const T contentPart(KeyT&& key) const { return fromJson(contentJson()[std::forward(key)]); } template [[deprecated("Use contentPart() to get a part of the event content")]] // T content(const QString& key) const { return contentPart(key); } const QJsonObject unsignedJson() const; template const T unsignedPart(KeyT&& key) const { return fromJson(unsignedJson()[std::forward(key)]); } friend QUOTIENT_API QDebug operator<<(QDebug dbg, const Event& e) { QDebugStateSaver _dss { dbg }; dbg.noquote().nospace() << e.matrixType() << '(' << e.type() << "): "; e.dumpTo(dbg); return dbg; } virtual bool isStateEvent() const { return false; } virtual bool isCallEvent() const { return false; } protected: QJsonObject& editJson() { return _json; } virtual void dumpTo(QDebug dbg) const; private: Type _type; QJsonObject _json; }; using EventPtr = event_ptr_tt; template using EventsArray = std::vector>; using Events = EventsArray; // === Facilities for event class definitions === // This macro should be used in a public section of an event class to // provide matrixTypeId() and typeId(). #define DEFINE_EVENT_TYPEID(Id_, Type_) \ static inline constexpr event_type_t TypeId = Id_##_ls; \ [[deprecated("Use _Type::TypeId directly instead")]] \ static constexpr event_mtype_t matrixTypeId() { return Id_; } \ [[deprecated("Use _Type::TypeId directly instead")]] \ static event_type_t typeId() { return TypeId; } \ // End of macro // This macro should be put after an event class definition (in .h or .cpp) // to enable its deserialisation from a /sync and other // polymorphic event arrays #define REGISTER_EVENT_TYPE(Type_) \ [[maybe_unused]] QUOTIENT_API inline const auto& factoryMethodFor##Type_ = \ Type_::factory.addMethod(); \ // End of macro // === is<>(), eventCast<>() and switchOnType<>() === template inline bool is(const Event& e) { return e.type() == typeId(); } inline bool isUnknown(const Event& e) { return e.type() == UnknownEventTypeId; } template inline auto eventCast(const BasePtrT& eptr) -> decltype(static_cast(&*eptr)) { Q_ASSERT(eptr); return is>(*eptr) ? static_cast(&*eptr) : nullptr; } // A trivial generic catch-all "switch" template inline auto switchOnType(const BaseEventT& event, FnT&& fn) -> decltype(fn(event)) { return fn(event); } namespace _impl { // Using bool instead of auto below because auto apparently upsets MSVC template inline constexpr bool needs_downcast = std::is_base_of_v>> && !std::is_same_v>>; } // A trivial type-specific "switch" for a void function template inline auto switchOnType(const BaseT& event, FnT&& fn) -> std::enable_if_t<_impl::needs_downcast && std::is_void_v>> { using event_type = fn_arg_t; if (is>(event)) fn(static_cast(event)); } // A trivial type-specific "switch" for non-void functions with an optional // default value; non-voidness is guarded by defaultValue type template inline auto switchOnType(const BaseT& event, FnT&& fn, fn_return_t&& defaultValue = {}) -> std::enable_if_t<_impl::needs_downcast, fn_return_t> { using event_type = fn_arg_t; if (is>(event)) return fn(static_cast(event)); return std::move(defaultValue); } // A switch for a chain of 2 or more functions template inline std::common_type_t, fn_return_t> switchOnType(const BaseT& event, FnT1&& fn1, FnT2&& fn2, FnTs&&... fns) { using event_type1 = fn_arg_t; if (is>(event)) return fn1(static_cast(event)); return switchOnType(event, std::forward(fn2), std::forward(fns)...); } template [[deprecated("The new name for visit() is switchOnType()")]] // inline std::common_type_t...> visit(const BaseT& event, FnTs&&... fns) { return switchOnType(event, std::forward(fns)...); } // A facility overload that calls void-returning switchOnType() on each event // over a range of event pointers // TODO: replace with ranges::for_each once all standard libraries have it template inline auto visitEach(RangeT&& events, FnTs&&... fns) -> std::enable_if_t(fns)...))>> { for (auto&& evtPtr: events) switchOnType(*evtPtr, std::forward(fns)...); } } // namespace Quotient Q_DECLARE_METATYPE(Quotient::Event*) Q_DECLARE_METATYPE(const Quotient::Event*)