// 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. #include /// Residence of the events database instance pointer. decltype(ircd::m::dbs::events) ircd::m::dbs::events {}; /// Linkage for a cache of the columns of the events database which directly /// correspond to a property in the matrix event object. This array allows /// for constant time access to a column the same way one can make constant /// time access to a property in m::event. decltype(ircd::m::dbs::event_column) ircd::m::dbs::event_column {}; /// Linkage for a reference to the state_node column. decltype(ircd::m::dbs::state_node) ircd::m::dbs::state_node {}; /// Linkage for a reference to the room_events column decltype(ircd::m::dbs::room_events) ircd::m::dbs::room_events {}; /// Linkage for a reference to the room_origins column decltype(ircd::m::dbs::room_origins) ircd::m::dbs::room_origins {}; /// Linkage for a reference to the room_state column decltype(ircd::m::dbs::room_state) ircd::m::dbs::room_state {}; // // init // /// Initializes the m::dbs subsystem; sets up the events database. Held/called /// by m::init. Most of the extern variables in m::dbs are not ready until /// this call completes. ircd::m::dbs::init::init() { // Open the events database events = std::make_shared("events"s, ""s, desc::events); // Cache the columns for the event tuple in order for constant time lookup assert(event_columns == event::size()); std::array keys; //TODO: why did this happen? _key_transform(event{}, begin(keys), end(keys)); //TODO: how did this happen? for(size_t i(0); i < keys.size(); ++i) event_column[i] = db::column { *events, keys[i] }; // Cache the columns for the metadata state_node = db::column{*events, "_state_node"}; room_events = db::index{*events, "_room_events"}; room_origins = db::index{*events, "_room_origins"}; room_state = db::index{*events, "_room_state"}; } /// Shuts down the m::dbs subsystem; closes the events database. The extern /// variables in m::dbs will no longer be functioning after this call. ircd::m::dbs::init::~init() noexcept { // Columns should be unrefed before DB closes state_node = {}; room_events = {}; room_origins = {}; room_state = {}; for(auto &column : event_column) column = {}; // Unref DB (should close) events = {}; } namespace ircd::m::dbs { static void _index__room_state(db::txn &, const event &, const write_opts &); static void _index__room_events(db::txn &, const event &, const write_opts &, const string_view &); static void _index__room_origins(db::txn &, const event &, const write_opts &); static string_view _index_state(db::txn &, const event &, const write_opts &); static string_view _index_redact(db::txn &, const event &, const write_opts &); static string_view _index_ephem(db::txn &, const event &, const write_opts &); } ircd::string_view ircd::m::dbs::write(db::txn &txn, const event &event, const write_opts &opts) { db::txn::append { txn, at<"event_id"_>(event), event, event_column, opts.op }; if(defined(json::get<"state_key"_>(event))) return _index_state(txn, event, opts); if(at<"type"_>(event) == "m.room.redaction") return _index_redact(txn, event, opts); return _index_ephem(txn, event, opts); } ircd::string_view ircd::m::dbs::_index_ephem(db::txn &txn, const event &event, const write_opts &opts) { _index__room_events(txn, event, opts, opts.root_in); return opts.root_in; } ircd::string_view ircd::m::dbs::_index_redact(db::txn &txn, const event &event, const write_opts &opts) try { const auto &target_id { at<"redacts"_>(event) }; event::fetch target { target_id, std::nothrow }; if(unlikely(!target.valid(target_id))) log::error { "Redaction from '%s' missing redaction target '%s'", at<"event_id"_>(event), target_id }; if(!defined(json::get<"state_key"_>(target))) { _index__room_events(txn, event, opts, opts.root_in); return opts.root_in; } const string_view new_root { opts.root_in //state::remove(txn, state_root_out, state_root_in, target) }; _index__room_events(txn, event, opts, new_root); return new_root; } catch(const std::exception &e) { log::error { "Failed to update state from redaction: %s", e.what() }; throw; } ircd::string_view ircd::m::dbs::_index_state(db::txn &txn, const event &event, const write_opts &opts) try { const auto &type { at<"type"_>(event) }; const auto &room_id { at<"room_id"_>(event) }; const string_view &new_root { opts.op == db::op::SET && opts.history? state::insert(txn, opts.root_out, opts.root_in, event): opts.root_in }; _index__room_events(txn, event, opts, new_root); _index__room_origins(txn, event, opts); _index__room_state(txn, event, opts); return new_root; } catch(const std::exception &e) { log::error { "Failed to update state: %s", e.what() }; throw; } /// Adds the entry for the room_events column into the txn. /// You need find/create the right state_root before this. void ircd::m::dbs::_index__room_events(db::txn &txn, const event &event, const write_opts &opts, const string_view &new_root) { const ctx::critical_assertion ca; thread_local char buf[768]; const string_view &key { room_events_key(buf, at<"room_id"_>(event), at<"depth"_>(event), at<"event_id"_>(event)) }; db::txn::append { txn, room_events, { opts.op, // db::op key, // key new_root // val } }; } /// Adds the entry for the room_origins column into the txn. /// This only is affected if opts.present=true void ircd::m::dbs::_index__room_origins(db::txn &txn, const event &event, const write_opts &opts) { if(!opts.present) return; if(at<"type"_>(event) != "m.room.member") return; const ctx::critical_assertion ca; thread_local char buf[512]; const string_view &key { room_origins_key(buf, at<"room_id"_>(event), at<"origin"_>(event), at<"state_key"_>(event)) }; const string_view &membership { m::membership(event) }; assert(!empty(membership)); db::op op; if(opts.op == db::op::SET) switch(hash(membership)) { case hash("join"): op = db::op::SET; break; case hash("ban"): case hash("leave"): op = db::op::DELETE; break; default: return; } else if(opts.op == db::op::DELETE) op = opts.op; else return; db::txn::append { txn, room_origins, { op, key, } }; } /// Adds the entry for the room_origins column into the txn. /// This only is affected if opts.present=true void ircd::m::dbs::_index__room_state(db::txn &txn, const event &event, const write_opts &opts) { if(!opts.present) return; const ctx::critical_assertion ca; thread_local char buf[768]; const string_view &key { room_state_key(buf, at<"room_id"_>(event), at<"type"_>(event), at<"state_key"_>(event)) }; const string_view &val { at<"event_id"_>(event) }; const db::op op { opts.op == db::op::SET && at<"type"_>(event) != "m.room.redaction"? db::op::SET: db::op::DELETE }; db::txn::append { txn, room_state, { op, key, value_required(op)? val : string_view{}, } }; } ircd::string_view ircd::m::dbs::state_root(const mutable_buffer &out, const event &event) { return state_root(out, at<"room_id"_>(event), at<"event_id"_>(event), at<"depth"_>(event)); } ircd::string_view ircd::m::dbs::state_root(const mutable_buffer &out, const id::event &event_id) { static constexpr auto idx { json::indexof() }; auto &column { event_column.at(idx) }; id::room::buf room_id; column(event_id, [&room_id](const string_view &val) { room_id = val; }); return state_root(out, room_id, event_id); } ircd::string_view ircd::m::dbs::state_root(const mutable_buffer &out, const id::room &room_id, const id::event &event_id) { static constexpr auto idx { json::indexof() }; auto &column { event_column.at(idx) }; uint64_t depth; column(event_id, [&](const string_view &binary) { assert(size(binary) == sizeof(depth)); depth = byte_view(binary); }); return state_root(out, room_id, event_id, depth); } ircd::string_view ircd::m::dbs::state_root(const mutable_buffer &out, const id::room &room_id, const id::event &event_id, const uint64_t &depth) { char keybuf[768]; const auto key { room_events_key(keybuf, room_id, depth, event_id) }; string_view ret; room_events(key, [&out, &ret](const string_view &val) { ret = { data(out), copy(out, val) }; }); return ret; } // // Database descriptors // /// State nodes are pieces of the m::state:: b-tree. The key is the hash /// of the value, which serves as the ID of the node when referenced in /// the tree. see: m/state.h for details. /// const ircd::database::descriptor ircd::m::dbs::desc::events__state_node { // name "_state_node", // explanation R"(### developer note: )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator {}, // prefix transform {}, }; /// Prefix transform for the events__room_events. The prefix here is a room_id /// and the suffix is the depth+event_id concatenation. /// for efficient sequences /// const ircd::db::prefix_transform ircd::m::dbs::desc::events__room_events__pfx { "_room_events", [](const string_view &key) { return key.find("\0"_sv) != key.npos; }, [](const string_view &key) { return rsplit(key, "\0"_sv).first; } }; /// Comparator for the events__room_events. The goal here is to sort the /// events within a room by their depth from highest to lowest, so the /// highest depth is hit first when a room is sought from this column. /// const ircd::db::comparator ircd::m::dbs::desc::events__room_events__cmp { "_room_events", // less [](const string_view &a, const string_view &b) { static const auto &pt { events__room_events__pfx }; // Extract the prefix from the keys const string_view pre[2] { pt.get(a), pt.get(b), }; if(pre[0] != pre[1]) return pre[0] < pre[1]; // After the prefix is the depth + event_id const string_view post[2] { a.substr(size(pre[0])), b.substr(size(pre[1])), }; if(empty(post[0])) return true; if(empty(post[1])) return false; // Now want just the depth... const string_view depths[2] { between(post[0], "\0"_sv, "$"_sv), between(post[1], "\0"_sv, "$"_sv), }; // ...as machine words const int64_t depth[2] { lex_cast(depths[0]), lex_cast(depths[1]), }; // Highest to lowest sort so highest is first return depth[1] < depth[0]; }, // equal [](const string_view &a, const string_view &b) { return a == b; } }; ircd::string_view ircd::m::dbs::room_events_key(const mutable_buffer &out_, const id::room &room_id, const uint64_t &depth) { mutable_buffer out{out_}; consume(out, copy(out, room_id)); consume(out, copy(out, "\0"_sv)); consume(out, copy(out, lex_cast(depth))); return { data(out_), data(out) }; } ircd::string_view ircd::m::dbs::room_events_key(const mutable_buffer &out_, const id::room &room_id, const uint64_t &depth, const id::event &event_id) { mutable_buffer out{out_}; consume(out, copy(out, room_id)); consume(out, copy(out, "\0"_sv)); consume(out, copy(out, lex_cast(depth))); consume(out, copy(out, event_id)); return { data(out_), data(out) }; } std::tuple ircd::m::dbs::room_events_key(const string_view &amalgam) { const auto &key { lstrip(amalgam, "\0"_sv) }; const auto &s { split(key, "$"_sv) }; return { lex_cast(s.first), { end(s.first), end(s.second) } }; } /// This column stores events in sequence in a room. Consider the following: /// /// [room_id | depth + event_id => state_root] /// /// The key is composed from three parts: /// /// - `room_id` is the official prefix, bounding the sequence. That means we /// make a blind query with just a room_id and get to the beginning of the /// sequence, then iterate until we stop before the next room_id (upper bound). /// /// - `depth` is the ordering. Within the sequence, all elements are ordered by /// depth from HIGHEST TO LOWEST. The sequence will start at the highest depth. /// /// - `event_id` is the key suffix. This column serves to sequence all events /// within a room ordered by depth. There may be duplicate room_id|depth /// prefixing but the event_id suffix gives the key total uniqueness. /// /// The value is then used to store the node ID of the state tree root at this /// event. Nodes of the state tree are stored in the state_node column. From /// that root node the state of the room at the time of this event_id can be /// queried. /// /// There is one caveat here: we can't directly take a room_id and an event_id /// and make a trivial query to find the state root, since the depth number /// gets in the way. Rather than creating yet another column without the depth, /// for the time being, we pay the cost of an extra query to events_depth and /// find that missing piece to make the exact query with all three key parts. /// const ircd::database::descriptor ircd::m::dbs::desc::events__room_events { // name "_room_events", // explanation R"(### developer note: the prefix transform is in effect. this column indexes events by room_id offering an iterable bound of the index prefixed by room_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator events__room_events__cmp, // prefix transform events__room_events__pfx, }; // // origins sequential // /// Prefix transform for the events__room_origins /// const ircd::db::prefix_transform ircd::m::dbs::desc::events__room_origins__pfx { "_room_origins", [](const string_view &key) { return key.find("\0"_sv) != key.npos; }, [](const string_view &key) { return rsplit(key, "\0"_sv).first; } }; ircd::string_view ircd::m::dbs::room_origins_key(const mutable_buffer &out_, const id::room &room_id, const string_view &origin, const id::user &member) { mutable_buffer out{out_}; consume(out, copy(out, room_id)); consume(out, copy(out, "\0"_sv)); consume(out, copy(out, origin)); consume(out, copy(out, member)); return { data(out_), data(out) }; } std::tuple ircd::m::dbs::room_origins_key(const string_view &amalgam) { const auto &key { lstrip(amalgam, "\0"_sv) }; const auto &s { split(key, "@"_sv) }; return { { s.first }, { end(s.first), end(s.second) } }; } const ircd::database::descriptor ircd::m::dbs::desc::events__room_origins { // name "_room_origins", // explanation R"(### developer note: the prefix transform is in effect. this column indexes events by room_id offering an iterable bound of the index prefixed by room_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator {}, // prefix transform events__room_origins__pfx, }; // // state sequential // /// prefix transform for type,state_key in room_id /// /// This transform is special for concatenating room_id with type and state_key /// in that order with prefix being the room_id (this may change to room_id+ /// type /// const ircd::db::prefix_transform ircd::m::dbs::desc::events__room_state__pfx { "_room_state", [](const string_view &key) { return key.find("\0"_sv) != key.npos; }, [](const string_view &key) { return split(key, "\0"_sv).first; } }; ircd::string_view ircd::m::dbs::room_state_key(const mutable_buffer &out_, const id::room &room_id, const string_view &type, const string_view &state_key) { mutable_buffer out{out_}; consume(out, copy(out, room_id)); consume(out, copy(out, "\0"_sv)); consume(out, copy(out, type)); consume(out, copy(out, "\0"_sv)); consume(out, copy(out, state_key)); return { data(out_), data(out) }; } ircd::string_view ircd::m::dbs::room_state_key(const mutable_buffer &out_, const id::room &room_id, const string_view &type) { mutable_buffer out{out_}; consume(out, copy(out, room_id)); consume(out, copy(out, "\0"_sv)); consume(out, copy(out, type)); return { data(out_), data(out) }; } std::tuple ircd::m::dbs::room_state_key(const string_view &amalgam) { const auto &key { lstrip(amalgam, "\0"_sv) }; const auto &s { split(key, "\0"_sv) }; return { s.first, s.second }; } const ircd::database::descriptor ircd::m::dbs::desc::events__room_state { // name "_room_state", // explanation R"(### developer note: )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator {}, // prefix transform events__room_state__pfx, }; // // Direct column descriptors // const ircd::database::descriptor ircd::m::dbs::desc::events_event_id { // name "event_id", // explanation R"(### protocol note: 10.1 The id of event. 10.4 MUST NOT exceed 255 bytes. ### developer note: key is event_id. This is redundant data but we have to have it for now. )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_type { // name "type", // explanation R"(### protocol note: 10.1 The type of event. This SHOULD be namespaced similar to Java package naming conventions e.g. 'com.example.subdomain.event.type'. 10.4 MUST NOT exceed 255 bytes. ### developer note: key is event_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_content { // name "content", // explanation R"(### protocol note: 10.1 The fields in this object will vary depending on the type of event. When interacting with the REST API, this is the HTTP body. ### developer note: Since events must not exceed 64 KiB the maximum size for the content is the remaining space after all the other fields for the event are rendered. key is event_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_redacts { // name "redacts", // explanation R"(### protocol note: ### developer note: key is event_id value is targeted event_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_room_id { // name "room_id", // explanation R"(### protocol note: 10.2 (apropos room events) Required. The ID of the room associated with this event. 10.4 MUST NOT exceed 255 bytes. ### developer note: key is event_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_sender { // name "sender", // explanation R"(### protocol note: 10.2 (apropos room events) Required. Contains the fully-qualified ID of the user who sent this event. 10.4 MUST NOT exceed 255 bytes. ### developer note: key is event_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_state_key { // name "state_key", // explanation R"(### protocol note: 10.3 (apropos room state events) A unique key which defines the overwriting semantics for this piece of room state. This value is often a zero-length string. The presence of this key makes this event a State Event. The key MUST NOT start with '_'. 10.4 MUST NOT exceed 255 bytes. ### developer note: key is event_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_origin { // name "origin", // explanation R"(### protocol note: FEDERATION 4.1 DNS name of homeserver that created this PDU ### developer note: key is event_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_origin_server_ts { // name "origin_server_ts", // explanation R"(### protocol note: FEDERATION 4.1 Timestamp in milliseconds on origin homeserver when this PDU was created. ### developer note: key is event_id value is a machine integer (binary) TODO: consider unsigned rather than time_t because of millisecond precision )", // typing (key, value) { typeid(ircd::string_view), typeid(time_t) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_signatures { // name "signatures", // explanation R"(### protocol note: ### developer note: key is event_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_auth_events { // name "auth_events", // explanation R"(### protocol note: ### developer note: key is event_id. )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_depth { // name "depth", // explanation R"(### protocol note: ### developer note: key is event_id value is long integer )", // typing (key, value) { typeid(ircd::string_view), typeid(int64_t) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_hashes { // name "hashes", // explanation R"(### protocol note: ### developer note: key is event_id. )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_membership { // name "membership", // explanation R"(### protocol note: ### developer note: key is event_id. )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_prev_events { // name "prev_events", // explanation R"(### protocol note: ### developer note: key is event_id. )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; const ircd::database::descriptor ircd::m::dbs::desc::events_prev_state { // name "prev_state", // explanation R"(### protocol note: ### developer note: key is event_id. )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) } }; /* const ircd::database::descriptor event_id_in_sender { // name "event_id in sender", // explanation R"(### developer note: key is "@sender$event_id" the prefix transform is in effect. this column indexes events by sender offering an iterable bound of the index prefixed by sender )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator {}, // prefix transform event_id_in, }; /// prefix transform for origin in /// /// This transform expects a concatenation ending with an origin which means /// the prefix can be the same for multiple origins; therefor we can find /// or iterate "origin in X" where X is some repeated prefix /// /// TODO: strings will have character conflicts. must address const ircd::db::prefix_transform origin_in { "origin in", [](const ircd::string_view &key) { return has(key, ":::"); //return key.find(':') != key.npos; }, [](const ircd::string_view &key) { return split(key, ":::").first; //return rsplit(key, ':').first; } }; const ircd::database::descriptor origin_in_room_id { // name "origin in room_id", // explanation R"(### developer note: key is "!room_id:origin" the prefix transform is in effect. this column indexes origins in a room_id offering an iterable bound of the index prefixed by room_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator - sorts from highest to lowest {}, //ircd::db::reverse_cmp_string_view{}, // prefix transform origin_in, }; const ircd::database::descriptor origin_joined_in_room_id { // name "origin_joined in room_id", // explanation R"(### developer note: key is "!room_id:origin" the prefix transform is in effect. this column indexes origins in a room_id offering an iterable bound of the index prefixed by room_id )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator - sorts from highest to lowest {}, //ircd::db::reverse_cmp_string_view{}, // prefix transform origin_in, }; /// prefix transform for room_id /// /// This transform expects a concatenation ending with a room_id which means /// the prefix can be the same for multiple room_id's; therefor we can find /// or iterate "room_id in X" where X is some repeated prefix /// const ircd::db::prefix_transform room_id_in { "room_id in", [](const ircd::string_view &key) { return key.find('!') != key.npos; }, [](const ircd::string_view &key) { return rsplit(key, '!').first; } }; const ircd::database::descriptor prev_event_id_for_event_id_in_room_id { // name "prev_event_id for event_id in room_id", // explanation R"(### developer note: )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator {}, // prefix transform event_id_in }; /// prefix transform for event_id in room_id,type,state_key /// /// This transform is special for concatenating room_id with type and state_key /// and event_id in that order with prefix being the room_id,type,state_key. This /// will index multiple event_ids with the same type,state_key in a room which /// allows for a temporal depth to the database; event_id for type,state_key only /// resolves to a single latest event and overwrites itself as per the room state /// algorithm whereas this can map all of them and then allows for tracing. /// /// TODO: arbitrary type strings will have character conflicts. must address /// TODO: with grammars. const ircd::db::prefix_transform event_id_in_room_id_type_state_key { "event_id in room_id,type_state_key", [](const ircd::string_view &key) { return has(key, '$'); }, [](const ircd::string_view &key) { return split(key, '$').first; } }; const ircd::database::descriptor prev_event_id_for_type_state_key_event_id_in_room_id { // name "prev_event_id for type,state_key,event_id in room_id", // explanation R"(### developer note: )", // typing (key, value) { typeid(ircd::string_view), typeid(ircd::string_view) }, // options {}, // comparator {}, // prefix transform event_id_in_room_id_type_state_key }; */ const ircd::database::description ircd::m::dbs::desc::events { // Requirement of RocksDB/LevelDB { "default" }, //////// // // These columns directly represent event fields indexed by event_id and // the value is the actual event values. Some values may be JSON, like // content. // events_auth_events, events_content, events_depth, events_event_id, events_hashes, events_membership, events_origin, events_origin_server_ts, events_prev_events, events_prev_state, events_redacts, events_room_id, events_sender, events_signatures, events_state_key, events_type, //////// // // These columns are metadata composed from the event data. Specifically, // they are designed for fast sequential iterations. // // (room_id, event_id) => (state_root) // Sequence of all events for a room, ever. events__room_events, // (room_id, origin) => () // Sequence of all PRESENTLY JOINED origins for a room. events__room_origins, // (room_id, type, state_key) => (event_id) // Sequence of the PRESENT STATE of the room. events__room_state, //////// // // Other columns // // (state tree node id) => (state tree node) events__state_node, };