// Matrix Construct // // Copyright (C) Matrix Construct Developers, Authors & Contributors // Copyright (C) 2016-2019 Jason Volk // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice is present in all copies. The // full license for this software is available in the LICENSE file. namespace ircd::m { static void check_room_auth_rule_9(const m::event &, room::auth::hookdata &); static void check_room_auth_rule_8(const m::event &, room::auth::hookdata &); static void check_room_auth_rule_6(const m::event &, room::auth::hookdata &); static void check_room_auth_rule_3(const m::event &, room::auth::hookdata &); static void check_room_auth_rule_2(const m::event &, room::auth::hookdata &); extern hook::site room_auth_hook; } decltype(ircd::m::room_auth_hook) ircd::m::room_auth_hook { { "name", "room.auth" }, { "exceptions", true }, }; // // generate // ircd::json::array ircd::m::room::auth::generate(const mutable_buffer &buf, const m::room &room, const m::event &event) { json::stack out{buf}; json::stack::checkpoint cp{out}; { json::stack::array array{out}; if(!generate(array, room, event)) cp.decommit(); } return json::array{out.completed()}; } bool ircd::m::room::auth::generate(json::stack::array &out, const m::room &room, const m::event &event) { const m::event::id::closure &v1_ref{[&out] (const auto &event_id) { json::stack::array auth{out}; auth.append(event_id); { json::stack::object nilly{auth}; json::stack::member willy { nilly, "", "" }; } }}; const m::event::id::closure &v3_ref{[&out] (const auto &event_id) { out.append(event_id); }}; char versionbuf[64]; const auto version { m::version(versionbuf, room, std::nothrow) }; assert(version); const auto &fetch_append { version == "1" || version == "2"? v1_ref : v3_ref }; const m::room::state state { room }; const auto &type { json::get<"type"_>(event) }; if(!type) return false; if(type == "m.room.create") return false; state.get(std::nothrow, "m.room.create", "", fetch_append); state.get(std::nothrow, "m.room.power_levels", "", fetch_append); if(type == "m.room.member") if(!m::membership(event) || m::membership(event) == "join" || m::membership(event) == "invite") state.get(std::nothrow, "m.room.join_rules", "", fetch_append); const string_view member_sender { defined(json::get<"sender"_>(event))? m::user::id{at<"sender"_>(event)}: m::user::id{} }; if(member_sender) state.get(std::nothrow, "m.room.member", member_sender, fetch_append); m::user::id member_target; if(json::get<"sender"_>(event) && json::get<"state_key"_>(event)) if(at<"sender"_>(event) != at<"state_key"_>(event)) if(valid(m::id::USER, at<"state_key"_>(event))) member_target = at<"state_key"_>(event); if(member_target) state.get(std::nothrow, "m.room.member", member_target, fetch_append); return true; } // // check // void ircd::m::room::auth::check(const event &event) { const bool check_static { true }; const bool check_relative { m::exists(event.event_id) }; const bool check_present { true }; if(check_static) { const auto &[pass, fail] { auth::check_static(event) }; if(pass) return; throw FAIL { "Fails against provided auth_events :%s", what(fail), }; } if(check_relative) { const auto &[pass, fail] { auth::check_relative(event) }; if(pass) return; throw FAIL { "Fails against the state of the room at the event :%s", what(fail), }; } if(check_present) { const auto &[pass, fail] { auth::check_present(event) }; if(pass) return; throw FAIL { "Fails against the present state of the room :%s", what(fail), }; } } ircd::m::room::auth::passfail ircd::m::room::auth::check_relative(const event &event) try { using json::at; const m::room room { at<"room_id"_>(event), event.event_id }; return check(event, room); } catch(const ctx::interrupted &) { throw; } catch(const std::exception &) { return { false, std::current_exception() }; } ircd::m::room::auth::passfail ircd::m::room::auth::check_present(const event &event) try { using json::at; if(at<"type"_>(event) == "m.room.create") return {true, {}}; const bool is_leave_event { at<"type"_>(event) == "m.room.member" && (m::membership(event) == "leave" || m::membership(event) == "ban") }; if(is_leave_event) return {true, {}}; const m::room room { at<"room_id"_>(event) }; return check(event, room); } catch(const ctx::interrupted &) { throw; } catch(const std::exception &) { return { false, std::current_exception() }; } ircd::m::room::auth::passfail ircd::m::room::auth::check_static(const event &event) try { using json::at; const m::event::prev refs { event }; const auto count { refs.auth_events_count() }; if(count > 4) log::dwarning { "Event %s has an unexpected %zu auth_events references", string_view{event.event_id}, count, }; m::event::idx idx[4] { count > 0? m::index(refs.auth_event(0)): 0UL, count > 1? m::index(refs.auth_event(1)): 0UL, count > 2? m::index(refs.auth_event(2)): 0UL, count > 3? m::index(refs.auth_event(3)): 0UL, }; return check(event, vector_view{idx, count}); } catch(const ctx::interrupted &) { throw; } catch(const std::exception &) { return { false, std::current_exception() }; } ircd::m::room::auth::passfail ircd::m::room::auth::check(const event &event, const room &room) { using json::at; m::event::idx idx[5] { room.get(std::nothrow, "m.room.create", ""), room.get(std::nothrow, "m.room.power_levels", ""), room.get(std::nothrow, "m.room.member", at<"sender"_>(event)), at<"type"_>(event) == "m.room.member" && (membership(event) == "join" || membership(event) == "invite")? room.get(std::nothrow, "m.room.join_rules", ""): 0UL, at<"type"_>(event) == "m.room.member" && at<"sender"_>(event) != json::get<"state_key"_>(event) && valid(m::id::USER, json::get<"state_key"_>(event))? room.get(std::nothrow, "m.room.member", at<"state_key"_>(event)): 0UL, }; return check(event, vector_view{idx, 5}); } ircd::m::room::auth::passfail ircd::m::room::auth::check(const event &event, const vector_view &idx) { std::array auth; for(size_t i(0), j(0); i < idx.size(); ++i) if(idx.at(i)) m::seek(auth.at(j++), idx.at(i), std::nothrow); size_t j(0); std::array authv; for(size_t i(0); i < auth.size(); ++i) if(auth.at(i).valid) authv.at(j++) = &auth.at(i); hookdata data { event, {authv.data(), j} }; return check(event, data); } ircd::m::room::auth::passfail ircd::m::room::auth::check(const event &event, hookdata &data) try { // 1. If type is m.room.create: if(json::get<"type"_>(event) == "m.room.create") { room_auth_hook(event, data); return {data.allow, data.fail}; } // 2. Reject if event has auth_events that: check_room_auth_rule_2(event, data); // 3. If event does not have a m.room.create in its auth_events, reject. check_room_auth_rule_3(event, data); // 4. If type is m.room.aliases if(json::get<"type"_>(event) == "m.room.aliases") { room_auth_hook(event, data); return {data.allow, data.fail}; } // 5. If type is m.room.member if(json::get<"type"_>(event) == "m.room.member") { room_auth_hook(event, data); return {data.allow, data.fail}; } // 6. If the sender's current membership state is not join, reject. check_room_auth_rule_6(event, data); // 7. If type is m.room.third_party_invite: if(json::get<"type"_>(event) == "m.room.third_party_invite") { room_auth_hook(event, data); return {data.allow, data.fail}; } // 8. If the event type's required power level is greater than the // sender's power level, reject. check_room_auth_rule_8(event, data); // 9. If the event has a state_key that starts with an @ and does not // match the sender, reject. check_room_auth_rule_9(event, data); // 10. If type is m.room.power_levels: if(json::get<"type"_>(event) == "m.room.power_levels") { room_auth_hook(event, data); return {data.allow, data.fail}; } // 11. If type is m.room.redaction: if(json::get<"type"_>(event) == "m.room.redaction") { room_auth_hook(event, data); return {data.allow, data.fail}; } // (non-spec) Call the hook for any types without a branch enumerated // here. The handler will throw on a failure, otherwise fallthrough to // the next rule. room_auth_hook(event, data); // 12. Otherwise, allow. data.allow = true; assert(!data.fail); return {data.allow, data.fail}; } catch(const FAIL &e) { data.allow = false; data.fail = std::current_exception(); return {data.allow, data.fail}; } // // m::room::auth internal // void ircd::m::check_room_auth_rule_2(const m::event &event, room::auth::hookdata &data) { using FAIL = room::auth::FAIL; // 2. Reject if event has auth_events that: for(size_t i(0); i < data.auth_events.size(); ++i) { // a. have duplicate entries for a given type and state_key pair const m::event &a { *data.auth_events.at(i) }; for(size_t j(0); j < data.auth_events.size(); ++j) if(i != j) { const m::event &b { *data.auth_events.at(j) }; if(json::get<"type"_>(a) == json::get<"type"_>(b)) if(json::get<"state_key"_>(a) == json::get<"state_key"_>(b)) throw FAIL { "Duplicate (type,state_key) in auth_events." }; } // aa. have auth events that are not in the same room. if(at<"room_id"_>(a) != at<"room_id"_>(event)) throw FAIL { "Auth event %s in %s cannot be used in %s", string_view{a.event_id}, at<"room_id"_>(a), at<"room_id"_>(event), }; // b. have entries whose type and state_key don't match those specified by // the auth events selection algorithm described in the server... const string_view &type { json::get<"type"_>(a) }; if(type == "m.room.create") continue; if(type == "m.room.power_levels") continue; if(type == "m.room.join_rules") continue; if(type == "m.room.member") { if(json::get<"sender"_>(event) == json::get<"state_key"_>(a)) continue; if(json::get<"state_key"_>(event) == json::get<"state_key"_>(a)) continue; } throw FAIL { "Reference in auth_events is not an auth_event." }; } } void ircd::m::check_room_auth_rule_3(const m::event &event, room::auth::hookdata &data) { using FAIL = room::auth::FAIL; // 3. If event does not have a m.room.create in its auth_events, reject. if(!data.auth_create) throw FAIL { "Missing m.room.create in auth_events." }; } void ircd::m::check_room_auth_rule_6(const m::event &event, room::auth::hookdata &data) { using FAIL = room::auth::FAIL; // 6. If the sender's current membership state is not join, reject. if(data.auth_member_sender) if(membership(*data.auth_member_sender) != "join") throw FAIL { "sender is not joined to room." }; } void ircd::m::check_room_auth_rule_8(const m::event &event, room::auth::hookdata &data) { using FAIL = room::auth::FAIL; const m::room::power power { data.auth_power? *data.auth_power : m::event{}, *data.auth_create }; // 8. If the event type's required power level is greater than the // sender's power level, reject. if(!power(at<"sender"_>(event), "events", at<"type"_>(event), json::get<"state_key"_>(event))) throw FAIL { "sender has insufficient power for event type." }; } void ircd::m::check_room_auth_rule_9(const m::event &event, room::auth::hookdata &data) { using FAIL = room::auth::FAIL; // 9. If the event has a state_key that starts with an @ and does not // match the sender, reject. if(startswith(json::get<"state_key"_>(event), '@')) if(at<"state_key"_>(event) != at<"sender"_>(event)) throw FAIL { "sender cannot set another user's mxid in a state_key." }; } bool ircd::m::room::auth::is_power_event(const m::event &event) { if(!json::get<"type"_>(event)) return false; if(json::get<"type"_>(event) == "m.room.create") return true; if(json::get<"type"_>(event) == "m.room.power_levels") return true; if(json::get<"type"_>(event) == "m.room.join_rules") return true; if(json::get<"type"_>(event) != "m.room.member") return false; if(!json::get<"sender"_>(event) || !json::get<"state_key"_>(event)) return false; if(json::get<"sender"_>(event) == json::get<"state_key"_>(event)) return false; if(membership(event) == "leave" || membership(event) == "ban") return true; return false; } // // room::auth::hookdata // ircd::m::room::auth::hookdata::hookdata(const m::event &event, const vector_view &auth_events) :prev { event } ,auth_events { auth_events } ,auth_create { find([](const auto &event) { return json::get<"type"_>(event) == "m.room.create"; }) } ,auth_power { find([](const auto &event) { return json::get<"type"_>(event) == "m.room.power_levels"; }) } ,auth_join_rules { find([](const auto &event) { return json::get<"type"_>(event) == "m.room.join_rules"; }) } ,auth_member_target { find([&event](const auto &auth_event) { return json::get<"type"_>(auth_event) == "m.room.member" && json::get<"state_key"_>(auth_event) == json::get<"state_key"_>(event); }) } ,auth_member_sender { find([&event](const auto &auth_event) { return json::get<"type"_>(auth_event) == "m.room.member" && json::get<"state_key"_>(auth_event) == json::get<"sender"_>(event); }) } { } const ircd::m::event * ircd::m::room::auth::hookdata::find(const event::closure_bool &closure) const { for(const auto *const &event : auth_events) if(likely(event) && closure(*event)) return event; return nullptr; } // // room::auth::refs // size_t ircd::m::room::auth::refs::count() const { return count(string_view{}); } size_t ircd::m::room::auth::refs::count(const string_view &type) const { size_t ret(0); for_each(type, [&ret](const auto &) { ++ret; return true; }); return ret; } bool ircd::m::room::auth::refs::has(const event::idx &idx) const { return !for_each([&idx](const event::idx &ref) { return ref != idx; // true to continue, false to break }); } bool ircd::m::room::auth::refs::has(const string_view &type) const { bool ret{false}; for_each(type, [&ret](const auto &) { ret = true; return false; }); return ret; } bool ircd::m::room::auth::refs::for_each(const closure_bool &closure) const { return for_each(string_view{}, closure); } bool ircd::m::room::auth::refs::for_each(const string_view &type, const closure_bool &closure) const { assert(idx); const event::refs erefs { idx }; return erefs.for_each(dbs::ref::NEXT_AUTH, [this, &type, &closure] (const event::idx &ref, const dbs::ref &) { bool match; const auto matcher { [&type, &match](const string_view &type_) { match = type == type_; } }; if(type) { if(!m::get(std::nothrow, ref, "type", matcher)) return true; if(!match) return true; } assert(idx != ref); if(!closure(ref)) return false; return true; }); } // // room::auth::chain // size_t ircd::m::room::auth::chain::depth() const { size_t ret(0); for_each([&ret](const auto &) { ++ret; return true; }); return ret; } bool ircd::m::room::auth::chain::has(const string_view &type) const { bool ret(false); for_each([&type, &ret] (const auto &idx) { m::get(std::nothrow, idx, "type", [&type, &ret] (const auto &value) { ret = value == type; }); return !ret; }); return ret; } bool ircd::m::room::auth::chain::for_each(const closure &closure) const { m::event::fetch e, a; std::set ae; std::deque aq {idx}; do { const auto idx(aq.front()); aq.pop_front(); if(!seek(e, idx, std::nothrow)) continue; const m::event::prev prev{e}; for(size_t i(0); i < prev.auth_events_count() && i < 4; ++i) { const m::event::id &auth_event_id { prev.auth_event(i) }; const auto &auth_event_idx { m::index(std::nothrow, auth_event_id) }; if(!auth_event_idx) continue; auto it(ae.lower_bound(auth_event_idx)); if(it == end(ae) || *it != auth_event_idx) { seek(a, auth_event_idx, std::nothrow); ae.emplace_hint(it, auth_event_idx); if(a.valid) aq.emplace_back(auth_event_idx); } } } while(!aq.empty()); for(const auto &idx : ae) if(!closure(idx)) return false; return true; }