// // Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2020 // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // #pragma once #include "td/utils/Closure.h" #include "td/utils/common.h" #include "td/utils/format.h" #include "td/utils/logging.h" #include "td/utils/StringBuilder.h" #include #include namespace td { class Actor; // Events // // Small structure (up to 16 bytes) used to send events between actors. // // There are some predefined types of events: // NoType -- unitialized event // Start -- start actor // Stop -- stop actor // Yield -- wake up actor // Timeout -- some timeout has expired // Hangup -- hang up called // Raw -- just pass 8 bytes (union Raw is used for convenience) // Custom -- Send CustomEvent template std::enable_if_t::value> start_migrate(T &obj, int32 sched_id) { } template std::enable_if_t::value> finish_migrate(T &obj) { } class CustomEvent { public: CustomEvent() = default; CustomEvent(const CustomEvent &) = delete; CustomEvent &operator=(const CustomEvent &) = delete; CustomEvent(CustomEvent &&) = delete; CustomEvent &operator=(CustomEvent &&) = delete; virtual ~CustomEvent() = default; virtual void run(Actor *actor) = 0; virtual CustomEvent *clone() const = 0; virtual void start_migrate(int32 sched_id) { } virtual void finish_migrate() { } }; template class ClosureEvent : public CustomEvent { public: void run(Actor *actor) override { closure_.run(static_cast(actor)); } CustomEvent *clone() const override { return new ClosureEvent(closure_.clone()); } template explicit ClosureEvent(ArgsT &&... args) : closure_(std::forward(args)...) { } void start_migrate(int32 sched_id) override { closure_.for_each([sched_id](auto &obj) { using ::td::start_migrate; start_migrate(obj, sched_id); }); } void finish_migrate() override { closure_.for_each([](auto &obj) { using ::td::finish_migrate; finish_migrate(obj); }); } private: ClosureT closure_; }; template class LambdaEvent : public CustomEvent { public: void run(Actor *actor) override { f_(); } CustomEvent *clone() const override { LOG(FATAL) << "Not supported"; return nullptr; } template explicit LambdaEvent(FromLambdaT &&lambda) : f_(std::forward(lambda)) { } private: LambdaT f_; }; class Event { public: enum class Type { NoType, Start, Stop, Yield, Timeout, Hangup, Raw, Custom }; Type type; uint64 link_token = 0; union Raw { void *ptr; CustomEvent *custom_event; uint32 u32; uint64 u64; } data{}; // factory functions static Event start() { return Event(Type::Start); } static Event stop() { return Event(Type::Stop); } static Event yield() { return Event(Type::Yield); } static Event timeout() { return Event(Type::Timeout); } static Event hangup() { return Event(Type::Hangup); } static Event raw(void *ptr) { return Event(Type::Raw, ptr); } static Event raw(uint32 u32) { return Event(Type::Raw, u32); } static Event raw(uint64 u64) { return Event(Type::Raw, u64); } static Event custom(CustomEvent *custom_event) { return Event(Type::Custom, custom_event); } template static Event immediate_closure(FromImmediateClosureT &&closure) { return custom( new ClosureEvent(std::forward(closure))); } template static Event delayed_closure(ArgsT &&... args) { using DelayedClosureT = decltype(create_delayed_closure(std::forward(args)...)); return custom(new ClosureEvent(std::forward(args)...)); } template static Event lambda(FromLambdaT &&lambda) { return custom(new LambdaEvent>(std::forward(lambda))); } Event() : Event(Type::NoType) { } Event(const Event &other) = delete; Event &operator=(const Event &) = delete; Event(Event &&other) : type(other.type), link_token(other.link_token), data(other.data) { other.type = Type::NoType; } Event &operator=(Event &&other) { destroy(); type = other.type; link_token = other.link_token; data = other.data; other.type = Type::NoType; return *this; } ~Event() { destroy(); } Event clone() const { Event res; res.type = type; if (type == Type::Custom) { res.data.custom_event = data.custom_event->clone(); } else { res.data = data; } return res; } bool empty() const { return type == Type::NoType; } void clear() { destroy(); type = Type::NoType; } Event &set_link_token(uint64 new_link_token) { link_token = new_link_token; return *this; } friend void start_migrate(Event &obj, int32 sched_id) { if (obj.type == Type::Custom) { obj.data.custom_event->start_migrate(sched_id); } } friend void finish_migrate(Event &obj) { if (obj.type == Type::Custom) { obj.data.custom_event->finish_migrate(); } } private: explicit Event(Type type) : type(type) { } Event(Type type, void *ptr) : Event(type) { data.ptr = ptr; } Event(Type type, CustomEvent *custom_event) : Event(type) { data.custom_event = custom_event; } Event(Type type, uint32 u32) : Event(type) { data.u32 = u32; } Event(Type type, uint64 u64) : Event(type) { data.u64 = u64; } void destroy() { if (type == Type::Custom) { delete data.custom_event; } } }; inline StringBuilder &operator<<(StringBuilder &string_builder, const Event &e) { string_builder << "Event::"; switch (e.type) { case Event::Type::Start: return string_builder << "Start"; case Event::Type::Stop: return string_builder << "Stop"; case Event::Type::Yield: return string_builder << "Yield"; case Event::Type::Hangup: return string_builder << "Hangup"; case Event::Type::Timeout: return string_builder << "Timeout"; case Event::Type::Raw: return string_builder << "Raw"; case Event::Type::Custom: return string_builder << "Custom"; case Event::Type::NoType: default: return string_builder << "NoType"; } } } // namespace td