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xmpp.chapril.org-ejabberd/src/mod_multicast.erl

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%%%----------------------------------------------------------------------
%%% File : mod_multicast.erl
%%% Author : Badlop <badlop@process-one.net>
%%% Purpose : Extended Stanza Addressing (XEP-0033) support
%%% Created : 29 May 2007 by Badlop <badlop@process-one.net>
2015-10-07 00:06:58 +02:00
%%%
%%%
2018-01-05 21:18:58 +01:00
%%% ejabberd, Copyright (C) 2002-2018 ProcessOne
2015-10-07 00:06:58 +02:00
%%%
%%% 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_multicast).
-author('badlop@process-one.net').
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-protocol({xep, 33, '1.1'}).
-behaviour(gen_server).
-behaviour(gen_mod).
%% API
-export([start/2, stop/1, reload/3,
user_send_packet/1]).
%% gen_server callbacks
-export([init/1, handle_info/2, handle_call/3,
handle_cast/2, terminate/2, code_change/3]).
-export([purge_loop/1, mod_opt_type/1, mod_options/1, depends/2]).
-include("logger.hrl").
-include("translate.hrl").
-include("xmpp.hrl").
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-record(multicastc, {rserver :: binary(),
response,
ts :: integer()}).
-record(dest, {jid_string :: binary() | none,
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jid_jid :: jid(),
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type :: to | cc | bcc,
address :: address()}).
-type limit_value() :: {default | custom, integer()}.
-record(limits, {message :: limit_value(),
presence :: limit_value()}).
-record(service_limits, {local :: #limits{},
remote :: #limits{}}).
-type routing() :: route_single | {route_multicast, binary(), #service_limits{}}.
-record(group, {server :: binary(),
dests :: [#dest{}],
multicast :: routing(),
others :: [#address{}],
addresses :: [#address{}]}).
-record(state, {lserver :: binary(),
lservice :: binary(),
access :: atom(),
service_limits :: #service_limits{}}).
-type state() :: #state{}.
%% All the elements are of type value()
-define(VERSION_MULTICAST, <<"$Revision: 440 $ ">>).
-define(PURGE_PROCNAME,
ejabberd_mod_multicast_purgeloop).
-define(MAXTIME_CACHE_POSITIVE, 86400).
-define(MAXTIME_CACHE_NEGATIVE, 86400).
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-define(MAXTIME_CACHE_NEGOTIATING, 600).
-define(CACHE_PURGE_TIMER, 86400000).
-define(DISCO_QUERY_TIMEOUT, 10000).
-define(DEFAULT_LIMIT_LOCAL_MESSAGE, 100).
-define(DEFAULT_LIMIT_LOCAL_PRESENCE, 100).
-define(DEFAULT_LIMIT_REMOTE_MESSAGE, 20).
-define(DEFAULT_LIMIT_REMOTE_PRESENCE, 20).
start(LServerS, Opts) ->
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gen_mod:start_child(?MODULE, LServerS, Opts).
stop(LServerS) ->
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gen_mod:stop_child(?MODULE, LServerS).
reload(LServerS, NewOpts, OldOpts) ->
Proc = gen_mod:get_module_proc(LServerS, ?MODULE),
gen_server:cast(Proc, {reload, NewOpts, OldOpts}).
-define(SETS, gb_sets).
user_send_packet({#presence{} = Packet, C2SState} = Acc) ->
case xmpp:get_subtag(Packet, #addresses{}) of
#addresses{list = Addresses} ->
{ToDeliver, _Delivereds} = split_addresses_todeliver(Addresses),
NewState =
lists:foldl(
fun(Address, St) ->
case Address#address.jid of
#jid{} = JID ->
LJID = jid:tolower(JID),
#{pres_a := PresA} = St,
A =
case Packet#presence.type of
available ->
?SETS:add_element(LJID, PresA);
unavailable ->
?SETS:del_element(LJID, PresA);
_ ->
PresA
end,
St#{pres_a => A};
undefined ->
St
end
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end, C2SState, ToDeliver),
{Packet, NewState};
false ->
Acc
end;
user_send_packet(Acc) ->
Acc.
%%====================================================================
%% gen_server callbacks
%%====================================================================
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-spec init(list()) -> {ok, state()}.
init([LServerS, Opts]) ->
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process_flag(trap_exit, true),
[LServiceS|_] = gen_mod:get_opt_hosts(LServerS, Opts),
Access = gen_mod:get_opt(access, Opts),
SLimits = build_service_limit_record(gen_mod:get_opt(limits, Opts)),
create_cache(),
try_start_loop(),
ejabberd_router_multicast:register_route(LServerS),
ejabberd_router:register_route(LServiceS, LServerS),
ejabberd_hooks:add(user_send_packet, LServerS, ?MODULE,
user_send_packet, 50),
{ok,
#state{lservice = LServiceS, lserver = LServerS,
access = Access, service_limits = SLimits}}.
handle_call(stop, _From, State) ->
try_stop_loop(), {stop, normal, ok, State}.
handle_cast({reload, NewOpts, NewOpts},
#state{lserver = LServerS, lservice = OldLServiceS} = State) ->
Access = gen_mod:get_opt(access, NewOpts),
SLimits = build_service_limit_record(gen_mod:get_opt(limits, NewOpts)),
[NewLServiceS|_] = gen_mod:get_opt_hosts(LServerS, NewOpts),
if NewLServiceS /= OldLServiceS ->
ejabberd_router:register_route(NewLServiceS, LServerS),
ejabberd_router:unregister_route(OldLServiceS);
true ->
ok
end,
{noreply, State#state{lservice = NewLServiceS,
access = Access, service_limits = SLimits}};
handle_cast(Msg, State) ->
?WARNING_MSG("unexpected cast: ~p", [Msg]),
{noreply, State}.
%%--------------------------------------------------------------------
%% Function: handle_info(Info, State) -> {noreply, State} |
%% {noreply, State, Timeout} |
%% {stop, Reason, State}
%% Description: Handling all non call/cast messages
%%--------------------------------------------------------------------
handle_info({route, #iq{} = Packet}, State) ->
case catch handle_iq(Packet, State) of
{'EXIT', Reason} ->
?ERROR_MSG("Error when processing IQ stanza: ~p",
[Reason]);
_ -> ok
end,
{noreply, State};
%% XEP33 allows only 'message' and 'presence' stanza type
handle_info({route, Packet},
#state{lservice = LServiceS, lserver = LServerS,
access = Access, service_limits = SLimits} =
State) when ?is_stanza(Packet) ->
route_untrusted(LServiceS, LServerS, Access, SLimits, Packet),
{noreply, State};
%% Handle multicast packets sent by trusted local services
handle_info({route_trusted, Destinations, Packet},
#state{lservice = LServiceS, lserver = LServerS} =
State) ->
From = xmpp:get_from(Packet),
case catch route_trusted(LServiceS, LServerS, From, Destinations,
Packet) of
{'EXIT', Reason} ->
?ERROR_MSG("Error in route_trusted: ~p", [Reason]);
_ -> ok
end,
{noreply, State};
handle_info({get_host, Pid}, State) ->
Pid ! {my_host, State#state.lservice},
{noreply, State};
handle_info(_Info, State) -> {noreply, State}.
terminate(_Reason, State) ->
ejabberd_hooks:delete(user_send_packet, State#state.lserver, ?MODULE,
user_send_packet, 50),
ejabberd_router_multicast:unregister_route(State#state.lserver),
ejabberd_router:unregister_route(State#state.lservice),
ok.
code_change(_OldVsn, State, _Extra) -> {ok, State}.
%%====================================================================
%%% Internal functions
%%====================================================================
%%%------------------------
%%% IQ Request Processing
%%%------------------------
handle_iq(Packet, State) ->
try
IQ = xmpp:decode_els(Packet),
case process_iq(IQ, State) of
{result, SubEl} ->
ejabberd_router:route(xmpp:make_iq_result(Packet, SubEl));
{error, Error} ->
ejabberd_router:route_error(Packet, Error);
reply ->
To = xmpp:get_to(IQ),
LServiceS = jid:encode(To),
case Packet#iq.type of
result ->
process_iqreply_result(LServiceS, IQ);
error ->
process_iqreply_error(LServiceS, IQ)
end
end
catch _:{xmpp_codec, Why} ->
Lang = xmpp:get_lang(Packet),
Err = xmpp:err_bad_request(xmpp:io_format_error(Why), Lang),
ejabberd_router:route_error(Packet, Err)
end.
-spec process_iq(iq(), state()) -> {result, xmpp_element()} |
{error, stanza_error()} | reply.
process_iq(#iq{type = get, lang = Lang, from = From,
sub_els = [#disco_info{}]}, State) ->
{result, iq_disco_info(From, Lang, State)};
process_iq(#iq{type = get, sub_els = [#disco_items{}]}, _) ->
{result, #disco_items{}};
process_iq(#iq{type = get, lang = Lang, sub_els = [#vcard_temp{}]}, _) ->
{result, iq_vcard(Lang)};
process_iq(#iq{type = T}, _) when T == set; T == get ->
{error, xmpp:err_service_unavailable()};
process_iq(_, _) ->
reply.
-define(FEATURE(Feat), Feat).
iq_disco_info(From, Lang, State) ->
Name = gen_mod:get_module_opt(State#state.lserver, ?MODULE, name),
#disco_info{
identities = [#identity{category = <<"service">>,
type = <<"multicast">>,
name = translate:translate(Lang, Name)}],
features = [?NS_DISCO_INFO, ?NS_DISCO_ITEMS, ?NS_VCARD, ?NS_ADDRESS],
xdata = iq_disco_info_extras(From, State)}.
iq_vcard(Lang) ->
#vcard_temp{fn = <<"ejabberd/mod_multicast">>,
url = ejabberd_config:get_uri(),
desc = misc:get_descr(Lang, ?T("ejabberd Multicast service"))}.
%%%-------------------------
%%% Route
%%%-------------------------
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-spec route_trusted(binary(), binary(), jid(), [jid()], stanza()) -> 'ok'.
route_trusted(LServiceS, LServerS, FromJID,
Destinations, Packet) ->
Packet_stripped = Packet,
Delivereds = [],
Dests2 = lists:map(
fun(D) ->
#dest{jid_string = jid:encode(D),
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jid_jid = D, type = bcc,
address = #address{type = bcc, jid = D}}
end, Destinations),
Groups = group_dests(Dests2),
route_common(LServerS, LServiceS, FromJID, Groups,
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Delivereds, Packet_stripped).
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-spec route_untrusted(binary(), binary(), atom(), #service_limits{}, stanza()) -> 'ok'.
route_untrusted(LServiceS, LServerS, Access, SLimits, Packet) ->
try route_untrusted2(LServiceS, LServerS, Access,
SLimits, Packet)
catch
adenied ->
route_error(Packet, forbidden,
<<"Access denied by service policy">>);
eadsele ->
route_error(Packet, bad_request,
<<"No addresses element found">>);
eadeles ->
route_error(Packet, bad_request,
<<"No address elements found">>);
ewxmlns ->
route_error(Packet, bad_request,
<<"Wrong xmlns">>);
etoorec ->
route_error(Packet, not_acceptable,
<<"Too many receiver fields were specified">>);
edrelay ->
route_error(Packet, forbidden,
<<"Packet relay is denied by service policy">>);
EType:EReason ->
?ERROR_MSG("Multicast unknown error: Type: ~p~nReason: ~p",
[EType, EReason]),
route_error(Packet, internal_server_error,
<<"Unknown problem">>)
end.
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-spec route_untrusted2(binary(), binary(), atom(), #service_limits{}, stanza()) -> 'ok'.
route_untrusted2(LServiceS, LServerS, Access, SLimits, Packet) ->
FromJID = xmpp:get_from(Packet),
ok = check_access(LServerS, Access, FromJID),
{ok, Packet_stripped, Addresses} = strip_addresses_element(Packet),
{To_deliver, Delivereds} = split_addresses_todeliver(Addresses),
Dests = convert_dest_record(To_deliver),
{Dests2, Not_jids} = split_dests_jid(Dests),
report_not_jid(FromJID, Packet, Not_jids),
ok = check_limit_dests(SLimits, FromJID, Packet, Dests2),
Groups = group_dests(Dests2),
ok = check_relay(FromJID#jid.server, LServerS, Groups),
route_common(LServerS, LServiceS, FromJID, Groups,
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Delivereds, Packet_stripped).
-spec route_common(binary(), binary(), jid(), [#group{}],
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[address()], stanza()) -> 'ok'.
route_common(LServerS, LServiceS, FromJID, Groups,
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Delivereds, Packet_stripped) ->
Groups2 = look_cached_servers(LServerS, LServiceS, Groups),
Groups3 = build_others_xml(Groups2),
Groups4 = add_addresses(Delivereds, Groups3),
AGroups = decide_action_groups(Groups4),
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act_groups(FromJID, Packet_stripped, LServiceS,
AGroups).
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-spec act_groups(jid(), stanza(), binary(), [{routing(), #group{}}]) -> 'ok'.
act_groups(FromJID, Packet_stripped, LServiceS, AGroups) ->
lists:foreach(
fun(AGroup) ->
perform(FromJID, Packet_stripped, LServiceS,
AGroup)
end, AGroups).
-spec perform(jid(), stanza(), binary(),
{routing(), #group{}}) -> 'ok'.
perform(From, Packet, _,
{route_single, Group}) ->
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lists:foreach(
fun(ToUser) ->
route_packet(From, ToUser, Packet,
Group#group.others, Group#group.addresses)
end, Group#group.dests);
perform(From, Packet, _,
{{route_multicast, JID, RLimits}, Group}) ->
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route_packet_multicast(From, JID, Packet,
Group#group.dests, Group#group.addresses, RLimits).
%%%-------------------------
%%% Check access permission
%%%-------------------------
check_access(LServerS, Access, From) ->
case acl:match_rule(LServerS, Access, From) of
allow -> ok;
_ -> throw(adenied)
end.
%%%-------------------------
%%% Strip 'addresses' XML element
%%%-------------------------
-spec strip_addresses_element(stanza()) -> {ok, stanza(), [address()]}.
strip_addresses_element(Packet) ->
case xmpp:get_subtag(Packet, #addresses{}) of
#addresses{list = Addrs} ->
PacketStripped = xmpp:remove_subtag(Packet, #addresses{}),
{ok, PacketStripped, Addrs};
false ->
throw(eadsele)
end.
%%%-------------------------
%%% Split Addresses
%%%-------------------------
-spec split_addresses_todeliver([address()]) -> {[address()], [address()]}.
split_addresses_todeliver(Addresses) ->
lists:partition(
fun(#address{delivered = true}) ->
false;
(#address{type = Type}) ->
case Type of
to -> true;
cc -> true;
bcc -> true;
_ -> false
end
end, Addresses).
%%%-------------------------
%%% Check does not exceed limit of destinations
%%%-------------------------
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-spec check_limit_dests(#service_limits{}, jid(), stanza(), [address()]) -> ok.
check_limit_dests(SLimits, FromJID, Packet,
Addresses) ->
SenderT = sender_type(FromJID),
Limits = get_slimit_group(SenderT, SLimits),
Type_of_stanza = type_of_stanza(Packet),
{_Type, Limit_number} = get_limit_number(Type_of_stanza,
Limits),
case length(Addresses) > Limit_number of
false -> ok;
true -> throw(etoorec)
end.
%%%-------------------------
%%% Convert Destination XML to record
%%%-------------------------
-spec convert_dest_record([address()]) -> [#dest{}].
convert_dest_record(Addrs) ->
lists:map(
fun(#address{jid = undefined} = Addr) ->
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#dest{jid_string = none, address = Addr};
(#address{jid = JID, type = Type} = Addr) ->
#dest{jid_string = jid:encode(JID), jid_jid = JID,
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type = Type, address = Addr}
end, Addrs).
%%%-------------------------
%%% Split destinations by existence of JID
%%% and send error messages for other dests
%%%-------------------------
-spec split_dests_jid([#dest{}]) -> {[#dest{}], [#dest{}]}.
split_dests_jid(Dests) ->
lists:partition(fun (Dest) ->
case Dest#dest.jid_string of
none -> false;
_ -> true
end
end,
Dests).
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-spec report_not_jid(jid(), stanza(), [#dest{}]) -> any().
report_not_jid(From, Packet, Dests) ->
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Dests2 = [fxml:element_to_binary(xmpp:encode(Dest#dest.address))
|| Dest <- Dests],
[route_error(xmpp:set_from_to(Packet, From, From), jid_malformed,
<<"This service can not process the address: ",
D/binary>>)
|| D <- Dests2].
%%%-------------------------
%%% Group destinations by their servers
%%%-------------------------
-spec group_dests([#dest{}]) -> [#group{}].
group_dests(Dests) ->
D = lists:foldl(fun (Dest, Dict) ->
ServerS = (Dest#dest.jid_jid)#jid.server,
dict:append(ServerS, Dest, Dict)
end,
dict:new(), Dests),
Keys = dict:fetch_keys(D),
[#group{server = Key, dests = dict:fetch(Key, D)}
|| Key <- Keys].
%%%-------------------------
%%% Look for cached responses
%%%-------------------------
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look_cached_servers(LServerS, LServiceS, Groups) ->
[look_cached(LServerS, LServiceS, Group) || Group <- Groups].
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look_cached(LServerS, LServiceS, G) ->
Maxtime_positive = (?MAXTIME_CACHE_POSITIVE),
Maxtime_negative = (?MAXTIME_CACHE_NEGATIVE),
Cached_response = search_server_on_cache(G#group.server,
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LServerS, LServiceS,
{Maxtime_positive,
Maxtime_negative}),
G#group{multicast = Cached_response}.
%%%-------------------------
%%% Build delivered XML element
%%%-------------------------
build_others_xml(Groups) ->
[Group#group{others =
build_other_xml(Group#group.dests)}
|| Group <- Groups].
build_other_xml(Dests) ->
lists:foldl(fun (Dest, R) ->
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XML = Dest#dest.address,
case Dest#dest.type of
to -> [add_delivered(XML) | R];
cc -> [add_delivered(XML) | R];
bcc -> R;
_ -> [XML | R]
end
end,
[], Dests).
-spec add_delivered(address()) -> address().
add_delivered(Addr) ->
Addr#address{delivered = true}.
%%%-------------------------
%%% Add preliminary packets
%%%-------------------------
add_addresses(Delivereds, Groups) ->
Ps = [Group#group.others || Group <- Groups],
add_addresses2(Delivereds, Groups, [], [], Ps).
add_addresses2(_, [], Res, _, []) -> Res;
add_addresses2(Delivereds, [Group | Groups], Res, Pa,
[Pi | Pz]) ->
Addresses = lists:append([Delivereds] ++ Pa ++ Pz),
Group2 = Group#group{addresses = Addresses},
add_addresses2(Delivereds, Groups, [Group2 | Res],
[Pi | Pa], Pz).
%%%-------------------------
%%% Decide action groups
%%%-------------------------
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-spec decide_action_groups([#group{}]) -> [{routing(), #group{}}].
decide_action_groups(Groups) ->
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[{Group#group.multicast, Group}
|| Group <- Groups].
%%%-------------------------
%%% Route packet
%%%-------------------------
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-spec route_packet(jid(), #dest{}, stanza(), [addresses()], [addresses()]) -> 'ok'.
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route_packet(From, ToDest, Packet, Others, Addresses) ->
Dests = case ToDest#dest.type of
bcc -> [];
_ -> [ToDest]
end,
route_packet2(From, ToDest#dest.jid_string, Dests,
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Packet, {Others, Addresses}).
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-spec route_packet_multicast(jid(), binary(), stanza(), [#dest{}], [address()], #limits{}) -> 'ok'.
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route_packet_multicast(From, ToS, Packet, Dests,
Addresses, Limits) ->
Type_of_stanza = type_of_stanza(Packet),
{_Type, Limit_number} = get_limit_number(Type_of_stanza,
Limits),
Fragmented_dests = fragment_dests(Dests, Limit_number),
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lists:foreach(fun(DFragment) ->
route_packet2(From, ToS, DFragment, Packet,
Addresses)
end, Fragmented_dests).
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-spec route_packet2(jid(), binary(), [#dest{}], stanza(), {[address()], [address()]} | [address()]) -> 'ok'.
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route_packet2(From, ToS, Dests, Packet, Addresses) ->
Els = case append_dests(Dests, Addresses) of
[] ->
xmpp:get_els(Packet);
ACs ->
[#addresses{list = ACs}|xmpp:get_els(Packet)]
end,
Packet2 = xmpp:set_els(Packet, Els),
ToJID = stj(ToS),
ejabberd_router:route(xmpp:set_from_to(Packet2, From, ToJID)).
-spec append_dests([#dest{}], {[address()], [address()]} | [address()]) -> [address()].
append_dests(_Dests, {Others, Addresses}) ->
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Addresses ++ Others;
append_dests([], Addresses) -> Addresses;
append_dests([Dest | Dests], Addresses) ->
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append_dests(Dests, [Dest#dest.address | Addresses]).
%%%-------------------------
%%% Check relay
%%%-------------------------
-spec check_relay(binary(), binary(), [#group{}]) -> ok.
check_relay(RS, LS, Gs) ->
case check_relay_required(RS, LS, Gs) of
false -> ok;
true -> throw(edrelay)
end.
-spec check_relay_required(binary(), binary(), [#group{}]) -> boolean().
check_relay_required(RServer, LServerS, Groups) ->
case lists:suffix(str:tokens(LServerS, <<".">>),
str:tokens(RServer, <<".">>)) of
true -> false;
false -> check_relay_required(LServerS, Groups)
end.
-spec check_relay_required(binary(), [#group{}]) -> boolean().
check_relay_required(LServerS, Groups) ->
lists:any(fun (Group) -> Group#group.server /= LServerS
end,
Groups).
%%%-------------------------
%%% Check protocol support: Send request
%%%-------------------------
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-spec send_query_info(binary(), binary(), binary()) -> ok.
send_query_info(RServerS, LServiceS, ID) ->
case str:str(RServerS, <<"echo.">>) of
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1 -> ok;
_ -> send_query(RServerS, LServiceS, ID, #disco_info{})
end.
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-spec send_query_items(binary(), binary(), binary()) -> ok.
send_query_items(RServerS, LServiceS, ID) ->
send_query(RServerS, LServiceS, ID, #disco_items{}).
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-spec send_query(binary(), binary(), binary(), disco_info()|disco_items()) -> ok.
send_query(RServerS, LServiceS, ID, SubEl) ->
Packet = #iq{from = stj(LServiceS),
to = stj(RServerS),
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id = ID,
type = get, sub_els = [SubEl]},
ejabberd_router:route(Packet).
%%%-------------------------
%%% Check protocol support: Receive response: Error
%%%-------------------------
process_iqreply_error(LServiceS, Packet) ->
FromS = jts(xmpp:get_from(Packet)),
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ID = Packet#iq.id,
case str:tokens(ID, <<"/">>) of
[RServer, _] ->
case look_server(RServer) of
{cached, {_Response, {wait_for_info, ID}}, _TS}
when RServer == FromS ->
add_response(RServer, not_supported, cached);
{cached, {_Response, {wait_for_items, ID}}, _TS}
when RServer == FromS ->
add_response(RServer, not_supported, cached);
{cached, {Response, {wait_for_items_info, ID, Items}},
_TS} ->
case lists:member(FromS, Items) of
true ->
received_awaiter(
FromS, RServer, Response, ID, Items,
LServiceS);
false ->
ok
end;
_ ->
ok
end;
_ ->
ok
end.
%%%-------------------------
%%% Check protocol support: Receive response: Disco
%%%-------------------------
-spec process_iqreply_result(binary(), iq()) -> any().
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process_iqreply_result(LServiceS, #iq{from = From, id = ID, sub_els = [SubEl]}) ->
case SubEl of
#disco_info{} ->
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process_discoinfo_result(From, LServiceS, ID, SubEl);
#disco_items{} ->
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process_discoitems_result(From, LServiceS, ID, SubEl);
_ ->
ok
end.
%%%-------------------------
%%% Check protocol support: Receive response: Disco Info
%%%-------------------------
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process_discoinfo_result(From, LServiceS, ID, DiscoInfo) ->
FromS = jts(From),
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case str:tokens(ID, <<"/">>) of
[RServer, _] ->
case look_server(RServer) of
{cached, {Response, {wait_for_info, ID} = ST}, _TS}
when RServer == FromS ->
process_discoinfo_result2(
From, FromS, LServiceS, DiscoInfo,
RServer, Response, ST);
{cached, {Response, {wait_for_items_info, ID, Items} = ST},
_TS} ->
case lists:member(FromS, Items) of
true ->
process_discoinfo_result2(
From, FromS, LServiceS, DiscoInfo,
RServer, Response, ST);
false ->
ok
end;
_ ->
ok
end;
_ ->
ok
end.
process_discoinfo_result2(From, FromS, LServiceS,
#disco_info{features = Feats} = DiscoInfo,
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RServer, Response, ST) ->
Multicast_support = lists:member(?NS_ADDRESS, Feats),
case Multicast_support of
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true ->
SenderT = sender_type(From),
RLimits = get_limits_xml(DiscoInfo, SenderT),
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add_response(RServer, {multicast_supported, FromS, RLimits}, cached);
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false ->
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case ST of
{wait_for_info, _ID} ->
Random = p1_rand:get_string(),
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ID = <<RServer/binary, $/, Random/binary>>,
send_query_items(FromS, LServiceS, ID),
add_response(RServer, Response, {wait_for_items, ID});
%% We asked a component, and it does not support XEP33
{wait_for_items_info, ID, Items} ->
received_awaiter(FromS, RServer, Response, ID, Items, LServiceS)
end
end.
get_limits_xml(DiscoInfo, SenderT) ->
LimitOpts = get_limits_els(DiscoInfo),
build_remote_limit_record(LimitOpts, SenderT).
-spec get_limits_els(disco_info()) -> [{atom(), integer()}].
get_limits_els(DiscoInfo) ->
lists:flatmap(
fun(#xdata{type = result} = X) ->
get_limits_fields(X);
(_) ->
[]
end, DiscoInfo#disco_info.xdata).
-spec get_limits_fields(xdata()) -> [{atom(), integer()}].
get_limits_fields(X) ->
{Head, Tail} = lists:partition(
fun(#xdata_field{var = Var, type = Type}) ->
Var == <<"FORM_TYPE">> andalso Type == hidden
end, X#xdata.fields),
case Head of
[] -> [];
_ -> get_limits_values(Tail)
end.
-spec get_limits_values([xdata_field()]) -> [{atom(), integer()}].
get_limits_values(Fields) ->
lists:flatmap(
fun(#xdata_field{var = Name, values = [Number]}) ->
try
[{binary_to_atom(Name, utf8), binary_to_integer(Number)}]
catch _:badarg ->
[]
end;
(_) ->
[]
end, Fields).
%%%-------------------------
%%% Check protocol support: Receive response: Disco Items
%%%-------------------------
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process_discoitems_result(From, LServiceS, ID, #disco_items{items = Items}) ->
FromS = jts(From),
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case str:tokens(ID, <<"/">>) of
[FromS = RServer, _] ->
case look_server(RServer) of
{cached, {Response, {wait_for_items, ID}}, _TS} ->
List = lists:flatmap(
fun(#disco_item{jid = #jid{luser = <<"">>,
lserver = LServer,
lresource = <<"">>}}) ->
[LServer];
(_) ->
[]
end, Items),
case List of
[] ->
add_response(RServer, not_supported, cached);
_ ->
Random = p1_rand:get_string(),
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ID2 = <<RServer/binary, $/, Random/binary>>,
[send_query_info(Item, LServiceS, ID2) || Item <- List],
add_response(RServer, Response,
{wait_for_items_info, ID2, List})
end;
_ ->
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ok
end;
_ ->
ok
end.
%%%-------------------------
%%% Check protocol support: Receive response: Received awaiter
%%%-------------------------
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received_awaiter(JID, RServer, Response, ID, JIDs, _LServiceS) ->
case lists:delete(JID, JIDs) of
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[] ->
add_response(RServer, not_supported, cached);
JIDs2 ->
add_response(RServer, Response, {wait_for_items_info, ID, JIDs2})
end.
%%%-------------------------
%%% Cache
%%%-------------------------
create_cache() ->
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ejabberd_mnesia:create(?MODULE, multicastc,
[{ram_copies, [node()]},
{attributes, record_info(fields, multicastc)}]).
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add_response(RServer, Response, State) ->
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Secs = calendar:datetime_to_gregorian_seconds(calendar:local_time()),
mnesia:dirty_write(#multicastc{rserver = RServer,
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response = {Response, State}, ts = Secs}).
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search_server_on_cache(RServer, LServerS, _LServiceS, _Maxmins)
when RServer == LServerS ->
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route_single;
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search_server_on_cache(RServer, _LServerS, LServiceS, _Maxmins)
when RServer == LServiceS ->
route_single;
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search_server_on_cache(RServer, _LServerS, LServiceS, Maxmins) ->
case look_server(RServer) of
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not_cached ->
query_info(RServer, LServiceS, not_supported),
route_single;
{cached, {Response, State}, TS} ->
Now = calendar:datetime_to_gregorian_seconds(calendar:local_time()),
Response2 =
case State of
cached ->
case is_obsolete(Response, TS, Now, Maxmins) of
false -> ok;
true ->
query_info(RServer, LServiceS, Response)
end,
Response;
_ ->
if
Now - TS > ?MAXTIME_CACHE_NEGOTIATING ->
query_info(RServer, LServiceS, not_supported),
not_supported;
true ->
Response
end
end,
case Response2 of
not_supported -> route_single;
{multicast_supported, Service, Limits} ->
{route_multicast, Service, Limits}
end
end.
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query_info(RServer, LServiceS, Response) ->
Random = p1_rand:get_string(),
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ID = <<RServer/binary, $/, Random/binary>>,
send_query_info(RServer, LServiceS, ID),
add_response(RServer, Response, {wait_for_info, ID}).
look_server(RServer) ->
case mnesia:dirty_read(multicastc, RServer) of
[] -> not_cached;
[M] -> {cached, M#multicastc.response, M#multicastc.ts}
end.
is_obsolete(Response, Ts, Now, {Max_pos, Max_neg}) ->
Max = case Response of
multicast_not_supported -> Max_neg;
_ -> Max_pos
end,
Now - Ts > Max.
%%%-------------------------
%%% Purge cache
%%%-------------------------
purge() ->
Maxmins_positive = (?MAXTIME_CACHE_POSITIVE),
Maxmins_negative = (?MAXTIME_CACHE_NEGATIVE),
Now =
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calendar:datetime_to_gregorian_seconds(calendar:local_time()),
purge(Now, {Maxmins_positive, Maxmins_negative}).
purge(Now, Maxmins) ->
F = fun () ->
mnesia:foldl(fun (R, _) ->
#multicastc{response = Response, ts = Ts} =
R,
case is_obsolete(Response, Ts, Now,
Maxmins)
of
true -> mnesia:delete_object(R);
false -> ok
end
end,
none, multicastc)
end,
mnesia:transaction(F).
%%%-------------------------
%%% Purge cache loop
%%%-------------------------
try_start_loop() ->
case lists:member(?PURGE_PROCNAME, registered()) of
true -> ok;
false -> start_loop()
end,
(?PURGE_PROCNAME) ! new_module.
start_loop() ->
register(?PURGE_PROCNAME,
spawn(?MODULE, purge_loop, [0])),
(?PURGE_PROCNAME) ! purge_now.
try_stop_loop() -> (?PURGE_PROCNAME) ! try_stop.
purge_loop(NM) ->
receive
purge_now ->
purge(),
timer:send_after(?CACHE_PURGE_TIMER, ?PURGE_PROCNAME,
purge_now),
purge_loop(NM);
new_module -> purge_loop(NM + 1);
try_stop when NM > 1 -> purge_loop(NM - 1);
try_stop -> purge_loop_finished
end.
%%%-------------------------
%%% Limits: utils
%%%-------------------------
%% Type definitions for data structures related with XEP33 limits
%% limit() = {Name, Value}
%% Name = atom()
%% Value = {Type, Number}
%% Type = default | custom
%% Number = integer() | infinite
list_of_limits(local) ->
[{message, ?DEFAULT_LIMIT_LOCAL_MESSAGE},
{presence, ?DEFAULT_LIMIT_LOCAL_PRESENCE}];
list_of_limits(remote) ->
[{message, ?DEFAULT_LIMIT_REMOTE_MESSAGE},
{presence, ?DEFAULT_LIMIT_REMOTE_PRESENCE}].
build_service_limit_record(LimitOpts) ->
LimitOptsL = get_from_limitopts(LimitOpts, local),
LimitOptsR = get_from_limitopts(LimitOpts, remote),
{service_limits, build_limit_record(LimitOptsL, local),
build_limit_record(LimitOptsR, remote)}.
get_from_limitopts(LimitOpts, SenderT) ->
case lists:keyfind(SenderT, 1, LimitOpts) of
false -> [];
{SenderT, Result} -> Result
end.
build_remote_limit_record(LimitOpts, SenderT) ->
build_limit_record(LimitOpts, SenderT).
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-spec build_limit_record(any(), local | remote) -> #limits{}.
build_limit_record(LimitOpts, SenderT) ->
Limits = [get_limit_value(Name, Default, LimitOpts)
|| {Name, Default} <- list_of_limits(SenderT)],
list_to_tuple([limits | Limits]).
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-spec get_limit_value(atom(), integer(), any()) -> limit_value().
get_limit_value(Name, Default, LimitOpts) ->
case lists:keysearch(Name, 1, LimitOpts) of
{value, {Name, Number}} -> {custom, Number};
false -> {default, Default}
end.
type_of_stanza(Stanza) -> element(1, Stanza).
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-spec get_limit_number(message | presence, #limits{}) -> limit_value().
get_limit_number(message, Limits) ->
Limits#limits.message;
get_limit_number(presence, Limits) ->
Limits#limits.presence.
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-spec get_slimit_group(local | remote, #service_limits{}) -> #limits{}.
get_slimit_group(local, SLimits) ->
SLimits#service_limits.local;
get_slimit_group(remote, SLimits) ->
SLimits#service_limits.remote.
fragment_dests(Dests, Limit_number) ->
{R, _} = lists:foldl(fun (Dest, {Res, Count}) ->
case Count of
Limit_number ->
Head2 = [Dest], {[Head2 | Res], 0};
_ ->
[Head | Tail] = Res,
Head2 = [Dest | Head],
{[Head2 | Tail], Count + 1}
end
end,
{[[]], 0}, Dests),
R.
%%%-------------------------
%%% Limits: XEP-0128 Service Discovery Extensions
%%%-------------------------
%% Some parts of code are borrowed from mod_muc_room.erl
-define(RFIELDT(Type, Var, Val),
#xdata_field{type = Type, var = Var, values = [Val]}).
-define(RFIELDV(Var, Val),
#xdata_field{var = Var, values = [Val]}).
iq_disco_info_extras(From, State) ->
SenderT = sender_type(From),
Service_limits = State#state.service_limits,
case iq_disco_info_extras2(SenderT, Service_limits) of
[] -> [];
List_limits_xmpp ->
#xdata{type = result,
fields = [?RFIELDT(hidden, <<"FORM_TYPE">>, ?NS_ADDRESS)
| List_limits_xmpp]}
end.
sender_type(From) ->
Local_hosts = ejabberd_config:get_myhosts(),
case lists:member(From#jid.lserver, Local_hosts) of
true -> local;
false -> remote
end.
iq_disco_info_extras2(SenderT, SLimits) ->
Limits = get_slimit_group(SenderT, SLimits),
Stanza_types = [message, presence],
lists:foldl(fun (Type_of_stanza, R) ->
case get_limit_number(Type_of_stanza, Limits) of
{custom, Number} ->
[?RFIELDV((to_binary(Type_of_stanza)),
(to_binary(Number)))
| R];
{default, _} -> R
end
end,
[], Stanza_types).
to_binary(A) -> list_to_binary(hd(io_lib:format("~p", [A]))).
%%%-------------------------
%%% Error report
%%%-------------------------
route_error(Packet, ErrType, ErrText) ->
Lang = xmpp:get_lang(Packet),
Err = make_reply(ErrType, Lang, ErrText),
ejabberd_router:route_error(Packet, Err).
make_reply(bad_request, Lang, ErrText) ->
xmpp:err_bad_request(ErrText, Lang);
make_reply(jid_malformed, Lang, ErrText) ->
xmpp:err_jid_malformed(ErrText, Lang);
make_reply(not_acceptable, Lang, ErrText) ->
xmpp:err_not_acceptable(ErrText, Lang);
make_reply(internal_server_error, Lang, ErrText) ->
xmpp:err_internal_server_error(ErrText, Lang);
make_reply(forbidden, Lang, ErrText) ->
xmpp:err_forbidden(ErrText, Lang).
stj(String) -> jid:decode(String).
jts(String) -> jid:encode(String).
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depends(_Host, _Opts) ->
[].
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mod_opt_type(access) ->
fun acl:access_rules_validator/1;
mod_opt_type(host) -> fun ejabberd_config:v_host/1;
mod_opt_type(hosts) -> fun ejabberd_config:v_hosts/1;
mod_opt_type(name) -> fun iolist_to_binary/1;
mod_opt_type({limits, Type}) when (Type == local) or (Type == remote) ->
fun(L) ->
lists:map(
fun ({message, infinite} = O) -> O;
({presence, infinite} = O) -> O;
({message, I} = O) when is_integer(I) -> O;
({presence, I} = O) when is_integer(I) -> O
end, L)
end.
mod_options(_Host) ->
[{access, all},
{host, <<"multicast.@HOST@">>},
{hosts, []},
{limits, [{local, []}, {remote, []}]},
{name, ?T("Multicast")}].