mirror of
https://github.com/oxen-io/lokinet.git
synced 2024-11-17 15:25:35 +00:00
489 lines
14 KiB
C++
489 lines
14 KiB
C++
#pragma once
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#include "connection.hpp"
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#include <llarp/constants/path.hpp>
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#include <llarp/crypto/crypto.hpp>
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#include <llarp/messages/common.hpp>
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#include <llarp/path/transit_hop.hpp>
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#include <llarp/router_contact.hpp>
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#include <llarp/util/compare_ptr.hpp>
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#include <llarp/util/decaying_hashset.hpp>
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#include <llarp/util/logging.hpp>
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#include <llarp/util/priority_queue.hpp>
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#include <quic.hpp>
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#include <atomic>
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#include <set>
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#include <unordered_map>
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namespace
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{
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static auto quic_cat = llarp::log::Cat("lokinet.quic");
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} // namespace
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namespace llarp
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{
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struct LinkManager;
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class NodeDB;
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using conn_open_hook = oxen::quic::connection_established_callback;
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using conn_closed_hook = oxen::quic::connection_closed_callback;
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using stream_open_hook = oxen::quic::stream_open_callback;
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using stream_closed_hook = oxen::quic::stream_close_callback;
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namespace link
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{
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struct Connection;
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struct Endpoint
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{
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Endpoint(std::shared_ptr<oxen::quic::Endpoint> ep, LinkManager& lm)
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: endpoint{std::move(ep)}, link_manager{lm}
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{}
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std::shared_ptr<oxen::quic::Endpoint> endpoint;
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LinkManager& link_manager;
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// for outgoing packets, we route via RouterID; map RouterID->Connection
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// for incoming packets, we get a ConnectionID; map ConnectionID->RouterID
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std::unordered_map<RouterID, std::shared_ptr<link::Connection>> conns;
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std::unordered_map<oxen::quic::ConnectionID, RouterID> connid_map;
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// TODO: see which of these is actually useful and delete the other
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std::shared_ptr<link::Connection>
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get_conn(const RemoteRC&) const;
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std::shared_ptr<link::Connection>
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get_conn(const RouterID&) const;
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bool
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have_conn(const RouterID& remote, bool client_only) const;
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bool
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deregister_peer(RouterID remote);
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size_t
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num_connected(bool clients_only) const;
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bool
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get_random_connection(RemoteRC& router) const;
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template <typename... Opt>
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bool
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establish_connection(
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const oxen::quic::RemoteAddress& remote, const RemoteRC& rc, Opt&&... opts);
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void
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for_each_connection(std::function<void(link::Connection&)> func);
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void
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close_connection(RouterID rid);
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private:
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};
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} // namespace link
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enum class SessionResult
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{
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Establish,
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Timeout,
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RouterNotFound,
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InvalidRouter,
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NoLink,
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EstablishFail
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};
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constexpr std::string_view
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ToString(SessionResult sr)
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{
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return sr == llarp::SessionResult::Establish ? "success"sv
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: sr == llarp::SessionResult::Timeout ? "timeout"sv
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: sr == llarp::SessionResult::NoLink ? "no link"sv
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: sr == llarp::SessionResult::InvalidRouter ? "invalid router"sv
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: sr == llarp::SessionResult::RouterNotFound ? "not found"sv
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: sr == llarp::SessionResult::EstablishFail ? "establish failed"sv
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: "???"sv;
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}
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template <>
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constexpr inline bool IsToStringFormattable<SessionResult> = true;
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struct PendingMessage
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{
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std::string body;
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RouterID rid;
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bool is_control{false};
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PendingMessage(std::string b, bool control = false) : body{std::move(b)}, is_control{control}
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{}
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};
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struct PendingDataMessage : PendingMessage
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{
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PendingDataMessage(std::string b) : PendingMessage(b)
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{}
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};
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struct PendingControlMessage : PendingMessage
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{
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std::string endpoint;
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std::function<void(oxen::quic::message)> func;
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PendingControlMessage(
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std::string b, std::string e, std::function<void(oxen::quic::message)> f = nullptr)
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: PendingMessage(b, true), endpoint{std::move(e)}, func{std::move(f)}
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{}
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};
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using MessageQueue = std::deque<PendingMessage>;
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struct Router;
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struct LinkManager
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{
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public:
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static std::unique_ptr<LinkManager>
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make(Router& r);
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bool
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send_control_message(
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const RouterID& remote,
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std::string endpoint,
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std::string body,
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std::function<void(oxen::quic::message)> = nullptr);
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bool
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send_data_message(const RouterID& remote, std::string data);
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Router&
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router() const
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{
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return _router;
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}
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private:
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explicit LinkManager(Router& r);
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bool
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send_control_message_impl(
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const RouterID& remote,
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std::string endpoint,
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std::string body,
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std::function<void(oxen::quic::message)> = nullptr);
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friend struct link::Endpoint;
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std::atomic<bool> is_stopping;
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// sessions to persist -> timestamp to end persist at
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std::unordered_map<RouterID, llarp_time_t> persisting_conns;
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// holds any messages we attempt to send while connections are establishing
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std::unordered_map<RouterID, MessageQueue> pending_conn_msg_queue;
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// when establishing a connection, the rid of the remote is placed here to be cross-
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// checked by the tls verification callback
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std::set<RouterID> rids_pending_verification;
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util::DecayingHashSet<RouterID> clients{path::DEFAULT_LIFETIME};
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std::shared_ptr<NodeDB> node_db;
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oxen::quic::Address addr;
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Router& _router;
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// FIXME: Lokinet currently expects to be able to kill all network functionality before
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// finishing other shutdown things, including destroying this class, and that is all in
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// Network's destructor, so we need to be able to destroy it before this class.
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std::unique_ptr<oxen::quic::Network> quic;
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std::shared_ptr<oxen::quic::GNUTLSCreds> tls_creds;
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link::Endpoint ep;
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void
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recv_data_message(oxen::quic::dgram_interface& dgi, bstring dgram);
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void
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recv_control_message(oxen::quic::message msg);
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void
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on_conn_open(oxen::quic::connection_interface& ci);
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void
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on_conn_closed(oxen::quic::connection_interface& ci, uint64_t ec);
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std::shared_ptr<oxen::quic::Endpoint>
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startup_endpoint();
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void
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register_commands(std::shared_ptr<oxen::quic::BTRequestStream>& s);
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public:
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const link::Endpoint&
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endpoint()
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{
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return ep;
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}
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const oxen::quic::Address&
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local()
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{
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return addr;
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}
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void
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gossip_rc(const RouterID& rc_rid, std::string serialized_rc);
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void
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handle_gossip_rc(oxen::quic::message m);
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void
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fetch_rcs(
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const RouterID& source,
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std::string payload,
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std::function<void(oxen::quic::message m)> func);
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void
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handle_fetch_rcs(oxen::quic::message m);
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void
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fetch_router_ids(
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const RouterID& via, std::string payload, std::function<void(oxen::quic::message m)> func);
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void
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handle_fetch_router_ids(oxen::quic::message m);
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void
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fetch_bootstrap_rcs(
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const RemoteRC& source,
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std::string payload,
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std::function<void(oxen::quic::message m)> func);
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void
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handle_fetch_bootstrap_rcs(oxen::quic::message m);
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bool
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have_connection_to(const RouterID& remote, bool client_only = false) const;
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bool
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have_client_connection_to(const RouterID& remote) const;
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void
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deregister_peer(RouterID remote);
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void
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test_reachability(const RouterID& rid, conn_open_hook, conn_closed_hook);
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void
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connect_to(const RouterID& router, conn_open_hook = nullptr);
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void
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connect_to(const RemoteRC& rc, conn_open_hook = nullptr, conn_closed_hook = nullptr);
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void
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close_connection(RouterID rid);
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void
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stop();
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void
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set_conn_persist(const RouterID& remote, llarp_time_t until);
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size_t
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get_num_connected(bool clients_only = false) const;
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size_t
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get_num_connected_clients() const;
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bool
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get_random_connected(RemoteRC& router) const;
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void
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check_persisting_conns(llarp_time_t now);
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util::StatusObject
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extract_status() const;
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void
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init();
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void
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for_each_connection(std::function<void(link::Connection&)> func);
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// Attempts to connect to a number of random routers.
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//
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// This will try to connect to *up to* num_conns routers, but will not
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// check if we already have a connection to any of the random set, as making
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// that thread safe would be slow...I think.
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void
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connect_to_random(int num_conns);
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/// always maintain this many client connections to other routers
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int client_router_connections = 4;
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private:
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// DHT messages
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void
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handle_find_name(std::string_view body, std::function<void(std::string)> respond); // relay
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void
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handle_find_intro(std::string_view body, std::function<void(std::string)> respond); // relay
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void
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handle_publish_intro(std::string_view body, std::function<void(std::string)> respond); // relay
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// Path messages
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void
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handle_path_build(oxen::quic::message, const RouterID& from); // relay
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void handle_path_latency(oxen::quic::message); // relay
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void handle_path_transfer(oxen::quic::message); // relay
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// Exit messages
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void handle_obtain_exit(oxen::quic::message); // relay
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void handle_update_exit(oxen::quic::message); // relay
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void handle_close_exit(oxen::quic::message); // relay
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// Misc
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void handle_convo_intro(oxen::quic::message);
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// These requests come over a path (as a "path_control" request),
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// may or may not need to make a request to another relay,
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// then respond (onioned) back along the path.
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std::unordered_map<
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std::string_view,
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void (LinkManager::*)(std::string_view body, std::function<void(std::string)> respond)>
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path_requests = {
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{"find_name"sv, &LinkManager::handle_find_name},
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{"publish_intro"sv, &LinkManager::handle_publish_intro},
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{"find_intro"sv, &LinkManager::handle_find_intro}};
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/*
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{"path_confirm", &LinkManager::handle_path_confirm},
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{"path_latency", &LinkManager::handle_path_latency},
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{"update_exit", &LinkManager::handle_update_exit},
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{"obtain_exit", &LinkManager::handle_obtain_exit},
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{"close_exit", &LinkManager::handle_close_exit},
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{"convo_intro", &LinkManager::handle_convo_intro}};
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*/
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// these requests are direct, i.e. not over a path;
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// the rest are relay->relay
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// TODO: new RC fetch endpoint (which will be both client->relay and relay->relay)
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std::unordered_map<
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std::string_view,
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void (LinkManager::*)(std::string_view body, std::function<void(std::string)> respond)>
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direct_requests = {
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{"publish_intro"sv, &LinkManager::handle_publish_intro},
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{"find_intro"sv, &LinkManager::handle_find_intro}};
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// Path relaying
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void
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handle_path_control(oxen::quic::message, const RouterID& from);
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void
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handle_inner_request(
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oxen::quic::message m, std::string payload, std::shared_ptr<path::TransitHop> hop);
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// DHT responses
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void handle_find_name_response(oxen::quic::message);
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void handle_find_intro_response(oxen::quic::message);
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void handle_publish_intro_response(oxen::quic::message);
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// Path responses
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void handle_path_latency_response(oxen::quic::message);
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void handle_path_transfer_response(oxen::quic::message);
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// Exit responses
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void handle_obtain_exit_response(oxen::quic::message);
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void handle_update_exit_response(oxen::quic::message);
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void handle_close_exit_response(oxen::quic::message);
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std::unordered_map<std::string, void (LinkManager::*)(oxen::quic::message)> rpc_responses = {
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{"find_name", &LinkManager::handle_find_name_response},
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{"publish_intro", &LinkManager::handle_publish_intro_response},
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{"find_intro", &LinkManager::handle_find_intro_response},
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{"update_exit", &LinkManager::handle_update_exit_response},
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{"obtain_exit", &LinkManager::handle_obtain_exit_response},
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{"close_exit", &LinkManager::handle_close_exit_response}};
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};
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namespace link
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{
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template <typename... Opt>
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bool
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Endpoint::establish_connection(
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const oxen::quic::RemoteAddress& remote, const RemoteRC& rc, Opt&&... opts)
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{
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try
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{
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auto conn_interface =
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endpoint->connect(remote, link_manager.tls_creds, std::forward<Opt>(opts)...);
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// emplace immediately for connection open callback to find scid
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connid_map.emplace(conn_interface->scid(), rc.router_id());
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auto [itr, b] = conns.emplace(rc.router_id(), nullptr);
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auto control_stream = conn_interface->template get_new_stream<oxen::quic::BTRequestStream>(
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[](oxen::quic::Stream& s, uint64_t error_code) {
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log::warning(
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logcat,
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"BTRequestStream closed unexpectedly (ec:{}); closing connection...",
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error_code);
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s.conn.close_connection(error_code);
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});
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itr->second = std::make_shared<link::Connection>(conn_interface, control_stream, rc);
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return true;
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}
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catch (...)
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{
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log::error(quic_cat, "Error: failed to establish connection to {}", remote);
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return false;
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}
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}
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} // namespace link
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} // namespace llarp
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/*
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- Refactor RouterID to use gnutls info and maybe ConnectionID
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- Combine routerID and connectionID to simplify mapping in llarp/link/endpoint.hpp
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- Combine llarp/link/session.hpp into llarp/link/connection.hpp::Connection
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- Combine llarp/link/server.hpp::ILinkLayer into llarp/link/endpoint.hpp::Endpoint
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- must maintain metadata storage, callbacks, etc
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- If: one endpoint for ipv4 and ipv6
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- Then: can potentially combine:
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- llarp/link/endpoint.hpp
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- llarp/link/link_manager.hpp
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- llarp/link/outbound_message_handler.hpp
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- llarp/link/outbound_session_maker.hpp
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-> Yields mega-combo endpoint managing object?
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- Can avoid "kitchen sink" by greatly reducing complexity of implementation
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llarp/router/outbound_message_handler.hpp
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- pendingsessionmessagequeue
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- establish queue of messages to be sent on a connection we are creating
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- upon creation, send these messages in the connection established callback
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- if connection times out, flush queue
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- TOCHECK: is priority used at all??
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std::unordered_map<std::string, void (llarp::link::LinkManager::*)(oxen::quic::message)>
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rpc_commands = {
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{"find_name", &handle_find_name},
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// ...
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};
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for (const auto& [name, mfn] : rpc_commands)
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bparser.add_command(name, [this, mfn] (oxen::quic::message m) {
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router->call([this, mfn, m=std::move(m)] mutable {
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try {
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std::invoke(mfn, this, std::move(m));
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} catch (const std::exception& e) {
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m.respond("Error: "s + e.what(), true);
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}
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});
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});
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*/
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