tdesktop/Telegram/SourceFiles/mtproto/rpc_sender.h

/*
This file is part of Telegram Desktop,
the official desktop version of Telegram messaging app, see https://telegram.org

Telegram Desktop 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 3 of the License, or
(at your option) any later version.

It is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.

In addition, as a special exception, the copyright holders give permission
to link the code of portions of this program with the OpenSSL library.

Full license: https://github.com/telegramdesktop/tdesktop/blob/master/LICENSE
Copyright (c) 2014-2017 John Preston, https://desktop.telegram.org
*/
#pragma once

class RPCError {
public:
	RPCError(const MTPrpcError &error) : _code(error.c_rpc_error().verror_code.v) {
		QString text = qs(error.c_rpc_error().verror_message);
		if (_code < 0 || _code >= 500) {
			_type = qsl("INTERNAL_SERVER_ERROR");
			_description = text;
		} else {
			auto m = QRegularExpression("^([A-Z0-9_]+)(: .*)?$", reMultiline).match(text);
			if (m.hasMatch()) {
				_type = m.captured(1);
				_description = m.captured(2).mid(2);
			} else {
				_type = qsl("CLIENT_BAD_RPC_ERROR");
				_description = qsl("Bad rpc error received, text = '") + text + '\'';
			}
		}
	}

	int32 code() const {
		return _code;
	}

	const QString &type() const {
		return _type;
	}

	const QString &description() const {
		return _description;
	}

	enum {
		NoError,
		TimeoutError
	};

private:

	int32 _code;
	QString _type, _description;
};

namespace MTP {

inline bool isFloodError(const RPCError &error) {
	return error.type().startsWith(qstr("FLOOD_WAIT_"));
}

inline bool isTemporaryError(const RPCError &error) {
	return error.code() < 0 || error.code() >= 500 || isFloodError(error);
}

inline bool isDefaultHandledError(const RPCError &error) {
	return isTemporaryError(error);
}

} // namespace MTP

class RPCAbstractDoneHandler { // abstract done
public:
	virtual void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) = 0;
	virtual ~RPCAbstractDoneHandler() {
	}

};
using RPCDoneHandlerPtr = QSharedPointer<RPCAbstractDoneHandler>;

class RPCAbstractFailHandler { // abstract fail
public:
	virtual bool operator()(mtpRequestId requestId, const RPCError &e) = 0;
	virtual ~RPCAbstractFailHandler() {
	}
};
using RPCFailHandlerPtr = QSharedPointer<RPCAbstractFailHandler>;

struct RPCResponseHandler {
	RPCResponseHandler() {
	}
	RPCResponseHandler(const RPCDoneHandlerPtr &ondone, const RPCFailHandlerPtr &onfail) : onDone(ondone), onFail(onfail) {
	}

	RPCDoneHandlerPtr onDone;
	RPCFailHandlerPtr onFail;

};

inline RPCResponseHandler rpcCb(const RPCDoneHandlerPtr &onDone = RPCDoneHandlerPtr(), const RPCFailHandlerPtr &onFail = RPCFailHandlerPtr()) {
	return RPCResponseHandler(onDone, onFail);
}

template <typename TReturn>
class RPCDoneHandlerBare : public RPCAbstractDoneHandler { // done(from, end)
	using CallbackType = TReturn (*)(const mtpPrime *, const mtpPrime *);

public:
    RPCDoneHandlerBare(CallbackType onDone) : _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		(*_onDone)(from, end);
	}

private:
	CallbackType _onDone;

};

template <typename TReturn>
class RPCDoneHandlerBareReq : public RPCAbstractDoneHandler { // done(from, end, req_id)
	using CallbackType = TReturn (*)(const mtpPrime *, const mtpPrime *, mtpRequestId);

public:
    RPCDoneHandlerBareReq(CallbackType onDone) : _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		(*_onDone)(from, end, requestId);
	}

private:
	CallbackType _onDone;

};

template <typename TReturn, typename TResponse>
class RPCDoneHandlerPlain : public RPCAbstractDoneHandler { // done(result)
	using CallbackType = TReturn (*)(const TResponse &);

public:
    RPCDoneHandlerPlain(CallbackType onDone) : _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		auto response = TResponse();
		response.read(from, end);
		(*_onDone)(std::move(response));
	}

private:
	CallbackType _onDone;

};

template <typename TReturn, typename TResponse>
class RPCDoneHandlerReq : public RPCAbstractDoneHandler { // done(result, req_id)
	using CallbackType = TReturn (*)(const TResponse &, mtpRequestId);

public:
    RPCDoneHandlerReq(CallbackType onDone) : _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		auto response = TResponse();
		response.read(from, end);
		(*_onDone)(std::move(response), requestId);
	}

private:
	CallbackType _onDone;

};

template <typename TReturn>
class RPCDoneHandlerNo : public RPCAbstractDoneHandler { // done()
	using CallbackType = TReturn (*)();

public:
    RPCDoneHandlerNo(CallbackType onDone) : _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		(*_onDone)();
	}

private:
	CallbackType _onDone;

};

template <typename TReturn>
class RPCDoneHandlerNoReq : public RPCAbstractDoneHandler { // done(req_id)
	using CallbackType = TReturn (*)(mtpRequestId);

public:
    RPCDoneHandlerNoReq(CallbackType onDone) : _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		(*_onDone)(requestId);
	}

private:
	CallbackType _onDone;

};

class RPCFailHandlerPlain : public RPCAbstractFailHandler { // fail(error)
	using CallbackType = bool (*)(const RPCError &);

public:
	RPCFailHandlerPlain(CallbackType onFail) : _onFail(onFail) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return (*_onFail)(e);
	}

private:
	CallbackType _onFail;

};

class RPCFailHandlerReq : public RPCAbstractFailHandler { // fail(error, req_id)
	using CallbackType = bool (*)(const RPCError &, mtpRequestId);

public:
	RPCFailHandlerReq(CallbackType onFail) : _onFail(onFail) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return (*_onFail)(e, requestId);
	}

private:
	CallbackType _onFail;

};

class RPCFailHandlerNo : public RPCAbstractFailHandler { // fail()
	using CallbackType = bool (*)();

public:
	RPCFailHandlerNo(CallbackType onFail) : _onFail(onFail) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return (*_onFail)();
	}

private:
	CallbackType _onFail;

};

class RPCFailHandlerNoReq : public RPCAbstractFailHandler { // fail(req_id)
	using CallbackType = bool (*)(mtpRequestId);

public:
	RPCFailHandlerNoReq(CallbackType onFail) : _onFail(onFail) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return (*_onFail)(requestId);
	}

private:
	CallbackType _onFail;

};

struct RPCCallbackClear {
	RPCCallbackClear(mtpRequestId id = 0, int32 code = RPCError::NoError) : requestId(id), errorCode(code) {
	}

	mtpRequestId requestId;
	int32 errorCode;

};

using RPCCallbackClears = QVector<RPCCallbackClear> ;

template <typename TReturn>
inline RPCDoneHandlerPtr rpcDone(TReturn (*onDone)(const mtpPrime *, const mtpPrime *)) { // done(from, end)
	return RPCDoneHandlerPtr(new RPCDoneHandlerBare<TReturn>(onDone));
}

template <typename TReturn>
inline RPCDoneHandlerPtr rpcDone(TReturn (*onDone)(const mtpPrime *, const mtpPrime *, mtpRequestId)) { // done(from, end, req_id)
	return RPCDoneHandlerPtr(new RPCDoneHandlerBareReq<TReturn>(onDone));
}

template <typename TReturn, typename TResponse>
inline RPCDoneHandlerPtr rpcDone(TReturn (*onDone)(const TResponse &)) { // done(result)
	return RPCDoneHandlerPtr(new RPCDoneHandlerPlain<TReturn, TResponse>(onDone));
}

template <typename TReturn, typename TResponse>
inline RPCDoneHandlerPtr rpcDone(TReturn (*onDone)(const TResponse &, mtpRequestId)) { // done(result, req_id)
	return RPCDoneHandlerPtr(new RPCDoneHandlerReq<TReturn, TResponse>(onDone));
}

template <typename TReturn>
inline RPCDoneHandlerPtr rpcDone(TReturn (*onDone)()) { // done()
	return RPCDoneHandlerPtr(new RPCDoneHandlerNo<TReturn>(onDone));
}

template <typename TReturn>
inline RPCDoneHandlerPtr rpcDone(TReturn (*onDone)(mtpRequestId)) { // done(req_id)
	return RPCDoneHandlerPtr(new RPCDoneHandlerNoReq<TReturn>(onDone));
}

inline RPCFailHandlerPtr rpcFail(bool (*onFail)(const RPCError &)) { // fail(error)
	return RPCFailHandlerPtr(new RPCFailHandlerPlain(onFail));
}

inline RPCFailHandlerPtr rpcFail(bool (*onFail)(const RPCError &, mtpRequestId)) { // fail(error, req_id)
	return RPCFailHandlerPtr(new RPCFailHandlerReq(onFail));
}

inline RPCFailHandlerPtr rpcFail(bool (*onFail)()) { // fail()
	return RPCFailHandlerPtr(new RPCFailHandlerNo(onFail));
}

inline RPCFailHandlerPtr rpcFail(bool (*onFail)(mtpRequestId)) { // fail(req_id)
	return RPCFailHandlerPtr(new RPCFailHandlerNoReq(onFail));
}

class RPCSender;

class RPCOwnedDoneHandler : public RPCAbstractDoneHandler { // abstract done
public:
	RPCOwnedDoneHandler(RPCSender *owner);
	void invalidate() {
		_owner = nullptr;
	}
	~RPCOwnedDoneHandler();

protected:
	RPCSender *_owner = nullptr;

};

class RPCOwnedFailHandler : public RPCAbstractFailHandler { // abstract fail
public:
	RPCOwnedFailHandler(RPCSender *owner);
	void invalidate() {
		_owner = nullptr;
	}
	~RPCOwnedFailHandler();

protected:
	RPCSender *_owner = nullptr;

};

template <typename TReturn, typename TReceiver>
class RPCDoneHandlerBareOwned : public RPCOwnedDoneHandler { // done(from, end)
	using CallbackType = TReturn (TReceiver::*)(const mtpPrime *, const mtpPrime *);

public:
    RPCDoneHandlerBareOwned(TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) (static_cast<TReceiver*>(_owner)->*_onDone)(from, end);
	}

private:
	CallbackType _onDone;

};

template <typename TReturn, typename TReceiver>
class RPCDoneHandlerBareOwnedReq : public RPCOwnedDoneHandler { // done(from, end, req_id)
	using CallbackType = TReturn (TReceiver::*)(const mtpPrime *, const mtpPrime *, mtpRequestId);

public:
    RPCDoneHandlerBareOwnedReq(TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) (static_cast<TReceiver*>(_owner)->*_onDone)(from, end, requestId);
	}

private:
	CallbackType _onDone;

};

template <typename TReturn, typename TReceiver, typename TResponse>
class RPCDoneHandlerOwned : public RPCOwnedDoneHandler { // done(result)
	using CallbackType = TReturn (TReceiver::*)(const TResponse &);

public:
    RPCDoneHandlerOwned(TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) {
			auto response = TResponse();
			response.read(from, end);
			(static_cast<TReceiver*>(_owner)->*_onDone)(std::move(response));
		}
	}

private:
	CallbackType _onDone;

};

template <typename TReturn, typename TReceiver, typename TResponse>
class RPCDoneHandlerOwnedReq : public RPCOwnedDoneHandler { // done(result, req_id)
	using CallbackType = TReturn (TReceiver::*)(const TResponse &, mtpRequestId);

public:
    RPCDoneHandlerOwnedReq(TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) {
			auto response = TResponse();
			response.read(from, end);
			(static_cast<TReceiver*>(_owner)->*_onDone)(std::move(response), requestId);
		}
	}

private:
	CallbackType _onDone;

};

template <typename TReturn, typename TReceiver>
class RPCDoneHandlerOwnedNo : public RPCOwnedDoneHandler { // done()
	using CallbackType = TReturn (TReceiver::*)();

public:
    RPCDoneHandlerOwnedNo(TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) (static_cast<TReceiver*>(_owner)->*_onDone)();
	}

private:
	CallbackType _onDone;

};

template <typename TReturn, typename TReceiver>
class RPCDoneHandlerOwnedNoReq : public RPCOwnedDoneHandler { // done(req_id)
	using CallbackType = TReturn (TReceiver::*)(mtpRequestId);

public:
    RPCDoneHandlerOwnedNoReq(TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) (static_cast<TReceiver*>(_owner)->*_onDone)(requestId);
	}

private:
	CallbackType _onDone;

};

template <typename T, typename TReturn, typename TReceiver>
class RPCBindedDoneHandlerBareOwned : public RPCOwnedDoneHandler { // done(b, from, end)
	using CallbackType = TReturn (TReceiver::*)(T, const mtpPrime *, const mtpPrime *);

public:
    RPCBindedDoneHandlerBareOwned(T b, TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _b(b), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) (static_cast<TReceiver*>(_owner)->*_onDone)(_b, from, end);
	}

private:
	CallbackType _onDone;
	T _b;

};

template <typename T, typename TReturn, typename TReceiver>
class RPCBindedDoneHandlerBareOwnedReq : public RPCOwnedDoneHandler { // done(b, from, end, req_id)
	using CallbackType = TReturn (TReceiver::*)(T, const mtpPrime *, const mtpPrime *, mtpRequestId);

public:
    RPCBindedDoneHandlerBareOwnedReq(T b, TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _b(b), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) (static_cast<TReceiver*>(_owner)->*_onDone)(_b, from, end, requestId);
	}

private:
	CallbackType _onDone;
	T _b;

};

template <typename T, typename TReturn, typename TReceiver, typename TResponse>
class RPCBindedDoneHandlerOwned : public RPCOwnedDoneHandler { // done(b, result)
	using CallbackType = TReturn (TReceiver::*)(T, const TResponse &);

public:
    RPCBindedDoneHandlerOwned(T b, TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _onDone(onDone), _b(b) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) {
			auto response = TResponse();
			response.read(from, end);
			(static_cast<TReceiver*>(_owner)->*_onDone)(_b, std::move(response));
		}
	}

private:
	CallbackType _onDone;
	T _b;

};

template <typename T, typename TReturn, typename TReceiver, typename TResponse>
class RPCBindedDoneHandlerOwnedReq : public RPCOwnedDoneHandler { // done(b, result, req_id)
	using CallbackType = TReturn (TReceiver::*)(T, const TResponse &, mtpRequestId);

public:
    RPCBindedDoneHandlerOwnedReq(T b, TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _onDone(onDone), _b(b) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) {
			auto response = TResponse();
			response.read(from, end);
			(static_cast<TReceiver*>(_owner)->*_onDone)(_b, std::move(response), requestId);
		}
	}

private:
	CallbackType _onDone;
	T _b;

};

template <typename T, typename TReturn, typename TReceiver>
class RPCBindedDoneHandlerOwnedNo : public RPCOwnedDoneHandler { // done(b)
	using CallbackType = TReturn (TReceiver::*)(T);

public:
    RPCBindedDoneHandlerOwnedNo(T b, TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _b(b), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) (static_cast<TReceiver*>(_owner)->*_onDone)(_b);
	}

private:
	CallbackType _onDone;
	T _b;

};

template <typename T, typename TReturn, typename TReceiver>
class RPCBindedDoneHandlerOwnedNoReq : public RPCOwnedDoneHandler { // done(b, req_id)
	using CallbackType = TReturn (TReceiver::*)(T, mtpRequestId);

public:
    RPCBindedDoneHandlerOwnedNoReq(T b, TReceiver *receiver, CallbackType onDone) : RPCOwnedDoneHandler(receiver), _b(b), _onDone(onDone) {
	}
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (_owner) (static_cast<TReceiver*>(_owner)->*_onDone)(_b, requestId);
	}

private:
	CallbackType _onDone;
	T _b;

};

template <typename TReceiver>
class RPCFailHandlerOwned : public RPCOwnedFailHandler { // fail(error)
	using CallbackType = bool (TReceiver::*)(const RPCError &);

public:
	RPCFailHandlerOwned(TReceiver *receiver, CallbackType onFail) : RPCOwnedFailHandler(receiver), _onFail(onFail) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return _owner ? (static_cast<TReceiver*>(_owner)->*_onFail)(e) : true;
	}

private:
	CallbackType _onFail;

};

template <typename TReceiver>
class RPCFailHandlerOwnedReq : public RPCOwnedFailHandler { // fail(error, req_id)
	using CallbackType = bool (TReceiver::*)(const RPCError &, mtpRequestId);

public:
	RPCFailHandlerOwnedReq(TReceiver *receiver, CallbackType onFail) : RPCOwnedFailHandler(receiver), _onFail(onFail) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return _owner ? (static_cast<TReceiver*>(_owner)->*_onFail)(e, requestId) : true;
	}

private:
	CallbackType _onFail;

};

template <typename TReceiver>
class RPCFailHandlerOwnedNo : public RPCOwnedFailHandler { // fail()
	using CallbackType = bool (TReceiver::*)();

public:
	RPCFailHandlerOwnedNo(TReceiver *receiver, CallbackType onFail) : RPCOwnedFailHandler(receiver), _onFail(onFail) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return _owner ? (static_cast<TReceiver*>(_owner)->*_onFail)() : true;
	}

private:
	CallbackType _onFail;

};

template <typename TReceiver>
class RPCFailHandlerOwnedNoReq : public RPCOwnedFailHandler { // fail(req_id)
	using CallbackType = bool (TReceiver::*)(mtpRequestId);

public:
	RPCFailHandlerOwnedNoReq(TReceiver *receiver, CallbackType onFail) : RPCOwnedFailHandler(receiver), _onFail(onFail) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return _owner ? (static_cast<TReceiver*>(_owner)->*_onFail)(requestId) : true;
	}

private:
	CallbackType _onFail;

};

template <typename T, typename TReceiver>
class RPCBindedFailHandlerOwned : public RPCOwnedFailHandler { // fail(b, error)
	using CallbackType = bool (TReceiver::*)(T, const RPCError &);

public:
	RPCBindedFailHandlerOwned(T b, TReceiver *receiver, CallbackType onFail) : RPCOwnedFailHandler(receiver), _onFail(onFail), _b(b) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return _owner ? (static_cast<TReceiver*>(_owner)->*_onFail)(_b, e) : true;
	}

private:
	CallbackType _onFail;
	T _b;

};

template <typename T, typename TReceiver>
class RPCBindedFailHandlerOwnedReq : public RPCOwnedFailHandler { // fail(b, error, req_id)
	using CallbackType = bool (TReceiver::*)(T, const RPCError &, mtpRequestId);

public:
	RPCBindedFailHandlerOwnedReq(T b, TReceiver *receiver, CallbackType onFail) : RPCOwnedFailHandler(receiver), _onFail(onFail), _b(b) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return _owner ? (static_cast<TReceiver*>(_owner)->*_onFail)(_b, e, requestId) : true;
	}

private:
	CallbackType _onFail;
	T _b;

};

template <typename T, typename TReceiver>
class RPCBindedFailHandlerOwnedNo : public RPCOwnedFailHandler { // fail(b)
	using CallbackType = bool (TReceiver::*)(T);

public:
	RPCBindedFailHandlerOwnedNo(T b, TReceiver *receiver, CallbackType onFail) : RPCOwnedFailHandler(receiver), _onFail(onFail), _b(b) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return _owner ? (static_cast<TReceiver*>(_owner)->*_onFail)(_b) : true;
	}

private:
	CallbackType _onFail;
	T _b;

};

template <typename T, typename TReceiver>
class RPCBindedFailHandlerOwnedNoReq : public RPCOwnedFailHandler { // fail(b, req_id)
	using CallbackType = bool (TReceiver::*)(T, mtpRequestId);

public:
	RPCBindedFailHandlerOwnedNoReq(T b, TReceiver *receiver, CallbackType onFail) : RPCOwnedFailHandler(receiver), _onFail(onFail), _b(b) {
	}
	bool operator()(mtpRequestId requestId, const RPCError &e) override {
		return _owner ? (static_cast<TReceiver*>(_owner)->*_onFail)(_b, requestId) : true;
	}

private:
	CallbackType _onFail;
	T _b;

};

class RPCSender {
	using DoneHandlers = QSet<RPCOwnedDoneHandler*>;
	DoneHandlers _rpcDoneHandlers;
	using FailHandlers = QSet<RPCOwnedFailHandler*>;
	FailHandlers _rpcFailHandlers;

	void _rpcRegHandler(RPCOwnedDoneHandler *handler) {
		_rpcDoneHandlers.insert(handler);
	}

	void _rpcUnregHandler(RPCOwnedDoneHandler *handler) {
		_rpcDoneHandlers.remove(handler);
	}

	void _rpcRegHandler(RPCOwnedFailHandler *handler) {
		_rpcFailHandlers.insert(handler);
	}

	void _rpcUnregHandler(RPCOwnedFailHandler *handler) {
		_rpcFailHandlers.remove(handler);
	}

	friend class RPCOwnedDoneHandler;
	friend class RPCOwnedFailHandler;

public:
	template <typename TReturn, typename TReceiver> // done(from, end)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(const mtpPrime *, const mtpPrime *)) {
		return RPCDoneHandlerPtr(new RPCDoneHandlerBareOwned<TReturn, TReceiver>(static_cast<TReceiver*>(this), onDone));
	}

	template <typename TReturn, typename TReceiver> // done(from, end, req_id)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(const mtpPrime *, const mtpPrime *, mtpRequestId)) {
		return RPCDoneHandlerPtr(new RPCDoneHandlerBareOwnedReq<TReturn, TReceiver>(static_cast<TReceiver*>(this), onDone));
	}

	template <typename TReturn, typename TReceiver, typename TResponse> // done(result)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(const TResponse &)) {
		return RPCDoneHandlerPtr(new RPCDoneHandlerOwned<TReturn, TReceiver, TResponse>(static_cast<TReceiver*>(this), onDone));
	}

	template <typename TReturn, typename TReceiver, typename TResponse> // done(result, req_id)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(const TResponse &, mtpRequestId)) {
		return RPCDoneHandlerPtr(new RPCDoneHandlerOwnedReq<TReturn, TReceiver, TResponse>(static_cast<TReceiver*>(this), onDone));
	}

	template <typename TReturn, typename TReceiver> // done()
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)()) {
		return RPCDoneHandlerPtr(new RPCDoneHandlerOwnedNo<TReturn, TReceiver>(static_cast<TReceiver*>(this), onDone));
	}

	template <typename TReturn, typename TReceiver> // done(req_id)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(mtpRequestId)) {
		return RPCDoneHandlerPtr(new RPCDoneHandlerOwnedNoReq<TReturn, TReceiver>(static_cast<TReceiver*>(this), onDone));
	}

	template <typename TReceiver> // fail(error)
	RPCFailHandlerPtr rpcFail(bool (TReceiver::*onFail)(const RPCError &)) {
		return RPCFailHandlerPtr(new RPCFailHandlerOwned<TReceiver>(static_cast<TReceiver*>(this), onFail));
	}

	template <typename TReceiver> // fail(error, req_id)
	RPCFailHandlerPtr rpcFail(bool (TReceiver::*onFail)(const RPCError &, mtpRequestId)) {
		return RPCFailHandlerPtr(new RPCFailHandlerOwnedReq<TReceiver>(static_cast<TReceiver*>(this), onFail));
	}

	template <typename TReceiver> // fail()
	RPCFailHandlerPtr rpcFail(bool (TReceiver::*onFail)()) {
		return RPCFailHandlerPtr(new RPCFailHandlerOwnedNo<TReceiver>(static_cast<TReceiver*>(this), onFail));
	}

	template <typename TReceiver> // fail(req_id)
	RPCFailHandlerPtr rpcFail(bool (TReceiver::*onFail)(mtpRequestId)) {
		return RPCFailHandlerPtr(new RPCFailHandlerOwnedNo<TReceiver>(static_cast<TReceiver*>(this), onFail));
	}

	template <typename T, typename TReturn, typename TReceiver> // done(b, from, end)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(T, const mtpPrime *, const mtpPrime *), T b) {
		return RPCDoneHandlerPtr(new RPCBindedDoneHandlerBareOwned<T, TReturn, TReceiver>(b, static_cast<TReceiver*>(this), onDone));
	}

	template <typename T, typename TReturn, typename TReceiver> // done(b, from, end, req_id)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(T, const mtpPrime *, const mtpPrime *, mtpRequestId), T b) {
		return RPCDoneHandlerPtr(new RPCBindedDoneHandlerBareOwnedReq<T, TReturn, TReceiver>(b, static_cast<TReceiver*>(this), onDone));
	}

	template <typename T, typename TReturn, typename TReceiver, typename TResponse> // done(b, result)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(T, const TResponse &), T b) {
		return RPCDoneHandlerPtr(new RPCBindedDoneHandlerOwned<T, TReturn, TReceiver, TResponse>(b, static_cast<TReceiver*>(this), onDone));
	}

	template <typename T, typename TReturn, typename TReceiver, typename TResponse> // done(b, result, req_id)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(T, const TResponse &, mtpRequestId), T b) {
		return RPCDoneHandlerPtr(new RPCBindedDoneHandlerOwnedReq<T, TReturn, TReceiver, TResponse>(b, static_cast<TReceiver*>(this), onDone));
	}

	template <typename T, typename TReturn, typename TReceiver> // done(b)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(T), T b) {
		return RPCDoneHandlerPtr(new RPCBindedDoneHandlerOwnedNo<T, TReturn, TReceiver>(b, static_cast<TReceiver*>(this), onDone));
	}

	template <typename T, typename TReturn, typename TReceiver> // done(b, req_id)
	RPCDoneHandlerPtr rpcDone(TReturn (TReceiver::*onDone)(T, mtpRequestId), T b) {
		return RPCDoneHandlerPtr(new RPCBindedDoneHandlerOwnedNoReq<T, TReturn, TReceiver>(b, static_cast<TReceiver*>(this), onDone));
	}

	template <typename T, typename TReceiver> // fail(b, error)
	RPCFailHandlerPtr rpcFail(bool (TReceiver::*onFail)(T, const RPCError &), T b) {
		return RPCFailHandlerPtr(new RPCBindedFailHandlerOwned<T, TReceiver>(b, static_cast<TReceiver*>(this), onFail));
	}

	template <typename T, typename TReceiver> // fail(b, error, req_id)
	RPCFailHandlerPtr rpcFail(bool (TReceiver::*onFail)(T, const RPCError &, mtpRequestId), T b) {
		return RPCFailHandlerPtr(new RPCBindedFailHandlerOwnedReq<T, TReceiver>(b, static_cast<TReceiver*>(this), onFail));
	}

	template <typename T, typename TReceiver> // fail(b)
	RPCFailHandlerPtr rpcFail(bool (TReceiver::*onFail)(T), T b) {
		return RPCFailHandlerPtr(new RPCBindedFailHandlerOwnedNo<T, TReceiver>(b, static_cast<TReceiver*>(this), onFail));
	}

	template <typename T, typename TReceiver> // fail(b, req_id)
	RPCFailHandlerPtr rpcFail(bool (TReceiver::*onFail)(T, mtpRequestId), T b) {
		return RPCFailHandlerPtr(new RPCBindedFailHandlerOwnedNo<T, TReceiver>(b, static_cast<TReceiver*>(this), onFail));
	}

	virtual void rpcClear() {
		rpcInvalidate();
	}

	virtual ~RPCSender() {
		rpcInvalidate();
	}

protected:
	void rpcInvalidate() {
		for (auto handler : base::take(_rpcDoneHandlers)) {
			handler->invalidate();
		}
		for (auto handler : base::take(_rpcFailHandlers)) {
			handler->invalidate();
		}
	}

};

using MTPStateChangedHandler = void (*)(int32 dcId, int32 state);
using MTPSessionResetHandler = void (*)(int32 dcId);

template <typename Base, typename FunctionType>
class RPCHandlerImplementation : public Base {
protected:
	using Lambda = base::lambda_once<FunctionType>;
	using Parent = RPCHandlerImplementation<Base, FunctionType>;

public:
	RPCHandlerImplementation(Lambda handler) : _handler(std::move(handler)) {
	}

protected:
	Lambda _handler;

};

template <typename FunctionType>
using RPCDoneHandlerImplementation = RPCHandlerImplementation<RPCAbstractDoneHandler, FunctionType>;

template <typename R>
class RPCDoneHandlerImplementationBare : public RPCDoneHandlerImplementation<R(const mtpPrime*, const mtpPrime*)> { // done(from, end)
public:
	using RPCDoneHandlerImplementation<R(const mtpPrime*, const mtpPrime*)>::Parent::Parent;
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		return this->_handler ? this->_handler(from, end) : void(0);
	}

};

template <typename R>
class RPCDoneHandlerImplementationBareReq : public RPCDoneHandlerImplementation<R(const mtpPrime*, const mtpPrime*, mtpRequestId)> { // done(from, end, req_id)
public:
	using RPCDoneHandlerImplementation<R(const mtpPrime*, const mtpPrime*, mtpRequestId)>::Parent::Parent;
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		return this->_handler ? this->_handler(from, end, requestId) : void(0);
	}

};

template <typename R, typename TResponse>
class RPCDoneHandlerImplementationPlain : public RPCDoneHandlerImplementation<R(const TResponse&)> { // done(result)
public:
	using RPCDoneHandlerImplementation<R(const TResponse&)>::Parent::Parent;
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (this->_handler) {
			auto response = TResponse();
			response.read(from, end);
			this->_handler(std::move(response));
		}
	}

};

template <typename R, typename TResponse>
class RPCDoneHandlerImplementationReq : public RPCDoneHandlerImplementation<R(const TResponse&, mtpRequestId)> { // done(result, req_id)
public:
	using RPCDoneHandlerImplementation<R(const TResponse&, mtpRequestId)>::Parent::Parent;
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		if (this->_handler) {
			auto response = TResponse();
			response.read(from, end);
			this->_handler(std::move(response), requestId);
		}
	}

};

template <typename R>
class RPCDoneHandlerImplementationNo : public RPCDoneHandlerImplementation<R()> { // done()
public:
	using RPCDoneHandlerImplementation<R()>::Parent::Parent;
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		return this->_handler ? this->_handler() : void(0);
	}

};

template <typename R>
class RPCDoneHandlerImplementationNoReq : public RPCDoneHandlerImplementation<R(mtpRequestId)> { // done(req_id)
public:
	using RPCDoneHandlerImplementation<R(mtpRequestId)>::Parent::Parent;
	void operator()(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) override {
		return this->_handler ? this->_handler(requestId) : void(0);
	}

};

template <typename R>
inline RPCDoneHandlerPtr rpcDone_lambda_wrap_helper(base::lambda_once<R(const mtpPrime*, const mtpPrime*)> lambda) {
	return RPCDoneHandlerPtr(new RPCDoneHandlerImplementationBare<R>(std::move(lambda)));
}

template <typename R>
inline RPCDoneHandlerPtr rpcDone_lambda_wrap_helper(base::lambda_once<R(const mtpPrime*, const mtpPrime*, mtpRequestId)> lambda) {
	return RPCDoneHandlerPtr(new RPCDoneHandlerImplementationBareReq<R>(std::move(lambda)));
}

template <typename R, typename T>
inline RPCDoneHandlerPtr rpcDone_lambda_wrap_helper(base::lambda_once<R(const T&)> lambda) {
	return RPCDoneHandlerPtr(new RPCDoneHandlerImplementationPlain<R, T>(std::move(lambda)));
}

template <typename R, typename T>
inline RPCDoneHandlerPtr rpcDone_lambda_wrap_helper(base::lambda_once<R(const T&, mtpRequestId)> lambda) {
	return RPCDoneHandlerPtr(new RPCDoneHandlerImplementationReq<R, T>(std::move(lambda)));
}

template <typename R>
inline RPCDoneHandlerPtr rpcDone_lambda_wrap_helper(base::lambda_once<R()> lambda) {
	return RPCDoneHandlerPtr(new RPCDoneHandlerImplementationNo<R>(std::move(lambda)));
}

template <typename R>
inline RPCDoneHandlerPtr rpcDone_lambda_wrap_helper(base::lambda_once<R(mtpRequestId)> lambda) {
	return RPCDoneHandlerPtr(new RPCDoneHandlerImplementationNoReq<R>(std::move(lambda)));
}

template <typename Lambda>
RPCDoneHandlerPtr rpcDone(Lambda lambda) {
	return rpcDone_lambda_wrap_helper(base::lambda_type<Lambda>(std::move(lambda)));
}

template <typename FunctionType>
using RPCFailHandlerImplementation = RPCHandlerImplementation<RPCAbstractFailHandler, FunctionType>;

class RPCFailHandlerImplementationPlain : public RPCFailHandlerImplementation<bool(const RPCError&)> { // fail(error)
public:
	using Parent::Parent;
	bool operator()(mtpRequestId requestId, const RPCError &error) override {
		return _handler ? _handler(error) : true;
	}

};

class RPCFailHandlerImplementationReq : public RPCFailHandlerImplementation<bool(const RPCError&, mtpRequestId)> { // fail(error, req_id)
public:
	using Parent::Parent;
	bool operator()(mtpRequestId requestId, const RPCError &error) override {
		return this->_handler ? this->_handler(error, requestId) : true;
	}

};

class RPCFailHandlerImplementationNo : public RPCFailHandlerImplementation<bool()> { // fail()
public:
	using Parent::Parent;
	bool operator()(mtpRequestId requestId, const RPCError &error) override {
		return this->_handler ? this->_handler() : true;
	}

};

class RPCFailHandlerImplementationNoReq : public RPCFailHandlerImplementation<bool(mtpRequestId)> { // fail(req_id)
public:
	using Parent::Parent;
	bool operator()(mtpRequestId requestId, const RPCError &error) override {
		return this->_handler ? this->_handler(requestId) : true;
	}

};

inline RPCFailHandlerPtr rpcFail_lambda_wrap_helper(base::lambda_once<bool(const RPCError&)> lambda) {
	return RPCFailHandlerPtr(new RPCFailHandlerImplementationPlain(std::move(lambda)));
}

inline RPCFailHandlerPtr rpcFail_lambda_wrap_helper(base::lambda_once<bool(const RPCError&, mtpRequestId)> lambda) {
	return RPCFailHandlerPtr(new RPCFailHandlerImplementationReq(std::move(lambda)));
}

inline RPCFailHandlerPtr rpcFail_lambda_wrap_helper(base::lambda_once<bool()> lambda) {
	return RPCFailHandlerPtr(new RPCFailHandlerImplementationNo(std::move(lambda)));
}

inline RPCFailHandlerPtr rpcFail_lambda_wrap_helper(base::lambda_once<bool(mtpRequestId)> lambda) {
	return RPCFailHandlerPtr(new RPCFailHandlerImplementationNoReq(std::move(lambda)));
}

template <typename Lambda>
RPCFailHandlerPtr rpcFail(Lambda lambda) {
	return rpcFail_lambda_wrap_helper(base::lambda_type<Lambda>(std::move(lambda)));
}