%%%------------------------------------------------------------------- %%% File : mod_muc_mnesia.erl %%% Author : Evgeny Khramtsov %%% Created : 13 Apr 2016 by Evgeny Khramtsov %%% %%% %%% ejabberd, Copyright (C) 2002-2021 ProcessOne %%% %%% This program is free software; you can redistribute it and/or %%% modify it under the terms of the GNU General Public License as %%% published by the Free Software Foundation; either version 2 of the %%% License, or (at your option) any later version. %%% %%% This program is distributed in the hope that it will be useful, %%% but WITHOUT ANY WARRANTY; without even the implied warranty of %%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU %%% General Public License for more details. %%% %%% You should have received a copy of the GNU General Public License along %%% with this program; if not, write to the Free Software Foundation, Inc., %%% 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. %%% %%%---------------------------------------------------------------------- -module(mod_muc_mnesia). -behaviour(mod_muc). -behaviour(mod_muc_room). %% API -export([init/2, import/3, store_room/5, restore_room/3, forget_room/3, can_use_nick/4, get_rooms/2, get_nick/3, set_nick/4]). -export([register_online_room/4, unregister_online_room/4, find_online_room/3, get_online_rooms/3, count_online_rooms/2, rsm_supported/0, register_online_user/4, unregister_online_user/4, count_online_rooms_by_user/3, get_online_rooms_by_user/3]). -export([set_affiliation/6, set_affiliations/4, get_affiliation/5, get_affiliations/3, search_affiliation/4]). %% gen_server callbacks -export([start_link/2, init/1, handle_cast/2, handle_call/3, handle_info/2, terminate/2, code_change/3]). -export([need_transform/1, transform/1]). -include("mod_muc.hrl"). -include("logger.hrl"). -include_lib("xmpp/include/xmpp.hrl"). -include_lib("stdlib/include/ms_transform.hrl"). -record(state, {}). %%%=================================================================== %%% API %%%=================================================================== init(Host, Opts) -> Spec = {?MODULE, {?MODULE, start_link, [Host, Opts]}, transient, 5000, worker, [?MODULE]}, case supervisor:start_child(ejabberd_backend_sup, Spec) of {ok, _Pid} -> ok; Err -> Err end. start_link(Host, Opts) -> Name = gen_mod:get_module_proc(Host, ?MODULE), gen_server:start_link({local, Name}, ?MODULE, [Host, Opts], []). store_room(_LServer, Host, Name, Opts, _) -> F = fun () -> mnesia:write(#muc_room{name_host = {Name, Host}, opts = Opts}) end, mnesia:transaction(F). restore_room(_LServer, Host, Name) -> case catch mnesia:dirty_read(muc_room, {Name, Host}) of [#muc_room{opts = Opts}] -> Opts; _ -> error end. forget_room(_LServer, Host, Name) -> F = fun () -> mnesia:delete({muc_room, {Name, Host}}) end, mnesia:transaction(F). can_use_nick(_LServer, Host, JID, Nick) -> {LUser, LServer, _} = jid:tolower(JID), LUS = {LUser, LServer}, case catch mnesia:dirty_select(muc_registered, [{#muc_registered{us_host = '$1', nick = Nick, _ = '_'}, [{'==', {element, 2, '$1'}, Host}], ['$_']}]) of {'EXIT', _Reason} -> true; [] -> true; [#muc_registered{us_host = {U, _Host}}] -> U == LUS end. get_rooms(_LServer, Host) -> mnesia:dirty_select(muc_room, [{#muc_room{name_host = {'_', Host}, _ = '_'}, [], ['$_']}]). get_nick(_LServer, Host, From) -> {LUser, LServer, _} = jid:tolower(From), LUS = {LUser, LServer}, case mnesia:dirty_read(muc_registered, {LUS, Host}) of [] -> error; [#muc_registered{nick = Nick}] -> Nick end. set_nick(_LServer, Host, From, Nick) -> {LUser, LServer, _} = jid:tolower(From), LUS = {LUser, LServer}, F = fun () -> case Nick of <<"">> -> mnesia:delete({muc_registered, {LUS, Host}}), ok; _ -> Allow = case mnesia:select( muc_registered, [{#muc_registered{us_host = '$1', nick = Nick, _ = '_'}, [{'==', {element, 2, '$1'}, Host}], ['$_']}]) of [] -> true; [#muc_registered{us_host = {U, _Host}}] -> U == LUS end, if Allow -> mnesia:write(#muc_registered{ us_host = {LUS, Host}, nick = Nick}), ok; true -> false end end end, mnesia:transaction(F). set_affiliation(_ServerHost, _Room, _Host, _JID, _Affiliation, _Reason) -> {error, not_implemented}. set_affiliations(_ServerHost, _Room, _Host, _Affiliations) -> {error, not_implemented}. get_affiliation(_ServerHost, _Room, _Host, _LUser, _LServer) -> {error, not_implemented}. get_affiliations(_ServerHost, _Room, _Host) -> {error, not_implemented}. search_affiliation(_ServerHost, _Room, _Host, _Affiliation) -> {error, not_implemented}. register_online_room(_ServerHost, Room, Host, Pid) -> F = fun() -> mnesia:write( #muc_online_room{name_host = {Room, Host}, pid = Pid}) end, mnesia:transaction(F). unregister_online_room(_ServerHost, Room, Host, Pid) -> F = fun () -> mnesia:delete_object( #muc_online_room{name_host = {Room, Host}, pid = Pid}) end, mnesia:transaction(F). find_online_room(_ServerHost, Room, Host) -> find_online_room(Room, Host). find_online_room(Room, Host) -> case mnesia:dirty_read(muc_online_room, {Room, Host}) of [] -> error; [#muc_online_room{pid = Pid}] -> {ok, Pid} end. count_online_rooms(_ServerHost, Host) -> ets:select_count( muc_online_room, ets:fun2ms( fun(#muc_online_room{name_host = {_, H}}) -> H == Host end)). get_online_rooms(_ServerHost, Host, #rsm_set{max = Max, 'after' = After, before = undefined}) when is_binary(After), After /= <<"">> -> lists:reverse(get_online_rooms(next, {After, Host}, Host, 0, Max, [])); get_online_rooms(_ServerHost, Host, #rsm_set{max = Max, 'after' = undefined, before = Before}) when is_binary(Before), Before /= <<"">> -> get_online_rooms(prev, {Before, Host}, Host, 0, Max, []); get_online_rooms(_ServerHost, Host, #rsm_set{max = Max, 'after' = undefined, before = <<"">>}) -> get_online_rooms(last, {<<"">>, Host}, Host, 0, Max, []); get_online_rooms(_ServerHost, Host, #rsm_set{max = Max}) -> lists:reverse(get_online_rooms(first, {<<"">>, Host}, Host, 0, Max, [])); get_online_rooms(_ServerHost, Host, undefined) -> mnesia:dirty_select( muc_online_room, ets:fun2ms( fun(#muc_online_room{name_host = {Name, H}, pid = Pid}) when H == Host -> {Name, Host, Pid} end)). -spec get_online_rooms(prev | next | last | first, {binary(), binary()}, binary(), non_neg_integer(), non_neg_integer() | undefined, [{binary(), binary(), pid()}]) -> [{binary(), binary(), pid()}]. get_online_rooms(_Action, _Key, _Host, Count, Max, Items) when Count >= Max -> Items; get_online_rooms(Action, Key, Host, Count, Max, Items) -> Call = fun() -> case Action of prev -> mnesia:dirty_prev(muc_online_room, Key); next -> mnesia:dirty_next(muc_online_room, Key); last -> mnesia:dirty_last(muc_online_room); first -> mnesia:dirty_first(muc_online_room) end end, NewAction = case Action of last -> prev; first -> next; _ -> Action end, try Call() of '$end_of_table' -> Items; {Room, Host} = NewKey -> case find_online_room(Room, Host) of {ok, Pid} -> get_online_rooms(NewAction, NewKey, Host, Count + 1, Max, [{Room, Host, Pid}|Items]); error -> get_online_rooms(NewAction, NewKey, Host, Count, Max, Items) end; NewKey -> get_online_rooms(NewAction, NewKey, Host, Count, Max, Items) catch _:{aborted, {badarg, _}} -> Items end. rsm_supported() -> true. register_online_user(_ServerHost, {U, S, R}, Room, Host) -> ets:insert(muc_online_users, #muc_online_users{us = {U, S}, resource = R, room = Room, host = Host}). unregister_online_user(_ServerHost, {U, S, R}, Room, Host) -> ets:delete_object(muc_online_users, #muc_online_users{us = {U, S}, resource = R, room = Room, host = Host}). count_online_rooms_by_user(ServerHost, U, S) -> MucHost = hd(gen_mod:get_module_opt_hosts(ServerHost, mod_muc)), ets:select_count( muc_online_users, ets:fun2ms( fun(#muc_online_users{us = {U1, S1}, host = Host}) -> U == U1 andalso S == S1 andalso MucHost == Host end)). get_online_rooms_by_user(ServerHost, U, S) -> MucHost = hd(gen_mod:get_module_opt_hosts(ServerHost, mod_muc)), ets:select( muc_online_users, ets:fun2ms( fun(#muc_online_users{us = {U1, S1}, room = Room, host = Host}) when U == U1 andalso S == S1 andalso MucHost == Host -> {Room, Host} end)). import(_LServer, <<"muc_room">>, [Name, RoomHost, SOpts, _TimeStamp]) -> Opts = mod_muc:opts_to_binary(ejabberd_sql:decode_term(SOpts)), mnesia:dirty_write( #muc_room{name_host = {Name, RoomHost}, opts = Opts}); import(_LServer, <<"muc_registered">>, [J, RoomHost, Nick, _TimeStamp]) -> #jid{user = U, server = S} = jid:decode(J), mnesia:dirty_write( #muc_registered{us_host = {{U, S}, RoomHost}, nick = Nick}). %%%=================================================================== %%% gen_server callbacks %%%=================================================================== init([_Host, Opts]) -> MyHosts = mod_muc_opt:hosts(Opts), case gen_mod:db_mod(Opts, mod_muc) of ?MODULE -> ejabberd_mnesia:create(?MODULE, muc_room, [{disc_copies, [node()]}, {attributes, record_info(fields, muc_room)}]), ejabberd_mnesia:create(?MODULE, muc_registered, [{disc_copies, [node()]}, {attributes, record_info(fields, muc_registered)}, {index, [nick]}]); _ -> ok end, case gen_mod:ram_db_mod(Opts, mod_muc) of ?MODULE -> ejabberd_mnesia:create(?MODULE, muc_online_room, [{ram_copies, [node()]}, {type, ordered_set}, {attributes, record_info(fields, muc_online_room)}]), catch ets:new(muc_online_users, [bag, named_table, public, {keypos, 2}]), lists:foreach( fun(MyHost) -> clean_table_from_bad_node(node(), MyHost) end, MyHosts), mnesia:subscribe(system); _ -> ok end, {ok, #state{}}. handle_call(Request, From, State) -> ?WARNING_MSG("Unexpected call from ~p: ~p", [From, Request]), {noreply, State}. handle_cast(Msg, State) -> ?WARNING_MSG("Unexpected cast: ~p", [Msg]), {noreply, State}. handle_info({mnesia_system_event, {mnesia_down, Node}}, State) -> clean_table_from_bad_node(Node), {noreply, State}; handle_info({mnesia_system_event, {mnesia_up, _Node}}, State) -> {noreply, State}; handle_info(Info, State) -> ?WARNING_MSG("Unexpected info: ~p", [Info]), {noreply, State}. terminate(_Reason, _State) -> ok. code_change(_OldVsn, State, _Extra) -> {ok, State}. %%%=================================================================== %%% Internal functions %%%=================================================================== clean_table_from_bad_node(Node) -> F = fun() -> Es = mnesia:select( muc_online_room, [{#muc_online_room{pid = '$1', _ = '_'}, [{'==', {node, '$1'}, Node}], ['$_']}]), lists:foreach(fun(E) -> mnesia:delete_object(E) end, Es) end, mnesia:async_dirty(F). clean_table_from_bad_node(Node, Host) -> F = fun() -> Es = mnesia:select( muc_online_room, [{#muc_online_room{pid = '$1', name_host = {'_', Host}, _ = '_'}, [{'==', {node, '$1'}, Node}], ['$_']}]), lists:foreach(fun(E) -> mnesia:delete_object(E) end, Es) end, mnesia:async_dirty(F). need_transform({muc_room, {N, H}, _}) when is_list(N) orelse is_list(H) -> ?INFO_MSG("Mnesia table 'muc_room' will be converted to binary", []), true; need_transform({muc_registered, {{U, S}, H}, Nick}) when is_list(U) orelse is_list(S) orelse is_list(H) orelse is_list(Nick) -> ?INFO_MSG("Mnesia table 'muc_registered' will be converted to binary", []), true; need_transform(_) -> false. transform(#muc_room{name_host = {N, H}, opts = Opts} = R) -> R#muc_room{name_host = {iolist_to_binary(N), iolist_to_binary(H)}, opts = mod_muc:opts_to_binary(Opts)}; transform(#muc_registered{us_host = {{U, S}, H}, nick = Nick} = R) -> R#muc_registered{us_host = {{iolist_to_binary(U), iolist_to_binary(S)}, iolist_to_binary(H)}, nick = iolist_to_binary(Nick)}.