// 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. size_t ircd::m::room::purge(const room &room) { size_t ret(0); db::txn txn { *m::dbs::events }; room.for_each([&txn, &ret] (const m::event::idx &idx) { const m::event::fetch event { idx }; m::dbs::write_opts opts; opts.op = db::op::DELETE; opts.event_idx = idx; m::dbs::write(txn, event, opts); ++ret; }); txn(); return ret; } bool ircd::m::room::state::is(const event::idx &event_idx) { bool ret{false}; m::get(event_idx, "state_key", [&ret] (const string_view &state_key) { ret = true; }); return ret; } bool ircd::m::room::state::is(std::nothrow_t, const event::idx &event_idx) { bool ret{false}; m::get(std::nothrow, event_idx, "state_key", [&ret] (const string_view &state_key) { ret = true; }); return ret; } size_t ircd::m::room::state::purge_replaced(const state &state) { db::txn txn { *m::dbs::events }; size_t ret(0); m::room::messages it { state.room_id, uint64_t(0) }; if(!it) return ret; for(; it; ++it) { const m::event::idx &event_idx(it.event_idx()); if(!m::get(std::nothrow, event_idx, "state_key", [](const auto &) {})) continue; if(!m::event::refs(event_idx).count(m::dbs::ref::NEXT_STATE)) continue; // TODO: erase event } return ret; } bool ircd::m::room::state::force_present(const m::event &event) { db::txn txn { *m::dbs::events }; if(!defined(json::get<"room_id"_>(event))) throw error { "event %s is not a room event (no room_id)", json::get<"event_id"_>(event) }; if(!defined(json::get<"state_key"_>(event))) throw error { "event %s is not a state event (no state_key)", json::get<"event_id"_>(event) }; dbs::write_opts opts; opts.event_idx = m::index(event); opts.appendix.reset(); opts.appendix.set(dbs::appendix::ROOM_STATE); opts.appendix.reset(dbs::appendix::ROOM_JOINED); dbs::write(txn, event, opts); txn(); return true; } size_t ircd::m::room::state::rebuild_present(const state &state) { size_t ret{0}; m::room::messages it { state.room_id, uint64_t(0) }; if(!it) return ret; db::txn txn { *m::dbs::events }; for(; it; ++it) { const m::event::idx &event_idx{it}; if(!state.is(std::nothrow, event_idx)) continue; const m::event &event{*it}; m::dbs::write_opts opts; opts.event_idx = event_idx; opts.appendix.reset(); opts.appendix.set(dbs::appendix::ROOM_STATE); opts.appendix.set(dbs::appendix::ROOM_JOINED); dbs::write(txn, event, opts); ++ret; } txn(); return ret; } namespace ircd::m { extern conf::item state__prefetch__yield_modulus; } decltype(ircd::m::state__prefetch__yield_modulus) ircd::m::state__prefetch__yield_modulus { { "name", "ircd.m.room.state_prefetch.yield_modulus" }, { "default", 256L }, }; size_t ircd::m::room::state::prefetch(const state &state, const string_view &type, const event::idx_range &range) { const m::event::fetch::opts &fopts { state.fopts? *state.fopts: m::event::fetch::default_opts }; size_t ret{0}; state.for_each(type, m::event::closure_idx{[&ret, &fopts, &range] (const m::event::idx &event_idx) { if(event_idx < range.first) return; if(range.second && event_idx > range.second) return; m::prefetch(event_idx, fopts); ++ret; const ulong ym(state__prefetch__yield_modulus); if(ym && ret % ym == 0) ctx::yield(); }}); return ret; } ircd::m::event::idx ircd::m::room::state::prev(const event::idx &event_idx) { event::idx ret{0}; prev(event_idx, [&ret] (const event::idx &event_idx) { if(event_idx > ret) ret = event_idx; return true; }); return ret; } ircd::m::event::idx ircd::m::room::state::next(const event::idx &event_idx) { event::idx ret{0}; next(event_idx, [&ret] (const event::idx &event_idx) { if(event_idx > ret) ret = event_idx; return true; }); return ret; } bool ircd::m::room::state::next(const event::idx &event_idx, const event::closure_idx_bool &closure) { const m::event::refs refs { event_idx }; return refs.for_each(dbs::ref::NEXT_STATE, [&closure] (const event::idx &event_idx, const dbs::ref &ref) { assert(ref == dbs::ref::NEXT_STATE); return closure(event_idx); }); } bool ircd::m::room::state::prev(const event::idx &event_idx, const event::closure_idx_bool &closure) { const m::event::refs refs { event_idx }; return refs.for_each(dbs::ref::PREV_STATE, [&closure] (const event::idx &event_idx, const dbs::ref &ref) { assert(ref == dbs::ref::PREV_STATE); return closure(event_idx); }); } ircd::m::room ircd::m::create(const id::room &room_id, const id::user &creator, const string_view &preset) { return create(createroom { { "room_id", room_id }, { "creator", creator }, { "preset", preset }, }); } ircd::m::room ircd::m::create(const createroom &c, json::stack::array *const &errors) { using prototype = room (const createroom &, json::stack::array *const &); static mods::import call { "client_createroom", "ircd::m::create" }; return call(c, errors); } ircd::m::event::id::buf ircd::m::join(const id::room_alias &room_alias, const id::user &user_id) { using prototype = event::id::buf (const id::room_alias &, const id::user &); static mods::import function { "client_rooms", "ircd::m::join" }; return function(room_alias, user_id); } ircd::m::event::id::buf ircd::m::join(const room &room, const id::user &user_id) { using prototype = event::id::buf (const m::room &, const id::user &); static mods::import function { "client_rooms", "ircd::m::join" }; return function(room, user_id); } ircd::m::event::id::buf ircd::m::leave(const room &room, const id::user &user_id) { using prototype = event::id::buf (const m::room &, const id::user &); static mods::import function { "client_rooms", "ircd::m::leave" }; return function(room, user_id); } ircd::m::event::id::buf ircd::m::invite(const room &room, const id::user &target, const id::user &sender) { json::iov content; return invite(room, target, sender, content); } ircd::m::event::id::buf ircd::m::invite(const room &room, const id::user &target, const id::user &sender, json::iov &content) { using prototype = event::id::buf (const m::room &, const id::user &, const id::user &, json::iov &); static mods::import call { "client_rooms", "ircd::m::invite" }; return call(room, target, sender, content); } ircd::m::event::id::buf ircd::m::redact(const room &room, const id::user &sender, const id::event &event_id, const string_view &reason) { using prototype = event::id::buf (const m::room &, const id::user &, const id::event &, const string_view &); static mods::import function { "client_rooms", "redact__" }; return function(room, sender, event_id, reason); } ircd::m::event::id::buf ircd::m::notice(const room &room, const string_view &body) { return message(room, me.user_id, body, "m.notice"); } ircd::m::event::id::buf ircd::m::notice(const room &room, const m::id::user &sender, const string_view &body) { return message(room, sender, body, "m.notice"); } ircd::m::event::id::buf ircd::m::msghtml(const room &room, const m::id::user &sender, const string_view &html, const string_view &alt, const string_view &msgtype) { return message(room, sender, { { "msgtype", msgtype }, { "format", "org.matrix.custom.html" }, { "body", { alt?: html, json::STRING } }, { "formatted_body", { html, json::STRING } }, }); } ircd::m::event::id::buf ircd::m::message(const room &room, const m::id::user &sender, const string_view &body, const string_view &msgtype) { return message(room, sender, { { "body", { body, json::STRING } }, { "msgtype", { msgtype, json::STRING } }, }); } ircd::m::event::id::buf ircd::m::message(const room &room, const m::id::user &sender, const json::members &contents) { return send(room, sender, "m.room.message", contents); } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstack-usage=" ircd::m::event::id::buf __attribute__((stack_protect)) ircd::m::send(const room &room, const m::id::user &sender, const string_view &type, const string_view &state_key, const json::members &contents) { const size_t contents_count { std::min(contents.size(), json::object::max_sorted_members) }; json::iov _content; json::iov::push content[contents_count]; // 48B each return send(room, sender, type, state_key, make_iov(_content, content, contents_count, contents)); } #pragma GCC diagnostic pop #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstack-usage=" ircd::m::event::id::buf __attribute__((stack_protect)) ircd::m::send(const room &room, const m::id::user &sender, const string_view &type, const string_view &state_key, const json::object &contents) { const size_t contents_count { std::min(contents.size(), json::object::max_sorted_members) }; json::iov _content; json::iov::push content[contents_count]; // 48B each return send(room, sender, type, state_key, make_iov(_content, content, contents_count, contents)); } #pragma GCC diagnostic pop ircd::m::event::id::buf ircd::m::send(const room &room, const m::id::user &sender, const string_view &type, const string_view &state_key, const json::iov &content) { using prototype = event::id::buf (const m::room &, const id::user &, const string_view &, const string_view &, const json::iov &); static mods::import function { "client_rooms", "ircd::m::send" }; return function(room, sender, type, state_key, content); } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstack-usage=" ircd::m::event::id::buf __attribute__((stack_protect)) ircd::m::send(const room &room, const m::id::user &sender, const string_view &type, const json::members &contents) { const size_t contents_count { std::min(contents.size(), json::object::max_sorted_members) }; json::iov _content; json::iov::push content[contents_count]; // 48B each return send(room, sender, type, make_iov(_content, content, contents_count, contents)); } #pragma GCC diagnostic pop #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstack-usage=" ircd::m::event::id::buf __attribute__((stack_protect)) ircd::m::send(const room &room, const m::id::user &sender, const string_view &type, const json::object &contents) { const size_t contents_count { std::min(contents.size(), json::object::max_sorted_members) }; json::iov _content; json::iov::push content[contents_count]; // 48B each return send(room, sender, type, make_iov(_content, content, contents_count, contents)); } #pragma GCC diagnostic pop ircd::m::event::id::buf ircd::m::send(const room &room, const id::user &sender, const string_view &type, const json::iov &content) { using prototype = event::id::buf (const m::room &, const id::user &, const string_view &, const json::iov &); static mods::import function { "client_rooms", "ircd::m::send" }; return function(room, sender, type, content); } ircd::m::event::id::buf ircd::m::commit(const room &room, json::iov &event, const json::iov &contents) { vm::copts opts { room.copts? *room.copts: vm::default_copts }; // Some functionality on this server may create an event on behalf // of remote users. It's safe for us to mask this here, but eval'ing // this event in any replay later will require special casing. opts.non_conform |= event::conforms::MISMATCH_ORIGIN_SENDER; // Stupid protocol workaround opts.non_conform |= event::conforms::MISSING_PREV_STATE; // Don't need this here opts.verify = false; vm::eval eval { opts }; eval(room, event, contents); return eval.event_id; } std::pair ircd::m::twain(const room &room) { std::pair ret { -1, 0 }; rfor_each_depth_gap(room, [&ret] (const auto &range, const auto &event_idx) { ret.first = range.first - 1; ret.second = event_idx; return false; }); return ret; } std::pair ircd::m::sounding(const room &room) { std::pair ret { -1, 0 }; rfor_each_depth_gap(room, [&ret] (const auto &range, const auto &event_idx) { ret.first = range.second; ret.second = event_idx; return false; }); return ret; } std::pair ircd::m::hazard(const room &room) { std::pair ret {0, 0}; for_each_depth_gap(room, [&ret] (const auto &range, const auto &event_idx) { ret.first = range.first; ret.second = event_idx; return false; }); return ret; } bool ircd::m::sounding(const room &room, const depth_range_closure &closure) { bool ret(true); int64_t depth(-1); rfor_each_depth_gap(room, [&depth, &ret, &closure] (const auto &range, const auto &event_idx) { if(depth != -1 && depth != range.second) return false; depth = range.second; if(!closure(range, event_idx)) return false; return true; }); return ret; } bool ircd::m::rfor_each_depth_gap(const room &room, const depth_range_closure &closure) { room::messages it { room }; if(!it) return true; event::idx idx{0}; for(depth_range range{0L, it.depth()}; it; --it) { range.first = it.depth(); if(range.first == range.second) { idx = it.event_idx(); continue; } --range.second; if(range.first == range.second) { idx = it.event_idx(); continue; } if(!closure({range.first+1, range.second+1}, idx)) return false; range.second = range.first; } return true; } bool ircd::m::for_each_depth_gap(const room &room, const depth_range_closure &closure) { room::messages it { room, int64_t(0L) }; for(depth_range range{0L, 0L}; it; ++it) { range.second = it.depth(); if(range.first == range.second) continue; ++range.first; if(range.first == range.second) continue; if(!closure(range, it.event_idx())) return false; range.first = range.second; } return true; } size_t ircd::m::count_since(const m::event::id &a, const m::event::id &b) { return count_since(index(a), index(b)); } size_t ircd::m::count_since(const m::event::idx &a, const m::event::idx &b) { // Get the room_id from b here; a might not be in the same room but downstream // the counter seeks to a in the given room and will properly fail there. room::id::buf room_id { m::get(std::max(a, b), "room_id", room_id) }; return count_since(room_id, a, b); } size_t ircd::m::count_since(const room &room, const m::event::id &a, const m::event::id &b) { return count_since(room, index(a), index(b)); } size_t ircd::m::count_since(const m::room &room, const m::event::idx &a, const m::event::idx &b) { m::room::messages it { room }; assert(a <= b); it.seek_idx(a); if(!it && !exists(room)) throw m::NOT_FOUND { "Cannot find room '%s' to count events in", string_view{room.room_id} }; else if(!it) throw m::NOT_FOUND { "Event @ idx:%lu or idx:%lu not found in room '%s' or at all", a, b, string_view{room.room_id} }; size_t ret{0}; // Hit the iterator once first otherwise the count will always increment // to `1` erroneously when it ought to show `0`. for(++it; it && it.event_idx() < b; ++it, ++ret); return ret; } ircd::m::id::room::buf ircd::m::room_id(const id::room_alias &room_alias) { char buf[m::id::MAX_SIZE + 1]; static_assert(sizeof(buf) <= 256); return room_id(buf, room_alias); } ircd::m::id::room::buf ircd::m::room_id(const string_view &room_id_or_alias) { char buf[m::id::MAX_SIZE + 1]; static_assert(sizeof(buf) <= 256); return room_id(buf, room_id_or_alias); } ircd::m::id::room ircd::m::room_id(const mutable_buffer &out, const string_view &room_id_or_alias) { switch(m::sigil(room_id_or_alias)) { case id::ROOM: return id::room{out, room_id_or_alias}; case id::USER: { const m::user::room user_room(room_id_or_alias); return string_view{data(out), copy(out, user_room.room_id)}; } default: return room_id(out, id::room_alias{room_id_or_alias}); } } ircd::m::id::room ircd::m::room_id(const mutable_buffer &out, const id::room_alias &room_alias) { room::id ret; room::aliases::cache::get(room_alias, [&out, &ret] (const room::id &room_id) { ret = string_view { data(out), copy(out, room_id) }; }); return ret; } bool ircd::m::exists(const id::room_alias &room_alias, const bool &remote_query) { if(room::aliases::cache::has(room_alias)) return true; if(!remote_query) return false; return room::aliases::cache::get(std::nothrow, room_alias, [](const room::id &room_id) {}); } int64_t ircd::m::depth(const id::room &room_id) { return std::get(top(room_id)); } int64_t ircd::m::depth(std::nothrow_t, const id::room &room_id) { const auto it { dbs::room_events.begin(room_id) }; if(!it) return -1; const auto part { dbs::room_events_key(it->first) }; return std::get<0>(part); } ircd::m::event::idx ircd::m::head_idx(const id::room &room_id) { return std::get(top(room_id)); } ircd::m::event::idx ircd::m::head_idx(std::nothrow_t, const id::room &room_id) { const auto it { dbs::room_events.begin(room_id) }; if(!it) return 0; const auto part { dbs::room_events_key(it->first) }; return std::get<1>(part); } ircd::m::event::id::buf ircd::m::head(const id::room &room_id) { return std::get(top(room_id)); } ircd::m::event::id::buf ircd::m::head(std::nothrow_t, const id::room &room_id) { return std::get(top(std::nothrow, room_id)); } std::tuple ircd::m::top(const id::room &room_id) { const auto ret { top(std::nothrow, room_id) }; if(std::get(ret) == -1) throw m::NOT_FOUND { "No head for room %s", string_view{room_id} }; return ret; } std::tuple ircd::m::top(std::nothrow_t, const id::room &room_id) { const auto it { dbs::room_events.begin(room_id) }; if(!it) return { event::id::buf{}, -1, 0 }; const auto part { dbs::room_events_key(it->first) }; const int64_t &depth { int64_t(std::get<0>(part)) }; const event::idx &event_idx { std::get<1>(part) }; std::tuple ret { event::id::buf{}, depth, event_idx }; event::fetch::event_id(event_idx, std::nothrow, [&ret] (const event::id &event_id) { std::get(ret) = event_id; }); return ret; } ircd::string_view ircd::m::version(const mutable_buffer &buf, const room &room) { const auto ret { version(buf, room, std::nothrow) }; if(!ret) throw m::NOT_FOUND { "Failed to find room %s to query its version", string_view{room.room_id} }; return ret; } ircd::string_view ircd::m::version(const mutable_buffer &buf, const room &room, std::nothrow_t) { string_view ret; const auto event_idx { room.get(std::nothrow, "m.room.create", "") }; if(!event_idx) return ret; m::get(std::nothrow, event_idx, "content", [&ret] (const json::object &content) { ret = unquote(content.get("version", "1")); }); return ret; } bool ircd::m::creator(const id::room &room_id, const id::user &user_id) { const auto creator_user_id { creator(room_id) }; return creator_user_id == user_id; } ircd::m::id::user::buf ircd::m::creator(const id::room &room_id) { // Query the sender field of the event to get the creator. This is for // future compatibility if the content.creator field gets eliminated. static const event::fetch::opts fopts { event::keys::include { "sender", } }; const room::state state { room_id, &fopts }; id::user::buf ret; state.get("m.room.create", "", [&ret] (const m::event &event) { ret = user::id { json::get<"sender"_>(event) }; }); return ret; } bool ircd::m::federate(const id::room &room_id) { static const m::event::fetch::opts fopts { event::keys::include { "content", } }; const m::room::state state { room_id, &fopts }; bool ret; state.get("m.room.create", "", [&ret] (const m::event &event) { ret = json::get<"content"_>(event).get("m.federate", true); }); return ret; } bool ircd::m::exists(const id::room &room_id) { const auto it { dbs::room_events.begin(room_id) }; return bool(it); } bool ircd::m::exists(const room &room) { return exists(room.room_id); } bool ircd::m::operator==(const room &a, const room &b) { return !(a != b); } bool ircd::m::operator!=(const room &a, const room &b) { return a.room_id != b.room_id; } bool ircd::m::operator!(const room &a) { return !a.room_id; } bool ircd::m::my(const room &room) { return my(room.room_id); } // // room // /// A room index is just the event::idx of its create event. ircd::m::event::idx ircd::m::room::index(const room::id &room_id) { const auto ret { index(room_id, std::nothrow) }; if(!ret) throw m::NOT_FOUND { "No index for room %s", string_view{room_id} }; return ret; } ircd::m::event::idx ircd::m::room::index(const room::id &room_id, std::nothrow_t) { uint64_t depth{0}; room::messages it { room_id, depth }; return it? it.event_idx() : 0; } // // room::room // ircd::m::id::user::buf ircd::m::room::any_user(const string_view &host, const string_view &membership) const { user::id::buf ret; const members members{*this}; members.for_each(membership, members::closure_bool{[&host, &ret] (const id::user &user_id) { if(host && user_id.host() != host) return true; ret = user_id; return false; }}); return ret; } /// Test of the join_rule of the room is the argument. bool ircd::m::room::join_rule(const string_view &rule) const { char buf[32]; return join_rule(mutable_buffer{buf}) == rule; } /// Receive the join_rule of the room into buffer of sufficient size. /// The protocol does not specify a join_rule string longer than 7 /// characters but do be considerate of the future. This function /// properly defaults the string as per the protocol spec. ircd::string_view ircd::m::room::join_rule(const mutable_buffer &out) const { static const string_view default_join_rule { "invite" }; string_view ret { default_join_rule }; const event::keys::include keys { "content" }; const m::event::fetch::opts fopts { keys, this->fopts? this->fopts->gopts : db::gopts{} }; const room::state state { *this, &fopts }; state.get(std::nothrow, "m.room.join_rules", "", [&ret, &out] (const m::event &event) { const auto &content { json::get<"content"_>(event) }; const string_view &rule { content.get("join_rule", default_join_rule) }; ret = string_view { data(out), copy(out, unquote(rule)) }; }); return ret; } /// The only joined members are from our origin (local only). This indicates /// we won't have any other federation servers to query for room data, nor do /// we need to broadcast events to the federation. This is not an authority /// about a room's type or ability to federate. Returned value changes to false /// when another origin joins. bool ircd::m::room::lonly() const { const origins origins(*this); return origins.only(my_host()); } bool ircd::m::room::visible(const string_view &mxid, const event *const &event) const { if(event) return m::visible(*event, mxid); const m::event event_ { { "event_id", event_id }, { "room_id", room_id }, }; return m::visible(event_, mxid); } bool ircd::m::room::membership(const m::id::user &user_id, const string_view &membership) const { char buf[64]; return this->membership(buf, user_id) == membership; } ircd::string_view ircd::m::room::membership(const mutable_buffer &out, const m::id::user &user_id) const { string_view ret; const room::state state{*this}; state.get(std::nothrow, "m.room.member", user_id, [&out, &ret] (const event::idx &event_idx) { m::get(std::nothrow, event_idx, "content", [&out, &ret] (const json::object &content) { ret = { data(out), copy(out, unquote(content.get("membership"))) }; }); }); return ret; } bool ircd::m::room::has(const string_view &type) const { return get(std::nothrow, type, event::closure{}); } void ircd::m::room::get(const string_view &type, const event::closure &closure) const { if(!get(std::nothrow, type, closure)) throw m::NOT_FOUND { "No events of type '%s' found in '%s'", type, room_id }; } bool ircd::m::room::get(std::nothrow_t, const string_view &type, const event::closure &closure) const { bool ret{false}; for_each(type, event::closure_bool{[&ret, &closure] (const event &event) { if(closure) closure(event); ret = true; return false; }}); return ret; } ircd::m::event::idx ircd::m::room::get(const string_view &type, const string_view &state_key) const { return state(*this).get(type, state_key); } ircd::m::event::idx ircd::m::room::get(std::nothrow_t, const string_view &type, const string_view &state_key) const { return state(*this).get(std::nothrow, type, state_key); } void ircd::m::room::get(const string_view &type, const string_view &state_key, const event::closure &closure) const { const state state{*this}; state.get(type, state_key, closure); } bool ircd::m::room::get(std::nothrow_t, const string_view &type, const string_view &state_key, const event::closure &closure) const { const state state{*this}; return state.get(std::nothrow, type, state_key, closure); } bool ircd::m::room::has(const string_view &type, const string_view &state_key) const { const state state{*this}; return state.has(type, state_key); } void ircd::m::room::for_each(const event::closure &closure) const { for_each(string_view{}, closure); } bool ircd::m::room::for_each(const event::closure_bool &closure) const { return for_each(string_view{}, closure); } void ircd::m::room::for_each(const event::id::closure &closure) const { for_each(string_view{}, closure); } bool ircd::m::room::for_each(const event::id::closure_bool &closure) const { return for_each(string_view{}, closure); } void ircd::m::room::for_each(const event::closure_idx &closure) const { for_each(string_view{}, closure); } bool ircd::m::room::for_each(const event::closure_idx_bool &closure) const { return for_each(string_view{}, closure); } void ircd::m::room::for_each(const string_view &type, const event::closure &closure) const { for_each(type, event::closure_bool{[&closure] (const event &event) { closure(event); return true; }}); } bool ircd::m::room::for_each(const string_view &type, const event::closure_bool &closure) const { event::fetch event { fopts? *fopts : event::fetch::default_opts }; return for_each(type, event::closure_idx_bool{[&closure, &event] (const event::idx &event_idx) { if(!seek(event, event_idx, std::nothrow)) return true; return closure(event); }}); } void ircd::m::room::for_each(const string_view &type, const event::id::closure &closure) const { for_each(type, event::id::closure_bool{[&closure] (const event::id &event_id) { closure(event_id); return true; }}); } bool ircd::m::room::for_each(const string_view &type, const event::id::closure_bool &closure) const { return for_each(type, event::closure_idx_bool{[&closure] (const event::idx &idx) { bool ret{true}; event::fetch::event_id(idx, std::nothrow, [&ret, &closure] (const event::id &event_id) { ret = closure(event_id); }); return ret; }}); } void ircd::m::room::for_each(const string_view &type, const event::closure_idx &closure) const { for_each(type, event::closure_idx_bool{[&closure] (const event::idx &idx) { closure(idx); return true; }}); } bool ircd::m::room::for_each(const string_view &type, const event::closure_idx_bool &closure) const { static constexpr auto idx { json::indexof() }; auto &column { dbs::event_column.at(idx) }; messages it{*this}; for(; it; --it) { const auto &event_idx { it.event_idx() }; bool match { empty(type) // allow empty type to always match and bypass query }; if(!match) column(byte_view(event_idx), std::nothrow, [&match, &type] (const string_view &value) { match = value == type; }); if(match) if(!closure(event_idx)) return false; } return true; } // // room::timeline // uint64_t ircd::m::latency(const room::timeline &a, const room::timeline &b) { return 0UL; } // // room::timeline::timeline // ircd::m::room::timeline::timeline(const m::room &room) :room{room} { } bool ircd::m::room::timeline::for_each(const closure &closure, const coord &branch) const { m::event::refs refs { room.event_id? index(room.event_id): room::index(room) }; if(!refs.idx) return true; timeline::coord coord; if(!closure(coord, refs.idx)) return false; for(++coord.y; coord.y <= branch.y; ++coord.y, coord.x = 0) { auto idx(0); refs.for_each(dbs::ref::NEXT, [&coord, &branch, &idx] (const auto &event_idx, const auto &) { if(coord.x <= branch.x) idx = event_idx; if(coord.x < branch.x) { ++coord.x; return true; } else return false; }); if(!idx) return true; if(!closure(coord, idx)) return false; refs.idx = idx; } return true; } bool ircd::m::room::timeline::has_future(const event::id &event_id) const { return true; } bool ircd::m::room::timeline::has_past(const event::id &event_id) const { return true; } void ircd::m::room::timeline::rebuild(const m::room &room) { m::room::messages it { room, 0UL }; if(!it) return; db::txn txn { *m::dbs::events }; for(; it; ++it) { const m::event &event{*it}; m::dbs::write_opts opts; opts.event_idx = it.event_idx(); opts.appendix.reset(); opts.appendix.set(dbs::appendix::EVENT_REFS); opts.event_refs.reset(); opts.event_refs.set(uint(dbs::ref::NEXT)); m::dbs::write(txn, event, opts); } txn(); } // // room::messages // ircd::m::room::messages::messages(const m::room &room, const event::fetch::opts *const &fopts) :room{room} ,_event { fopts? *fopts: room.fopts? *room.fopts: event::fetch::default_opts } { if(room.event_id) seek(room.event_id); else seek(); } ircd::m::room::messages::messages(const m::room &room, const event::id &event_id, const event::fetch::opts *const &fopts) :room{room} ,_event { fopts? *fopts: room.fopts? *room.fopts: event::fetch::default_opts } { seek(event_id); } ircd::m::room::messages::messages(const m::room &room, const uint64_t &depth, const event::fetch::opts *const &fopts) :room{room} ,_event { fopts? *fopts: room.fopts? *room.fopts: event::fetch::default_opts } { // As a special convenience for the ctor only, if the depth=0 and // nothing is found another attempt is made for depth=1 for synapse // rooms which start at depth=1. if(!seek(depth) && depth == 0) seek(1); } const ircd::m::event & ircd::m::room::messages::operator*() { return fetch(std::nothrow); }; bool ircd::m::room::messages::seek(const event::id &event_id) { const event::idx &event_idx { m::index(event_id, std::nothrow) }; return event_idx? seek_idx(event_idx): false; } bool ircd::m::room::messages::seek(const uint64_t &depth) { char buf[dbs::ROOM_EVENTS_KEY_MAX_SIZE]; const string_view seek_key { depth != uint64_t(-1)? dbs::room_events_key(buf, room.room_id, depth): room.room_id }; this->it = dbs::room_events.begin(seek_key); return bool(*this); } bool ircd::m::room::messages::seek_idx(const event::idx &event_idx) try { uint64_t depth(0); if(event_idx) m::get(event_idx, "depth", mutable_buffer { reinterpret_cast(&depth), sizeof(depth) }); char buf[dbs::ROOM_EVENTS_KEY_MAX_SIZE]; const auto &seek_key { dbs::room_events_key(buf, room.room_id, depth, event_idx) }; this->it = dbs::room_events.begin(seek_key); if(!bool(*this)) return false; // Check if this event_idx is actually in this room if(event_idx && event_idx != this->event_idx()) return false; return true; } catch(const db::not_found &e) { return false; } ircd::m::room::messages::operator ircd::m::event::idx() const { return event_idx(); } ircd::m::event::id::buf ircd::m::room::messages::event_id() const { event::id::buf ret; event::fetch::event_id(this->event_idx(), [&ret] (const event::id &event_id) { ret = event_id; }); return ret; } uint64_t ircd::m::room::messages::depth() const { assert(bool(*this)); const auto part { dbs::room_events_key(it->first) }; return std::get<0>(part); } ircd::m::event::idx ircd::m::room::messages::event_idx() const { assert(bool(*this)); const auto part { dbs::room_events_key(it->first) }; return std::get<1>(part); } const ircd::m::event & ircd::m::room::messages::fetch() { m::seek(_event, event_idx()); return _event; } const ircd::m::event & ircd::m::room::messages::fetch(std::nothrow_t) { m::seek(_event, event_idx(), std::nothrow); return _event; } // // room::state // decltype(ircd::m::room::state::enable_history) ircd::m::room::state::enable_history { { "name", "ircd.m.room.state.enable_history" }, { "default", true }, }; decltype(ircd::m::room::state::readahead_size) ircd::m::room::state::readahead_size { { "name", "ircd.m.room.state.readahead_size" }, { "default", 0L }, }; // // room::state::state // ircd::m::room::state::state(const m::room &room, const event::fetch::opts *const &fopts) :room_id { room.room_id } ,event_id { room.event_id? event::id::buf{room.event_id}: event::id::buf{} } ,fopts { fopts? fopts: room.fopts } { } size_t ircd::m::room::state::prefetch(const event::idx &start, const event::idx &stop) const { return prefetch(string_view{}, start, stop); } size_t ircd::m::room::state::prefetch(const string_view &type, const event::idx &start, const event::idx &stop) const { return prefetch(*this, type, event::idx_range{start, stop}); } ircd::m::event::idx ircd::m::room::state::get(const string_view &type, const string_view &state_key) const { event::idx ret; get(type, state_key, event::closure_idx{[&ret] (const event::idx &event_idx) { ret = event_idx; }}); return ret; } ircd::m::event::idx ircd::m::room::state::get(std::nothrow_t, const string_view &type, const string_view &state_key) const { event::idx ret{0}; get(std::nothrow, type, state_key, event::closure_idx{[&ret] (const event::idx &event_idx) { ret = event_idx; }}); return ret; } void ircd::m::room::state::get(const string_view &type, const string_view &state_key, const event::closure &closure) const { get(type, state_key, event::closure_idx{[this, &closure] (const event::idx &event_idx) { const event::fetch event { event_idx, fopts? *fopts : event::fetch::default_opts }; closure(event); }}); } void ircd::m::room::state::get(const string_view &type, const string_view &state_key, const event::id::closure &closure) const { get(type, state_key, event::closure_idx{[&closure] (const event::idx &idx) { event::fetch::event_id(idx, closure); }}); } void ircd::m::room::state::get(const string_view &type, const string_view &state_key, const event::closure_idx &closure) const try { if(!present()) { const history history { room_id, event_id }; closure(history.get(type, state_key)); return; } auto &column{dbs::room_state}; char key[dbs::ROOM_STATE_KEY_MAX_SIZE]; column(dbs::room_state_key(key, room_id, type, state_key), [&closure] (const string_view &value) { closure(byte_view(value)); }); } catch(const db::not_found &e) { throw m::NOT_FOUND { "(%s,%s) in %s :%s", type, state_key, string_view{room_id}, e.what() }; } bool ircd::m::room::state::get(std::nothrow_t, const string_view &type, const string_view &state_key, const event::closure &closure) const { return get(std::nothrow, type, state_key, event::closure_idx{[this, &closure] (const event::idx &event_idx) { const event::fetch event { event_idx, std::nothrow, fopts? *fopts : event::fetch::default_opts }; closure(event); }}); } bool ircd::m::room::state::get(std::nothrow_t, const string_view &type, const string_view &state_key, const event::id::closure &closure) const { return get(std::nothrow, type, state_key, event::closure_idx{[&closure] (const event::idx &idx) { event::fetch::event_id(idx, std::nothrow, closure); }}); } bool ircd::m::room::state::get(std::nothrow_t, const string_view &type, const string_view &state_key, const event::closure_idx &closure) const { if(!present()) { const history history { room_id, event_id }; const auto event_idx { history.get(std::nothrow, type, state_key) }; if(event_idx) { closure(event_idx); return true; } else return false; } auto &column{dbs::room_state}; char key[dbs::ROOM_STATE_KEY_MAX_SIZE]; return column(dbs::room_state_key(key, room_id, type, state_key), std::nothrow, [&closure] (const string_view &value) { closure(byte_view(value)); }); } bool ircd::m::room::state::has(const string_view &type) const { return for_each(type, event::id::closure_bool{[](const m::event::id &) { return true; }}); } bool ircd::m::room::state::has(const string_view &type, const string_view &state_key) const { if(!present()) { const history history { room_id, event_id }; return history.has(type, state_key); } auto &column{dbs::room_state}; char key[dbs::ROOM_STATE_KEY_MAX_SIZE]; return db::has(column, dbs::room_state_key(key, room_id, type, state_key)); } size_t ircd::m::room::state::count() const { return count(string_view{}); } size_t ircd::m::room::state::count(const string_view &type) const { size_t ret{0}; for_each(type, event::closure_idx{[&ret] (const event::idx &event_idx) { ++ret; }}); return ret; } void ircd::m::room::state::for_each(const event::closure &closure) const { for_each(event::closure_bool{[&closure] (const m::event &event) { closure(event); return true; }}); } bool ircd::m::room::state::for_each(const event::closure_bool &closure) const { event::fetch event { fopts? *fopts : event::fetch::default_opts }; return for_each(event::closure_idx_bool{[&event, &closure] (const event::idx &event_idx) { if(seek(event, event_idx, std::nothrow)) if(!closure(event)) return false; return true; }}); } void ircd::m::room::state::for_each(const event::id::closure &closure) const { for_each(event::id::closure_bool{[&closure] (const event::id &event_id) { closure(event_id); return true; }}); } bool ircd::m::room::state::for_each(const event::id::closure_bool &closure) const { return for_each(event::closure_idx_bool{[&closure] (const event::idx &idx) { bool ret{true}; event::fetch::event_id(idx, std::nothrow, [&ret, &closure] (const event::id &id) { ret = closure(id); }); return ret; }}); } void ircd::m::room::state::for_each(const event::closure_idx &closure) const { for_each(event::closure_idx_bool{[&closure] (const event::idx &event_idx) { closure(event_idx); return true; }}); } bool ircd::m::room::state::for_each(const event::closure_idx_bool &closure) const { return for_each(closure_bool{[&closure] (const string_view &type, const string_view &state_key, const event::idx &event_idx) { return closure(event_idx); }}); } bool ircd::m::room::state::for_each(const closure_bool &closure) const { if(!present()) { const history history { room_id, event_id }; return history.for_each([&closure] (const auto &type, const auto &state_key, const auto &depth, const auto &event_idx) { return closure(type, state_key, event_idx); }); } db::gopts opts { this->fopts? this->fopts->gopts : db::gopts{} }; if(!opts.readahead) opts.readahead = size_t(readahead_size); auto &column{dbs::room_state}; for(auto it{column.begin(room_id, opts)}; bool(it); ++it) { const byte_view idx(it->second); const auto key(dbs::room_state_key(it->first)); if(!closure(std::get<0>(key), std::get<1>(key), idx)) return false; } return true; } void ircd::m::room::state::for_each(const string_view &type, const event::closure &closure) const { for_each(type, event::closure_bool{[&closure] (const m::event &event) { closure(event); return true; }}); } bool ircd::m::room::state::for_each(const string_view &type, const event::closure_bool &closure) const { return type? for_each(type, string_view{}, closure): for_each(closure); } void ircd::m::room::state::for_each(const string_view &type, const event::id::closure &closure) const { for_each(type, event::id::closure_bool{[&closure] (const event::id &event_id) { closure(event_id); return true; }}); } bool ircd::m::room::state::for_each(const string_view &type, const event::id::closure_bool &closure) const { return type? for_each(type, string_view{}, closure): for_each(closure); } void ircd::m::room::state::for_each(const string_view &type, const event::closure_idx &closure) const { for_each(type, event::closure_idx_bool{[&closure] (const event::idx &event_idx) { closure(event_idx); return true; }}); } bool ircd::m::room::state::for_each(const string_view &type, const event::closure_idx_bool &closure) const { return type? for_each(type, string_view{}, closure): for_each(closure); } bool ircd::m::room::state::for_each(const string_view &type, const closure_bool &closure) const { return type? for_each(type, string_view{}, closure): for_each(closure); } bool ircd::m::room::state::for_each(const string_view &type, const string_view &state_key_lb, const event::closure_bool &closure) const { event::fetch event { fopts? *fopts : event::fetch::default_opts }; return for_each(type, state_key_lb, event::closure_idx_bool{[&event, &closure] (const event::idx &event_idx) { if(seek(event, event_idx, std::nothrow)) if(!closure(event)) return false; return true; }}); } bool ircd::m::room::state::for_each(const string_view &type, const string_view &state_key_lb, const event::id::closure_bool &closure) const { return for_each(type, state_key_lb, event::closure_idx_bool{[&closure] (const event::idx &idx) { bool ret{true}; event::fetch::event_id(idx, std::nothrow, [&ret, &closure] (const event::id &id) { ret = closure(id); }); return ret; }}); } bool ircd::m::room::state::for_each(const string_view &type, const string_view &state_key_lb, const event::closure_idx_bool &closure) const { return for_each(type, state_key_lb, closure_bool{[&closure] (const string_view &type, const string_view &state_key, const event::idx &event_idx) { return closure(event_idx); }}); } bool ircd::m::room::state::for_each(const string_view &type, const string_view &state_key_lb, const closure_bool &closure) const { if(!present()) { const history history { room_id, event_id }; return history.for_each(type, state_key_lb, [&closure] (const auto &type, const auto &state_key, const auto &depth, const auto &event_idx) { return closure(type, state_key, event_idx); }); } char keybuf[dbs::ROOM_STATE_KEY_MAX_SIZE]; const auto &key { dbs::room_state_key(keybuf, room_id, type, state_key_lb) }; db::gopts opts { this->fopts? this->fopts->gopts : db::gopts{} }; if(!opts.readahead) opts.readahead = size_t(readahead_size); auto &column{dbs::room_state}; for(auto it{column.begin(key, opts)}; bool(it); ++it) { const auto key { dbs::room_state_key(it->first) }; if(std::get<0>(key) != type) break; const byte_view idx(it->second); if(!closure(std::get<0>(key), std::get<1>(key), idx)) return false; } return true; } void ircd::m::room::state::for_each(const string_view &type, const keys &closure) const { for_each(type, keys_bool{[&closure] (const string_view &key) { closure(key); return true; }}); } bool ircd::m::room::state::for_each(const string_view &type, const keys_bool &closure) const { return for_each(type, string_view{}, closure); } bool ircd::m::room::state::for_each(const string_view &type, const string_view &state_key_lb, const keys_bool &closure) const { if(!present()) { const history history { room_id, event_id }; return history.for_each(type, state_key_lb, [&closure] (const auto &, const auto &state_key, const auto &, const auto &) { return closure(state_key); }); } char keybuf[dbs::ROOM_STATE_KEY_MAX_SIZE]; const auto &key { dbs::room_state_key(keybuf, room_id, type, state_key_lb) }; db::gopts opts { this->fopts? this->fopts->gopts : db::gopts{} }; if(!opts.readahead) opts.readahead = size_t(readahead_size); auto &column{dbs::room_state}; for(auto it{column.begin(key, opts)}; bool(it); ++it) { const auto key { dbs::room_state_key(it->first) }; if(std::get<0>(key) != type) break; if(!closure(std::get<1>(key))) return false; } return true; } bool ircd::m::room::state::for_each(const type_prefix &prefix, const types_bool &closure) const { bool ret(true), cont(true); for_each(types_bool([&prefix, &closure, &ret, &cont] (const string_view &type) { if(!startswith(type, string_view(prefix))) return cont; cont = false; ret = closure(type); return ret; })); return ret; } void ircd::m::room::state::for_each(const types &closure) const { for_each(types_bool{[&closure] (const string_view &type) { closure(type); return true; }}); } bool ircd::m::room::state::for_each(const types_bool &closure) const { string_view last; char lastbuf[m::event::TYPE_MAX_SIZE]; if(!present()) { const history history { room_id, event_id }; return history.for_each([&closure] (const auto &type, const auto &, const auto &, const auto &) { return closure(type); }); } char keybuf[dbs::ROOM_STATE_KEY_MAX_SIZE]; const auto &key { dbs::room_state_key(keybuf, room_id, string_view{}) }; db::gopts opts { this->fopts? this->fopts->gopts : db::gopts{} }; auto &column{dbs::room_state}; for(auto it{column.begin(key, opts)}; bool(it); ++it) { const auto part { dbs::room_state_key(it->first) }; const auto &type { std::get<0>(part) }; if(type == last) continue; last = strlcpy(lastbuf, type); if(!closure(type)) return false; } return true; } /// Figure out if this instance of room::state is presenting the current /// "present" state of the room or the state of the room at some previous /// event. This is an important distinction because the present state of /// the room should provide optimal performance for the functions of this /// interface by using the present state table. Prior states will use the /// state btree. bool ircd::m::room::state::present() const { // When no event_id is passed to the state constructor that immediately // indicates the present state of the room is sought. if(!event_id) return true; // When the global configuration disables history, always consider the // present state. (disabling may yield unexpected incorrect results by // returning the present state without error). if(!enable_history) return true; // Check the cached value from a previous false result of this function // before doing any real work/IO below. If this function ever returned // false it will never return true after. if(_not_present) return false; const auto head_id { m::head(std::nothrow, room_id) }; // If the event_id passed is exactly the latest event we can obviously // consider this the present state. if(!head_id || head_id == event_id) return true; // This result is cacheable because once it's no longer the present // it will never be again. Panta chorei kai ouden menei. Note that this // is a const member function; the cache variable is an appropriate case // for the 'mutable' keyword. _not_present = true; return false; } // // room::state::history // ircd::m::room::state::history::history(const m::room &room) :history { room, -1 } { } ircd::m::room::state::history::history(const m::room::id &room_id, const m::event::id &event_id) :history { m::room { room_id, event_id } } { } ircd::m::room::state::history::history(const m::room &room, const int64_t &bound) :space { room } ,bound { bound < 0 && room.event_id? m::get(m::index(room.event_id), "depth"): bound } { } ircd::m::event::idx ircd::m::room::state::history::get(const string_view &type, const string_view &state_key) const { const auto ret { get(std::nothrow, type, state_key) }; if(unlikely(!ret)) throw m::NOT_FOUND { "(%s,%s) in %s @%ld$%s", type, state_key, string_view{space.room.room_id}, bound, string_view{space.room.event_id}, }; return ret; } ircd::m::event::idx ircd::m::room::state::history::get(std::nothrow_t, const string_view &type, const string_view &state_key) const { event::idx ret{0}; assert(type && defined(state_key)); for_each(type, state_key, [&ret] (const auto &, const auto &, const auto &, const auto &event_idx) { ret = event_idx; return false; }); return ret; } bool ircd::m::room::state::history::has(const string_view &type) const { return has(type, string_view{}); } bool ircd::m::room::state::history::has(const string_view &type, const string_view &state_key) const { return !for_each(type, state_key, [] (const auto &type, const auto &state_key, const auto &depth, const auto &event_idx) { return false; }); } size_t ircd::m::room::state::history::count(const string_view &type) const { return count(type, string_view{}); } size_t ircd::m::room::state::history::count(const string_view &type, const string_view &state_key) const { size_t ret(0); for_each(type, state_key, [&ret] (const auto &type, const auto &state_key, const auto &depth, const auto &event_idx) { ++ret; return true; }); return ret; } bool ircd::m::room::state::history::for_each(const closure &closure) const { return for_each(string_view{}, string_view{}, closure); } bool ircd::m::room::state::history::for_each(const string_view &type, const closure &closure) const { return for_each(type, string_view{}, closure); } bool ircd::m::room::state::history::for_each(const string_view &type, const string_view &state_key, const closure &closure) const { char type_buf[m::event::TYPE_MAX_SIZE]; char state_key_buf[m::event::STATE_KEY_MAX_SIZE]; string_view last_type; string_view last_state_key; return space.for_each(type, state_key, [&] (const auto &type, const auto &state_key, const auto &depth, const auto &event_idx) { if(bound > -1 && depth > bound) return true; if(type == last_type && state_key == last_state_key) return true; if(!closure(type, state_key, depth, event_idx)) return false; if(type != last_type) last_type = { type_buf, copy(type_buf, type) }; if(state_key != last_state_key) last_state_key = { state_key_buf, copy(state_key_buf, state_key) }; return true; }); } // // room::state::space // ircd::m::room::state::space::space(const m::room &room) :room { room } { } bool ircd::m::room::state::space::has(const string_view &type) const { return has(type, string_view{}); } bool ircd::m::room::state::space::has(const string_view &type, const string_view &state_key) const { return has(type, state_key, -1); } bool ircd::m::room::state::space::has(const string_view &type, const string_view &state_key, const int64_t &depth) const { return !for_each(type, state_key, depth, [] (const auto &type, const auto &state_key, const auto &depth, const auto &event_idx) { return false; }); } size_t ircd::m::room::state::space::count(const string_view &type) const { return count(type, string_view{}); } size_t ircd::m::room::state::space::count(const string_view &type, const string_view &state_key) const { return count(type, state_key, -1L); } size_t ircd::m::room::state::space::count(const string_view &type, const string_view &state_key, const int64_t &depth) const { size_t ret(0); for_each(type, state_key, depth, [&ret] (const auto &type, const auto &state_key, const auto &depth, const auto &event_idx) { ++ret; return true; }); return ret; } bool ircd::m::room::state::space::for_each(const closure &closure) const { return for_each(string_view{}, string_view{}, -1L, closure); } bool ircd::m::room::state::space::for_each(const string_view &type, const closure &closure) const { return for_each(type, string_view{}, -1L, closure); } bool ircd::m::room::state::space::for_each(const string_view &type, const string_view &state_key, const closure &closure) const { return for_each(type, state_key, -1L, closure); } bool ircd::m::room::state::space::for_each(const string_view &type, const string_view &state_key, const int64_t &depth, const closure &closure) const { char buf[dbs::ROOM_STATE_SPACE_KEY_MAX_SIZE]; const string_view &key { dbs::room_state_space_key(buf, room.room_id, type, state_key, depth, -1UL) }; auto it { dbs::room_state_space.begin(key) }; for(; it; ++it) { const auto &key { dbs::room_state_space_key(it->first) }; if(type && std::get<0>(key) != type) break; if(state_key && std::get<1>(key) != state_key) break; if(depth > -1 && std::get<2>(key) != depth) break; if(!closure(std::get<0>(key), std::get<1>(key), std::get<2>(key), std::get<3>(key))) return false; } return true; } // // room::state::space::rebuild // ircd::m::room::state::space::rebuild::rebuild() { static const size_t interval { 500000UL }; auto &column { dbs::event_column.at(json::indexof("state_key"_sv)) }; size_t total(0); size_t current(0); db::txn txn { *m::dbs::events }; dbs::write_opts wopts; wopts.appendix.reset(); wopts.appendix.set(dbs::appendix::ROOM_STATE_SPACE); event::fetch event; for(auto it(column.begin()); it; ++it) try { const event::idx &event_idx { byte_view(it->first) }; seek(event, event_idx); wopts.event_idx = event_idx; dbs::write(txn, event, wopts); ++total; ++current; if(current >= interval) { log::info { log, "room::state::space::rebuild total:%zu committing events:%zu elems:%zu size:%s", total, current, txn.size(), pretty(iec(txn.bytes())) }; txn(); txn.clear(); current = 0; } } catch(const ctx::interrupted &) { break; } catch(const std::exception &e) { log::error { log, "room::state::space::rebuild :%s", e.what() }; } log::info { log, "room::state::space::rebuild total:%zu final transaction events:%zu elems:%zu size:%s", total, current, txn.size(), pretty(iec(txn.bytes())) }; txn(); } // // room::members // size_t ircd::m::room::members::count() const { const room::state state { room }; return state.count("m.room.member"); } size_t ircd::m::room::members::count(const string_view &membership) const { // Allow empty membership string to count all memberships if(!membership) return count(); // joined members optimization. Only possible when seeking // membership="join" on the present state of the room. if(!room.event_id && membership == "join") { size_t ret{0}; const room::origins origins{room}; origins._for_each(origins, [&ret](const string_view &) { ++ret; return true; }); return ret; } // The list of event fields to fetch for the closure static const event::keys::include keys { "event_id", // Added for any upstack usage (but may be unnecessary). "content", // Required because synapse events randomly have no event.membership }; const m::event::fetch::opts fopts { keys, room.fopts? room.fopts->gopts : db::gopts{} }; const room::state state { room, &fopts }; size_t ret{0}; state.for_each("m.room.member", event::closure{[&ret, &membership] (const m::event &event) { ret += m::membership(event) == membership; }}); return ret; } void ircd::m::room::members::for_each(const closure &closure) const { for_each(string_view{}, closure); } bool ircd::m::room::members::for_each(const closure_bool &closure) const { return for_each(string_view{}, closure); } void ircd::m::room::members::for_each(const event::closure &closure) const { for_each(string_view{}, closure); } bool ircd::m::room::members::for_each(const event::closure_bool &closure) const { const room::state state{room}; return state.for_each("m.room.member", event::closure_bool{[&closure] (const m::event &event) { return closure(event); }}); } void ircd::m::room::members::for_each(const string_view &membership, const closure &closure) const { for_each(membership, closure_bool{[&closure] (const user::id &user_id) { closure(user_id); return true; }}); } /// Iterate the mxid's of the users in the room, optionally with a specific /// membership state. This query contains internal optimizations as the closure /// only requires a user::id. The db::gopts set in the room.fopts pointer is /// still used if provided. bool ircd::m::room::members::for_each(const string_view &membership, const closure_bool &closure) const { // Setup the list of event fields to fetch for the closure static const event::keys::include keys { "event_id", "state_key", "content", }; // In this case the fetch opts isn't static so it can maintain the // previously given db::gopts, but it will use our keys list. const m::event::fetch::opts fopts { keys, room.fopts? room.fopts->gopts : db::gopts{} }; // Stack-over the the current fetch opts with our new opts for this query, // putting them back when we're finished. This requires a const_cast which // should be okay here. auto &room(const_cast(this->room)); const auto theirs{room.fopts}; room.fopts = &fopts; const unwind reset{[&room, &theirs] { room.fopts = theirs; }}; return for_each(membership, event::closure_bool{[&closure] (const event &event) { const user::id &user_id { at<"state_key"_>(event) }; return closure(user_id); }}); } void ircd::m::room::members::for_each(const string_view &membership, const event::closure &closure) const { for_each(membership, event::closure_bool{[&closure] (const m::event &event) { closure(event); return true; }}); } bool ircd::m::room::members::for_each(const string_view &membership, const event::closure_bool &closure) const { if(empty(membership)) return for_each(closure); // joined members optimization. Only possible when seeking // membership="join" on the present state of the room. if(!room.event_id && membership == "join") { const room::origins origins{room}; return origins._for_each(origins, [&closure, this] (const string_view &key) { const string_view &member { std::get<1>(dbs::room_joined_key(key)) }; bool ret{true}; room.get(std::nothrow, "m.room.member", member, event::closure{[&closure, &ret] (const event &event) { ret = closure(event); }}); return ret; }); } return for_each(event::closure_bool{[&membership, &closure] (const event &event) { if(m::membership(event) == membership) if(!closure(event)) return false; return true; }}); } // // room::origins // ircd::string_view ircd::m::room::origins::random(const mutable_buffer &buf, const closure_bool &proffer) const { string_view ret; const auto closure{[&buf, &proffer, &ret] (const string_view &origin) { ret = { data(buf), copy(buf, origin) }; }}; random(closure, proffer); return ret; } bool ircd::m::room::origins::random(const closure &view, const closure_bool &proffer) const { return random(*this, view, proffer); } bool ircd::m::room::origins::random(const origins &origins, const closure &view, const closure_bool &proffer) { bool ret{false}; const size_t max { origins.count() }; if(unlikely(!max)) return ret; auto select { ssize_t(rand::integer(0, max - 1)) }; const closure_bool closure{[&proffer, &view, &select] (const string_view &origin) { if(select-- > 0) return true; // Test if this random selection is "ok" e.g. the callback allows the // user to test a blacklist for this origin. Skip to next if not. if(proffer && !proffer(origin)) { ++select; return true; } view(origin); return false; }}; const auto iteration{[&origins, &closure, &ret] { ret = !origins.for_each(closure); }}; // Attempt select on first iteration iteration(); // If nothing was OK between the random int and the end of the iteration // then start again and pick the first OK. if(!ret && select >= 0) iteration(); return ret; } size_t ircd::m::room::origins::count() const { size_t ret{0}; for_each([&ret](const string_view &) { ++ret; }); return ret; } /// Tests if argument is the only origin in the room. /// If a zero or more than one origins exist, returns false. If the only origin /// in the room is the argument origin, returns true. bool ircd::m::room::origins::only(const string_view &origin) const { ushort ret{2}; for_each(closure_bool{[&ret, &origin] (const string_view &origin_) -> bool { if(origin == origin_) ret = 1; else ret = 0; return ret; }}); return ret == 1; } bool ircd::m::room::origins::has(const string_view &origin) const { db::domain &index { dbs::room_joined }; char querybuf[dbs::ROOM_JOINED_KEY_MAX_SIZE]; const auto query { dbs::room_joined_key(querybuf, room.room_id, origin) }; auto it { index.begin(query) }; if(!it) return false; const string_view &key { lstrip(it->first, "\0"_sv) }; const string_view &key_origin { std::get<0>(dbs::room_joined_key(key)) }; return key_origin == origin; } void ircd::m::room::origins::for_each(const closure &view) const { for_each(closure_bool{[&view] (const string_view &origin) { view(origin); return true; }}); } bool ircd::m::room::origins::for_each(const closure_bool &view) const { string_view last; char lastbuf[rfc1035::NAME_BUFSIZE]; return _for_each(*this, [&last, &lastbuf, &view] (const string_view &key) { const string_view &origin { std::get<0>(dbs::room_joined_key(key)) }; if(origin == last) return true; if(!view(origin)) return false; last = { lastbuf, copy(lastbuf, origin) }; return true; }); } bool ircd::m::room::origins::_for_each(const origins &origins, const closure_bool &view) { db::domain &index { dbs::room_joined }; auto it { index.begin(origins.room.room_id) }; for(; bool(it); ++it) { const string_view &key { lstrip(it->first, "\0"_sv) }; if(!view(key)) return false; } return true; } // // room::head // std::pair ircd::m::room::head::make_refs(const mutable_buffer &buf, const size_t &limit, const bool &need_top) const { json::stack out{buf}; json::stack::array array{out}; const auto depth { make_refs(array, limit, need_top) }; array.~array(); return { json::array{out.completed()}, depth }; } int64_t ircd::m::room::head::make_refs(json::stack::array &out, const size_t &limit, const bool &need_top) const { return make_refs(*this, out, limit, need_top); } size_t ircd::m::room::head::count() const { size_t ret(0); for_each([&ret] (const event::idx &event_idx, const event::id &event_id) { ++ret; }); return ret; } bool ircd::m::room::head::has(const event::id &event_id) const { bool ret{false}; for_each(closure_bool{[&ret, &event_id] (const event::idx &event_idx, const event::id &event_id_) { ret = event_id_ == event_id; return !ret; // for_each protocol: false to break }}); return ret; } void ircd::m::room::head::for_each(const closure &closure) const { for_each(closure_bool{[&closure] (const event::idx &event_idx, const event::id &event_id) { closure(event_idx, event_id); return true; }}); } bool ircd::m::room::head::for_each(const closure_bool &closure) const { return for_each(*this, closure); } size_t ircd::m::room::head::rebuild(const head &head) { size_t ret{0}; const auto &room{head.room}; const m::room::state state{room}; const auto create_idx { state.get("m.room.create") }; static const m::event::fetch::opts fopts { { db::get::NO_CACHE } }; m::room::messages it { room, create_idx, &fopts }; if(!it) return ret; db::txn txn { *m::dbs::events }; m::dbs::write_opts opts; opts.op = db::op::SET; for(; it; ++it) { const m::event &event{*it}; opts.event_idx = it.event_idx(); opts.appendix.reset(); opts.appendix.set(dbs::appendix::ROOM_HEAD); m::dbs::write(txn, event, opts); ++ret; } txn(); return ret; } size_t ircd::m::room::head::reset(const head &head) { size_t ret{0}; const auto &room{head.room}; m::room::messages it{room}; if(!it) return ret; // Replacement will be the single new head const m::event replacement { *it }; db::txn txn { *m::dbs::events }; // Iterate all of the existing heads with a delete operation m::dbs::write_opts opts; opts.op = db::op::DELETE; opts.appendix.reset(); opts.appendix.set(dbs::appendix::ROOM_HEAD); m::room::head{room}.for_each([&room, &opts, &txn, &ret] (const m::event::idx &event_idx, const m::event::id &event_id) { const m::event::fetch event { event_idx, std::nothrow }; if(!event.valid) { log::derror { m::log, "Invalid event '%s' idx %lu in head for %s", string_view{event_id}, event_idx, string_view{room.room_id} }; return; } opts.event_idx = event_idx; m::dbs::write(txn, event, opts); ++ret; }); // Finally add the replacement to the txn opts.op = db::op::SET; opts.event_idx = it.event_idx(); m::dbs::write(txn, replacement, opts); // Commit txn txn(); return ret; } void ircd::m::room::head::modify(const m::event::id &event_id, const db::op &op, const bool &refs) { const m::event::fetch event { event_id }; db::txn txn { *m::dbs::events }; // Iterate all of the existing heads with a delete operation m::dbs::write_opts opts; opts.op = op; opts.event_idx = event.event_idx; opts.appendix.reset(); opts.appendix.set(dbs::appendix::ROOM_HEAD); m::dbs::write(txn, event, opts); // Commit txn txn(); } int64_t ircd::m::room::head::make_refs(const head &head, json::stack::array &out, const size_t &_limit, const bool &_need_tophead) { size_t limit{_limit}; bool need_tophead{_need_tophead}; const auto &room{head.room}; const auto top_head { need_tophead? m::top(std::nothrow, room.room_id): std::tuple{} }; int64_t depth{-1}; m::event::fetch event; head.for_each(m::room::head::closure_bool{[&] (const m::event::idx &idx, const m::event::id &event_id) { seek(event, idx, std::nothrow); if(!event.valid) return true; if(need_tophead) if(json::get<"event_id"_>(event) == std::get<0>(top_head)) need_tophead = false; depth = std::max(json::get<"depth"_>(event), depth); json::stack::array prev{out}; prev.append(event_id); { json::stack::object hash{prev}; json::stack::member will { hash, "", "" }; } return --limit - need_tophead > 0; }}); if(need_tophead) { depth = std::get<1>(top_head); json::stack::array prev{out}; prev.append(std::get<0>(top_head)); { json::stack::object hash{prev}; json::stack::member will { hash, "", "" }; } } return depth; } bool ircd::m::room::head::for_each(const head &head, const closure_bool &closure) { auto it { dbs::room_head.begin(head.room.room_id) }; for(; it; ++it) { const event::id &event_id { dbs::room_head_key(it->first) }; const event::idx &event_idx { byte_view{it->second} }; if(!closure(event_idx, event_id)) return false; } return true; } // // room::auth // ircd::json::array ircd::m::room::auth::make_refs(const mutable_buffer &buf, const types &types, const m::id::user &user) const { json::stack out{buf}; json::stack::array array{out}; make_refs(array, types, user); array.~array(); return json::array{out.completed()}; } void ircd::m::room::auth::make_refs(json::stack::array &out, const types &types, const m::id::user &user) const { make_refs(*this, out, types, user); } void ircd::m::room::auth::for_each(const closure &c) const { for_each(closure_bool{[this, &c] (const auto &event_idx) { c(event_idx); return true; }}); } bool ircd::m::room::auth::for_each(const closure_bool &c) const { return for_each(*this, c); } bool ircd::m::room::auth::for_each(const auth &a, const closure_bool &closure) { const m::room &room{a.room}; const auto &event_id{room.event_id}; if(!event_id) return false; return true; } void ircd::m::room::auth::make_refs(const auth &auth, json::stack::array &out, const types &types, const user::id &user_id) { const m::room::state state { auth.room }; const auto fetch{[&out, &state] (const string_view &type, const string_view &state_key) { state.get(std::nothrow, type, state_key, m::event::id::closure{[&out] (const auto &event_id) { json::stack::array auth{out}; auth.append(event_id); { json::stack::object hash{auth}; json::stack::member will { hash, "", "" }; } }}); }}; for(const auto &type : types) fetch(type, ""); if(user_id) fetch("m.room.member", user_id); } // // room::aliases // size_t ircd::m::room::aliases::count() const { return count(string_view{}); } size_t ircd::m::room::aliases::count(const string_view &server) const { size_t ret(0); for_each(server, [&ret](const auto &a) { ++ret; return true; }); return ret; } bool ircd::m::room::aliases::has(const alias &alias) const { return !for_each(alias.host(), [&alias] (const id::room_alias &a) { assert(a.host() == alias.host()); return a == alias? false : true; // false to break on found }); } bool ircd::m::room::aliases::for_each(const closure_bool &closure) const { const room::state state { room }; return state.for_each("m.room.aliases", room::state::keys_bool{[this, &closure] (const string_view &state_key) { return for_each(state_key, closure); }}); } bool ircd::m::room::aliases::for_each(const string_view &server, const closure_bool &closure) const { if(!server) return for_each(closure); return for_each(room, server, closure); } bool ircd::m::room::aliases::for_each(const m::room &room, const string_view &server, const closure_bool &closure) { using prototype = bool (const m::room &, const string_view &, const closure_bool &); static mods::import call { "m_room_aliases", "ircd::m::room::aliases::for_each" }; return call(room, server, closure); } // // room::aliases::cache // bool ircd::m::room::aliases::cache::del(const alias &a) { using prototype = bool (const alias &); static mods::import call { "m_room_aliases", "ircd::m::room::aliases::cache::del" }; return call(a); } bool ircd::m::room::aliases::cache::set(const alias &a, const id &i) { using prototype = bool (const alias &, const id &); static mods::import call { "m_room_aliases", "ircd::m::room::aliases::cache::set" }; return call(a, i); } bool ircd::m::room::aliases::cache::fetch(std::nothrow_t, const alias &a, const net::hostport &hp) try { fetch(a, hp); return true; } catch(const std::exception &e) { thread_local char buf[384]; log::error { log, "Failed to fetch room_id for %s from %s :%s", string_view{a}, string(buf, hp), e.what(), }; return false; } void ircd::m::room::aliases::cache::fetch(const alias &a, const net::hostport &hp) { using prototype = void (const alias &, const net::hostport &); static mods::import call { "m_room_aliases", "ircd::m::room::aliases::cache::fetch" }; return call(a, hp); } ircd::m::room::id::buf ircd::m::room::aliases::cache::get(const alias &a) { id::buf ret; get(a, [&ret] (const id &room_id) { ret = room_id; }); return ret; } ircd::m::room::id::buf ircd::m::room::aliases::cache::get(std::nothrow_t, const alias &a) { id::buf ret; get(std::nothrow, a, [&ret] (const id &room_id) { ret = room_id; }); return ret; } void ircd::m::room::aliases::cache::get(const alias &a, const id::closure &c) { if(!get(std::nothrow, a, c)) throw m::NOT_FOUND { "Cannot find room_id for %s", string_view{a} }; } bool ircd::m::room::aliases::cache::get(std::nothrow_t, const alias &a, const id::closure &c) { using prototype = bool (std::nothrow_t, const alias &, const id::closure &); static mods::import call { "m_room_aliases", "ircd::m::room::aliases::cache::get" }; return call(std::nothrow, a, c); } bool ircd::m::room::aliases::cache::has(const alias &a) { using prototype = bool (const alias &); static mods::import call { "m_room_aliases", "ircd::m::room::aliases::cache::has" }; return call(a); } bool ircd::m::room::aliases::cache::for_each(const closure_bool &c) { return for_each(string_view{}, c); } bool ircd::m::room::aliases::cache::for_each(const string_view &s, const closure_bool &c) { using prototype = bool (const string_view &, const closure_bool &); static mods::import call { "m_room_aliases", "ircd::m::room::aliases::cache::for_each" }; return call(s, c); } // // room::power // decltype(ircd::m::room::power::default_creator_level) ircd::m::room::power::default_creator_level { 100 }; decltype(ircd::m::room::power::default_power_level) ircd::m::room::power::default_power_level { 50 }; decltype(ircd::m::room::power::default_event_level) ircd::m::room::power::default_event_level { 0 }; decltype(ircd::m::room::power::default_user_level) ircd::m::room::power::default_user_level { 0 }; ircd::json::object ircd::m::room::power::default_content(const mutable_buffer &buf, const m::user::id &creator) { json::stack out{buf}; json::stack::object content{out}; assert(default_power_level == 50); json::stack::member { content, "ban", json::value(default_power_level) }; json::stack::object { content, "events" }; assert(default_event_level == 0); json::stack::member { content, "events_default", json::value(default_event_level) }; json::stack::member { content, "invite", json::value(default_power_level) }; json::stack::member { content, "kick", json::value(default_power_level) }; { json::stack::object notifications { content, "notifications" }; json::stack::member { notifications, "room", json::value(default_power_level) }; } json::stack::member { content, "redact", json::value(default_power_level) }; json::stack::member { content, "state_default", json::value(default_power_level) }; { json::stack::object users { content, "users" }; assert(default_creator_level == 100); json::stack::member { users, creator, json::value(default_creator_level) }; } assert(default_user_level == 0); json::stack::member { content, "users_default", json::value(default_user_level) }; content.~object(); return json::object{out.completed()}; } // // room::power::power // ircd::m::room::power::power(const m::room &room) :power { room, room.get(std::nothrow, "m.room.power_levels", "") } { } ircd::m::room::power::power(const m::room &room, const event::idx &power_event_idx) :room { room } ,power_event_idx { power_event_idx } { } ircd::m::room::power::power(const m::event &power_event, const m::event &create_event) :power { power_event, m::user::id(unquote(json::get<"content"_>(create_event).get("creator"))) } { } ircd::m::room::power::power(const m::event &power_event, const m::user::id &room_creator_id) :power { json::get<"content"_>(power_event), room_creator_id } { } ircd::m::room::power::power(const json::object &power_event_content, const m::user::id &room_creator_id) :power_event_content { power_event_content } ,room_creator_id { room_creator_id } { } bool ircd::m::room::power::operator()(const m::user::id &user_id, const string_view &prop, const string_view &type, const string_view &state_key) const { const auto &user_level { level_user(user_id) }; const auto &required_level { empty(prop) || prop == "events"? level_event(type, state_key): level(prop) }; return user_level >= required_level; } int64_t ircd::m::room::power::level_user(const m::user::id &user_id) const try { int64_t ret { default_user_level }; const auto closure{[&user_id, &ret] (const json::object &content) { const auto users_default { content.get("users_default", default_user_level) }; const json::object &users { content.get("users") }; ret = users.get(user_id, users_default); }}; const bool has_power_levels_event { view(closure) }; if(!has_power_levels_event) { if(room_creator_id && user_id == room_creator_id) ret = default_creator_level; if(room.room_id && creator(room, user_id)) ret = default_creator_level; } return ret; } catch(const json::error &e) { return default_user_level; } int64_t ircd::m::room::power::level_event(const string_view &type) const try { int64_t ret { default_event_level }; const auto closure{[&type, &ret] (const json::object &content) { const auto &events_default { content.get("events_default", default_event_level) }; const json::object &events { content.get("events") }; ret = events.get(type, events_default); }}; const bool has_power_levels_event { view(closure) }; return ret; } catch(const json::error &e) { return default_event_level; } int64_t ircd::m::room::power::level_event(const string_view &type, const string_view &state_key) const try { if(!defined(state_key)) return level_event(type); int64_t ret { default_power_level }; const auto closure{[&type, &ret] (const json::object &content) { const auto &state_default { content.get("state_default", default_power_level) }; const json::object &events { content.get("events") }; ret = events.get(type, state_default); }}; const bool has_power_levels_event { view(closure) }; return ret; } catch(const json::error &e) { return default_power_level; } int64_t ircd::m::room::power::level(const string_view &prop) const try { int64_t ret { default_power_level }; view([&prop, &ret] (const json::object &content) { ret = content.at(prop); }); return ret; } catch(const json::error &e) { return default_power_level; } size_t ircd::m::room::power::count_levels() const { size_t ret{0}; for_each([&ret] (const string_view &, const int64_t &) { ++ret; }); return ret; } size_t ircd::m::room::power::count_collections() const { size_t ret{0}; view([&ret] (const json::object &content) { for(const auto &member : content) ret += json::type(member.second) == json::OBJECT; }); return ret; } size_t ircd::m::room::power::count(const string_view &prop) const { size_t ret{0}; for_each(prop, [&ret] (const string_view &, const int64_t &) { ++ret; }); return ret; } bool ircd::m::room::power::has_event(const string_view &type) const try { bool ret{false}; view([&type, &ret] (const json::object &content) { const json::object &events { content.at("events") }; const string_view &level { unquote(events.at(type)) }; ret = json::type(level) == json::NUMBER; }); return ret; } catch(const json::error &) { return false; } bool ircd::m::room::power::has_user(const m::user::id &user_id) const try { bool ret{false}; view([&user_id, &ret] (const json::object &content) { const json::object &users { content.at("users") }; const string_view &level { unquote(users.at(user_id)) }; ret = json::type(level) == json::NUMBER; }); return ret; } catch(const json::error &) { return false; } bool ircd::m::room::power::has_collection(const string_view &prop) const { bool ret{false}; view([&prop, &ret] (const json::object &content) { const auto &value{content.get(prop)}; if(value && json::type(value) == json::OBJECT) ret = true; }); return ret; } bool ircd::m::room::power::has_level(const string_view &prop) const { bool ret{false}; view([&prop, &ret] (const json::object &content) { const auto &value(unquote(content.get(prop))); if(value && json::type(value) == json::NUMBER) ret = true; }); return ret; } void ircd::m::room::power::for_each(const closure &closure) const { for_each(string_view{}, closure); } bool ircd::m::room::power::for_each(const closure_bool &closure) const { return for_each(string_view{}, closure); } void ircd::m::room::power::for_each(const string_view &prop, const closure &closure) const { for_each(prop, closure_bool{[&closure] (const string_view &key, const int64_t &level) { closure(key, level); return true; }}); } bool ircd::m::room::power::for_each(const string_view &prop, const closure_bool &closure) const { bool ret{true}; view([&prop, &closure, &ret] (const json::object &content) { const json::object &collection { // This little cmov gimmick sets collection to be the outer object // itself if no property was given, allowing us to reuse this func // for all iterations of key -> level mappings. prop? json::object{content.get(prop)} : content }; if(prop && json::type(string_view{collection}) != json::OBJECT) return; for(auto it(begin(collection)); it != end(collection) && ret; ++it) { const auto &member(*it); if(json::type(unquote(member.second)) != json::NUMBER) continue; const auto &key { unquote(member.first) }; const auto &val { lex_cast(member.second) }; ret = closure(key, val); } }); return ret; } bool ircd::m::room::power::view(const std::function &closure) const { if(power_event_idx) if(m::get(std::nothrow, power_event_idx, "content", closure)) return true; closure(power_event_content); return !empty(power_event_content); } // // room::stats // size_t __attribute__((noreturn)) ircd::m::room::stats::bytes_total(const m::room &room) { throw m::UNSUPPORTED { "Not yet implemented." }; } size_t __attribute__((noreturn)) ircd::m::room::stats::bytes_total_compressed(const m::room &room) { throw m::UNSUPPORTED { "Not yet implemented." }; } size_t ircd::m::room::stats::bytes_json(const m::room &room) { size_t ret(0); for(m::room::messages it(room); it; --it) { const m::event::idx &event_idx { it.event_idx() }; const byte_view key { event_idx }; static const db::gopts gopts { db::get::NO_CACHE }; ret += db::bytes_value(m::dbs::event_json, key, gopts); } return ret; } size_t __attribute__((noreturn)) ircd::m::room::stats::bytes_json_compressed(const m::room &room) { throw m::UNSUPPORTED { "Not yet implemented." }; } //TODO: temp namespace ircd::m { extern "C" void room_herd(const m::room &, const m::user &, const milliseconds &); extern "C" size_t dagree_histogram(const m::room &, std::vector &); } void ircd::m::room_herd(const m::room &room, const m::user &user, const milliseconds &timeout) { using closure_prototype = bool (const string_view &, std::exception_ptr, const json::object &); using prototype = void (const m::room::id &, const m::user::id &, const milliseconds &, const std::function &); static mods::import feds__head { "federation_federation", "feds__head" }; std::set event_ids; feds__head(room.room_id, user.user_id, timeout, [&event_ids] (const string_view &origin, std::exception_ptr eptr, const json::object &event) { if(eptr) return true; const json::array prev_events { event.at("prev_events") }; for(const json::array prev_event : prev_events) { const auto &prev_event_id { unquote(prev_event.at(0)) }; event_ids.emplace(prev_event_id); }; return true; }); size_t i(0); for(const m::event::id &event_id : event_ids) if(exists(event_id)) { m::room::head::modify(event_id, db::op::SET, false); ++i; } const m::room::head head { room }; for(; i + 1 >= 1 && head.count() > 1; --i) { const auto eid { send(room, user, "ircd.room.revelation", json::object{}) }; ctx::sleep(seconds(2)); } } size_t ircd::m::dagree_histogram(const m::room &room, std::vector &vec) { static const m::event::fetch::opts fopts { { db::get::NO_CACHE }, m::event::keys::include { "event_id", "prev_events", } }; m::room::messages it { room, &fopts }; size_t ret{0}; for(; it; --it) { const m::event event{*it}; const size_t num{degree(event)}; if(unlikely(num >= vec.size())) { log::warning { m::log, "Event '%s' had %zu prev events (ignored)", string_view(at<"event_id"_>(event)) }; continue; } ++vec[num]; ++ret; } return ret; }