mirror of
https://github.com/matrix-construct/construct
synced 2024-11-05 05:18:54 +01:00
657 lines
14 KiB
C++
657 lines
14 KiB
C++
// Matrix Construct
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//
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// Copyright (C) Matrix Construct Developers, Authors & Contributors
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// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
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//
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// Permission to use, copy, modify, and/or distribute this software for any
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// purpose with or without fee is hereby granted, provided that the above
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// copyright notice and this permission notice is present in all copies. The
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// full license for this software is available in the LICENSE file.
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using namespace ircd;
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const auto sync_description
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{R"(
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6.2.1
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Synchronise the client's state with the latest state on the server. Clients
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use this API when they first log in to get an initial snapshot of the state
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on the server, and then continue to call this API to get incremental deltas
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to the state, and to receive new messages.
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)"};
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resource sync_resource
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{
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"/_matrix/client/r0/sync",
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{
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sync_description
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}
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};
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void longpoll(client &client, const resource::request &request, const steady_point &timeout);
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void synchronizer_worker();
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ircd::context synchronizer_context
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{
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"synchronizer",
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256_KiB,
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&synchronizer_worker,
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ircd::context::POST,
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};
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void synchronizer_timeout_worker();
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ircd::context synchronizer_timeout_context
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{
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"synchronizer",
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256_KiB,
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&synchronizer_timeout_worker,
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ircd::context::POST,
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};
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const auto on_unload{[]
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{
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synchronizer_context.interrupt();
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synchronizer_timeout_context.interrupt();
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synchronizer_context.join();
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synchronizer_timeout_context.join();
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}};
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mapi::header
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IRCD_MODULE
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{
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"Client 6.2.1 :Sync",
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nullptr,
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on_unload
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};
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resource::response
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initial_sync(client &client,
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const resource::request &request,
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const string_view &filter_id,
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const bool &full_state,
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const string_view &set_presence);
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resource::response
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sync(client &client,
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const resource::request &request)
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{
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// 6.2.1 The ID of a filter created using the filter API or a filter JSON object
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// encoded as a string. The server will detect whether it is an ID or a JSON object
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// by whether the first character is a "{" open brace. Passing the JSON inline is best
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// suited to one off requests. Creating a filter using the filter API is recommended
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// for clients that reuse the same filter multiple times, for example in long poll requests.
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const auto filter_id
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{
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request.query["filter"]
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};
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// 6.2.1 A point in time to continue a sync from.
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const auto since
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{
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request.query["since"]
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};
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// 6.2.1 Controls whether to include the full state for all rooms the user is a member of.
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// If this is set to true, then all state events will be returned, even if since is non-empty.
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// The timeline will still be limited by the since parameter. In this case, the timeout
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// parameter will be ignored and the query will return immediately, possibly with an
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// empty timeline. If false, and since is non-empty, only state which has changed since
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// the point indicated by since will be returned. By default, this is false.
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const bool full_state
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{
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request.query["full_state"] == "true"
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};
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// 6.2.1 Controls whether the client is automatically marked as online by polling this API.
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// If this parameter is omitted then the client is automatically marked as online when it
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// uses this API. Otherwise if the parameter is set to "offline" then the client is not
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// marked as being online when it uses this API. One of: ["offline"]
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const string_view set_presence
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{
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request.query["set_presence"]
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};
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// Start a new spool for client
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if(!since)
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return initial_sync(client, request, filter_id, full_state, set_presence);
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// The ircd.tape.head
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int64_t sequence{0};
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//TODO: user's room
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if(!m::user::tokens.get(std::nothrow, "ircd.tape.head"_sv, request.access_token, [&sequence]
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(const m::event &event)
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{
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const json::object &content
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{
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at<"content"_>(event)
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};
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sequence = content.at<int64_t>("sequence");
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}))
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throw m::NOT_FOUND{"since parameter invalid"};
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// 6.2.1 The maximum time to poll in milliseconds before returning this request.
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const int64_t timeout_requested
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{
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request.query["timeout"]? lex_cast<int64_t>(request.query.at("timeout")) : 0L
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};
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const auto timeout_at
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{
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now<steady_point>() +
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milliseconds(timeout_requested? std::max(timeout_requested, 3000L) : 30000L)
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};
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longpoll(client, request, timeout_at);
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// This handler returns no response. As long as this handler doesn't throw
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// an exception IRCd will keep the client alive.
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return {};
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}
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resource::method get_sync
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{
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sync_resource, "GET", sync,
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{
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get_sync.REQUIRES_AUTH
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}
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};
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/// Input
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///
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///
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struct syncpoll
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{
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static std::list<syncpoll> polling;
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static std::multimap<steady_point, decltype(polling)::iterator> pollout;
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std::string user_id;
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std::string since;
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std::string access_token; // can get rid of this and use some session id
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std::weak_ptr<ircd::client> client;
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decltype(pollout)::iterator it { std::end(pollout) };
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};
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decltype(syncpoll::polling) syncpoll::polling {};
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decltype(syncpoll::pollout) syncpoll::pollout {};
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void
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longpoll(client &client,
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const resource::request &request,
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const steady_point &timeout)
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{
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static auto &polling{syncpoll::polling};
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static auto &pollout{syncpoll::pollout};
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const auto it
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{
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polling.emplace(polling.end(), syncpoll
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{
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std::string{request.user_id},
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std::string{request.query.at("since")},
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std::string{request.access_token}, //TODO: nope.
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weak_from(client)
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})
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};
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syncpoll &data
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{
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*it
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};
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data.it = pollout.emplace(timeout, it);
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if(pollout.size() == 1)
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notify(synchronizer_timeout_context);
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client.longpoll = true;
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}
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//
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// Timeout worker stack
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//
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void synchronizer_timeout(const syncpoll &sp);
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/// This function is the base of an ircd::context which yields until a client
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/// is due to timeout. This worker reaps timed out clients from the lists.
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void
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synchronizer_timeout_worker()
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try
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{
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static auto &polling{syncpoll::polling};
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static auto &pollout{syncpoll::pollout};
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while(1)
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{
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while(!pollout.empty())
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{
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const auto &timeout{std::begin(pollout)->first};
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const auto &iterator{std::begin(pollout)->second};
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if(timeout > now<steady_point>())
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{
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ctx::wait_until<std::nothrow_t>(timeout);
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continue;
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}
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const auto &data{*iterator};
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synchronizer_timeout(data);
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polling.erase(iterator);
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pollout.erase(std::begin(pollout));
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}
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while(pollout.empty())
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ctx::wait();
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}
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}
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catch(const ircd::ctx::interrupted &e)
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{
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ircd::log::debug("Synchronizer timeout worker interrupted");
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}
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///
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/// TODO: The http error response should not yield this context. If the sendq
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/// TODO: is backed up the client should be dc'ed.
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void
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synchronizer_timeout(const syncpoll &sp)
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try
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{
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const life_guard<client> client
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{
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sp.client
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};
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resource::response
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{
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*client, http::REQUEST_TIMEOUT
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};
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client->longpoll = false;
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client->async();
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}
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catch(const std::exception &e)
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{
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log::error("synchronizer_timeout(): %s", e.what());
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}
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//
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// Main worker stack
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//
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bool update_sync(const syncpoll &data, const m::event &event, const m::room &);
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void synchronize(const m::event &, const m::room::id &);
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void synchronize(const m::event &);
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void
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synchronizer_worker()
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{
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while(1) try
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{
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std::unique_lock<decltype(m::vm::inserted)> lock
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{
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m::vm::inserted
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};
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// reference to the event on the inserter's stack
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const auto &event
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{
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m::vm::inserted.wait(lock)
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};
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if(!syncpoll::polling.empty())
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synchronize(event);
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}
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catch(const ircd::ctx::interrupted &e)
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{
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ircd::log::debug("Synchronizer worker interrupted");
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return;
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}
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catch(const timeout &e)
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{
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ircd::log::debug("Synchronizer worker: %s", e.what());
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}
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catch(const std::exception &e)
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{
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ircd::log::error("Synchronizer worker: %s", e.what());
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}
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}
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void
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synchronize(const m::event &event)
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{
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const auto &room_id
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{
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json::get<"room_id"_>(event)
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};
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if(room_id)
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{
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synchronize(event, room_id);
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return;
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}
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assert(0);
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}
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void
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synchronize(const m::event &event,
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const m::room::id &room_id)
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{
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static auto &polling{syncpoll::polling};
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static auto &pollout{syncpoll::pollout};
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const m::room room
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{
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room_id
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};
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for(auto it(std::begin(polling)); it != std::end(polling);)
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{
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const auto &data{*it};
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if(!room.membership(data.user_id))
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{
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++it;
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continue;
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}
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if(update_sync(data, event, room))
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{
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pollout.erase(data.it);
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polling.erase(it++);
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}
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else ++it;
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}
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}
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std::string
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update_sync_room(client &client,
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const m::room &room,
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const string_view &since,
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const m::event &event)
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{
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std::vector<std::string> state;
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if(defined(json::get<"state_key"_>(event)))
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state.emplace_back(json::strung(event));
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const json::strung state_serial
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{
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state.data(), state.data() + state.size()
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};
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std::vector<std::string> timeline;
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if(!defined(json::get<"state_key"_>(event)))
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timeline.emplace_back(json::strung(event));
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const json::strung timeline_serial
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{
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timeline.data(), timeline.data() + timeline.size()
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};
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std::vector<std::string> ephemeral;
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const json::strung ephemeral_serial
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{
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ephemeral.data(), ephemeral.data() + ephemeral.size()
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};
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const json::members body
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{
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{ "account_data", json::members{} },
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{ "unread_notifications",
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{
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{ "highlight_count", int64_t(0) },
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{ "notification_count", int64_t(0) },
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}},
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{ "ephemeral",
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{
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{ "events", ephemeral_serial },
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}},
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{ "state",
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{
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{ "events", state_serial }
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}},
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{ "timeline",
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{
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{ "events", timeline_serial },
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{ "prev_batch", int64_t(m::vm::current_sequence) }, //TODO: XXX
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{ "limited", false }, //TODO: XXX
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}},
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};
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return json::strung(body);
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}
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std::string
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update_sync_rooms(client &client,
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const m::user::id &user_id,
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const m::room &room,
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const string_view &since,
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const m::event &event)
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{
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std::vector<std::string> r[3];
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std::vector<json::member> m[3];
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r[0].emplace_back(update_sync_room(client, room, since, event));
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m[0].emplace_back(room.room_id, r[0].back());
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const std::string join{json::strung(m[0].data(), m[0].data() + m[0].size())};
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const std::string leave{json::strung(m[1].data(), m[1].data() + m[1].size())};
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const std::string invite{json::strung(m[2].data(), m[2].data() + m[2].size())};
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return json::strung(json::members
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{
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{ "join", join },
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{ "leave", leave },
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{ "invite", invite },
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});
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}
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bool
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update_sync(const syncpoll &data,
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const m::event &event,
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const m::room &room)
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try
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{
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const life_guard<client> client
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{
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data.client
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};
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const auto rooms
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{
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update_sync_rooms(*client, data.user_id, room, data.since, event)
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};
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const auto presence
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{
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"{}"
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};
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const int64_t &next_batch
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{
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m::vm::current_sequence
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};
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resource::response
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{
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*client, json::members
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{
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{ "next_batch", next_batch },
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{ "rooms", rooms },
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{ "presence", presence },
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}
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};
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client->longpoll = false;
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client->async();
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return true;
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}
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catch(const std::bad_weak_ptr &e)
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{
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return true;
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}
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std::string
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initial_sync_room(client &client,
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const resource::request &request,
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const m::room &room,
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const bool &full_state)
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{
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std::vector<std::string> state;
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{
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const m::room::state state_
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{
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room
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};
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state_.for_each([&state](const m::event &event)
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{
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state.emplace_back(json::strung(event));
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});
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}
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const auto state_serial
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{
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json::strung(state.data(), state.data() + state.size())
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};
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std::vector<std::string> timeline;
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{
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const m::room::messages timeline_
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{
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room
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};
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timeline_.test([&timeline](const m::event &event)
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{
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timeline.emplace_back(json::strung(event));
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return timeline.size() >= 10;
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});
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}
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const auto timeline_serial
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{
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json::strung(timeline.data(), timeline.data() + timeline.size())
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};
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std::vector<std::string> ephemeral;
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const json::strung ephemeral_serial
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{
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ephemeral.data(), ephemeral.data() + ephemeral.size()
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};
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const json::members body
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{
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{ "account_data", json::members{} },
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{ "unread_notifications",
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{
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{ "highlight_count", int64_t(0) },
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{ "notification_count", int64_t(0) },
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}},
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{ "ephemeral",
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{
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{ "events", ephemeral_serial },
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}},
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{ "state",
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{
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{ "events", state_serial }
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}},
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{ "timeline",
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{
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{ "events", timeline_serial },
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{ "prev_batch", int64_t(m::vm::current_sequence) }, //TODO: XXX
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{ "limited", false }, //TODO: XXX
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}},
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};
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return json::strung(body);
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}
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std::string
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initial_sync_rooms(client &client,
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const resource::request &request,
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const string_view &filter_id,
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const bool &full_state)
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{
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m::user user{request.user_id};
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const auto user_room_id{user.room_id()};
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m::room::state user_state{user_room_id};
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std::array<std::vector<std::string>, 3> r;
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std::array<std::vector<json::member>, 3> m;
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// Get the rooms the user is a joined member in by iterating the state
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// events in the user's room.
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user_state.for_each("join", [&r, &m, &client, &request, &full_state]
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(const m::event &event)
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{
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const m::room::id &room_id{unquote(at<"state_key"_>(event))};
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const auto i
|
|
{
|
|
//membership == "join"? 0:
|
|
//membership == "leave"? 1:
|
|
//membership == "invite"? 2:
|
|
//-1
|
|
0
|
|
};
|
|
|
|
r.at(i).emplace_back(initial_sync_room(client, request, room_id, full_state));
|
|
m.at(i).emplace_back(room_id, r.at(i).back());
|
|
});
|
|
|
|
const std::string join{json::strung(m[0].data(), m[0].data() + m[0].size())};
|
|
const std::string leave{json::strung(m[1].data(), m[1].data() + m[1].size())};
|
|
const std::string invite{json::strung(m[2].data(), m[2].data() + m[2].size())};
|
|
return json::strung(json::members
|
|
{
|
|
{ "join", join },
|
|
{ "leave", leave },
|
|
{ "invite", invite },
|
|
});
|
|
}
|
|
|
|
resource::response
|
|
initial_sync(client &client,
|
|
const resource::request &request,
|
|
const string_view &filter_id,
|
|
const bool &full_state,
|
|
const string_view &set_presence)
|
|
{
|
|
const std::string rooms
|
|
{
|
|
initial_sync_rooms(client, request, filter_id, full_state)
|
|
};
|
|
|
|
const auto presence
|
|
{
|
|
"{}"
|
|
};
|
|
|
|
const int64_t &next_batch
|
|
{
|
|
m::vm::current_sequence
|
|
};
|
|
|
|
const auto &state_key
|
|
{
|
|
request.access_token
|
|
};
|
|
|
|
//TODO: user's room
|
|
m::send(m::user::tokens, request.user_id, "ircd.tape.head", state_key,
|
|
{
|
|
{ "sequence", next_batch }
|
|
});
|
|
|
|
return resource::response
|
|
{
|
|
client, json::members
|
|
{
|
|
{ "next_batch", next_batch },
|
|
{ "rooms", rooms },
|
|
{ "presence", presence },
|
|
}
|
|
};
|
|
}
|