// Matrix Construct // // Copyright (C) Matrix Construct Developers, Authors & Contributors // Copyright (C) 2016-2018 Jason Volk // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice is present in all copies. The // full license for this software is available in the LICENSE file. namespace ircd::m::sync { static bool room_state_append(data &, json::stack::array &, const m::event &, const m::event::idx &); static bool room_state_phased_member_events(data &, json::stack::array &); static bool room_state_phased_events(data &); static bool room_state_polylog_events(data &); static bool _room_state_polylog(data &); static bool room_state_polylog(data &); static bool room_invite_state_polylog(data &); static bool room_state_linear_events(data &); static bool room_invite_state_linear(data &); static bool room_state_linear(data &); extern conf::item state_exposure_depth; //TODO: XXX extern const event::keys::include _default_keys; extern event::fetch::opts _default_fopts; extern item room_invite_state; extern item room_state; } ircd::mapi::header IRCD_MODULE { "Client Sync :Room State", [] { ircd::m::sync::_default_fopts.query_json_force = true; } }; decltype(ircd::m::sync::room_state) ircd::m::sync::room_state { "rooms.state", room_state_polylog, room_state_linear, { { "phased", true }, } }; decltype(ircd::m::sync::room_invite_state) ircd::m::sync::room_invite_state { "rooms.invite_state", room_invite_state_polylog, room_invite_state_linear, { { "phased", true }, } }; decltype(ircd::m::sync::_default_keys) ircd::m::sync::_default_keys { "content", "depth", "event_id", "origin_server_ts", "redacts", "room_id", "sender", "state_key", "type", }; decltype(ircd::m::sync::_default_fopts) ircd::m::sync::_default_fopts { _default_keys }; bool ircd::m::sync::room_state_linear(data &data) { if(data.membership == "invite") return false; return room_state_linear_events(data); } bool ircd::m::sync::room_invite_state_linear(data &data) { if(data.membership != "invite") return false; return room_state_linear_events(data); } //TODO: This has to be merged into the timeline conf items decltype(ircd::m::sync::state_exposure_depth) ircd::m::sync::state_exposure_depth { { "name", "ircd.client.sync.rooms.state.exposure.depth" }, { "default", 20L }, }; bool ircd::m::sync::room_state_linear_events(data &data) { if(!data.event_idx) return false; if(!data.room) return false; if(!data.membership) return false; assert(data.event); if(!json::get<"state_key"_>(*data.event)) return false; // Figure out whether the event was included in the timeline or whether // to include it here in the state, which comes before the timeline. // Since linear-sync is already distinct from polylog-sync, the // overwhelming majority of state events coming through linear-sync will // use the timeline. We make an exception for past state events the server // only recently obtained, to hide them from the timeline. if(int64_t(state_exposure_depth) > -1) if(data.membership != "invite") if(json::get<"depth"_>(*data.event) + int64_t(state_exposure_depth) >= data.room_depth) return false; json::stack::object rooms { *data.out, "rooms" }; json::stack::object membership_ { *data.out, data.membership }; json::stack::object room_ { *data.out, data.room->room_id }; const auto &state_member_name { data.membership == "invite"? "invite_state": // "invite_state"_sv: "state" }; json::stack::object state { *data.out, state_member_name }; json::stack::array array { *data.out, "events" }; // Branch for supplying state to the client after its user's invite // is processed. At this point the client has not received prior room // state in /sync. if(data.membership == "invite" && json::get<"type"_>(*data.event) == "m.room.member" && json::get<"state_key"_>(*data.event) == data.user.user_id) { const auto append{[&] (const m::event &event) { room_state_append(data, array, event, index(event)); }}; const m::room::state state{*data.room}; state.get(std::nothrow, "m.room.create", "", append); state.get(std::nothrow, "m.room.join_rules", "", append); state.get(std::nothrow, "m.room.history_visibility", "", append); state.get(std::nothrow, "m.room.avatar", "", append); const auto &sender(json::get<"sender"_>(*data.event)); state.get(std::nothrow, "m.room.member", sender, append); } room_state_append(data, array, *data.event, data.event_idx); return true; } bool ircd::m::sync::room_state_polylog(data &data) { if(data.membership == "invite") return false; return _room_state_polylog(data); } bool ircd::m::sync::room_invite_state_polylog(data &data) { if(data.membership != "invite") return false; return _room_state_polylog(data); } bool ircd::m::sync::_room_state_polylog(data &data) { if(!apropos(data, data.room_head)) return false; return room_state_polylog_events(data); } bool ircd::m::sync::room_state_polylog_events(data &data) { if(data.phased && data.range.first == 0) return room_state_phased_events(data); bool ret{false}; ctx::mutex mutex; json::stack::array array { *data.out, "events" }; sync::pool.min(64); //TODO: XXX ctx::concurrent concurrent { sync::pool, [&](const event::idx &event_idx) { const m::event::fetch event { event_idx, std::nothrow, _default_fopts }; if(unlikely(!event.valid)) { log::error { log, "Failed to fetch event idx:%lu in room %s state.", event_idx, string_view{data.room->room_id}, }; return; } const std::lock_guard lock{mutex}; ret |= room_state_append(data, array, event, event_idx); } }; const room::state state{*data.room}; state.for_each([&data, &concurrent] (const event::idx &event_idx) { if(!apropos(data, event_idx)) return; concurrent(event_idx); }); concurrent.wait(); return ret; } bool ircd::m::sync::room_state_phased_events(data &data) { bool ret{false}; ctx::mutex mutex; json::stack::array array { *data.out, "events" }; static const std::pair keys[] { { "m.room.create", "" }, { "m.room.canonical_alias", "" }, { "m.room.name", "" }, { "m.room.avatar", "" }, { "m.room.aliases", data.user.user_id.host() }, { "m.room.member", data.user.user_id }, }; const auto append { [&data, &array, &ret, &mutex](const m::event &event) { const auto event_idx(m::index(event)); const std::lock_guard lock{mutex}; ret |= room_state_append(data, array, event, event_idx); } }; sync::pool.min(6); ctx::concurrent_for_each> { sync::pool, keys, [&data, &append](const auto &key) { data.room->get(std::nothrow, key.first, key.second, append); } }; ret |= room_state_phased_member_events(data, array); return ret; } bool ircd::m::sync::room_state_phased_member_events(data &data, json::stack::array &array) { static const auto count{10}, bufsz{48}, limit{10}; std::array buf; std::array last; size_t i(0), ret(0); m::room::messages it { *data.room }; const auto already{[&last, &ret] (const string_view &sender) -> bool { return std::any_of(begin(last), begin(last)+ret, [&sender] (const auto &last) { return startswith(last, sender); }); }}; for(; it && ret < count && i < limit; --it, ++i) { const auto &event_idx(it.event_idx()); m::get(std::nothrow, event_idx, "sender", [&] (const auto &sender) { if(already(sender)) return; const m::event::fetch event { event_idx, std::nothrow }; if(!event.valid) return; last.at(ret) = strlcpy(buf.at(ret), sender); room_state_append(data, array, event, event_idx); ++ret; }); }; return ret; } bool ircd::m::sync::room_state_append(data &data, json::stack::array &events, const m::event &event, const m::event::idx &event_idx) { m::event_append_opts opts; opts.event_idx = &event_idx; opts.user_id = &data.user.user_id; opts.user_room = &data.user_room; opts.query_txnid = false; opts.room_depth = &data.room_depth; return m::append(events, event, opts); }