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xmpp.chapril.org-ejabberd/src/ejabberd_c2s.erl

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%%%-------------------------------------------------------------------
%%% Created : 8 Dec 2016 by Evgeny Khramtsov <ekhramtsov@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2017 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(ejabberd_c2s).
-behaviour(xmpp_stream_in).
-behaviour(ejabberd_config).
-behaviour(ejabberd_socket).
-protocol({rfc, 6121}).
%% ejabberd_socket callbacks
-export([start/2, start_link/2, socket_type/0]).
%% ejabberd_config callbacks
-export([opt_type/1, transform_listen_option/2]).
%% xmpp_stream_in callbacks
-export([init/1, handle_call/3, handle_cast/2,
handle_info/2, terminate/2, code_change/3]).
-export([tls_options/1, tls_required/1, tls_verify/1, tls_enabled/1,
compress_methods/1, bind/2, sasl_mechanisms/2,
get_password_fun/1, check_password_fun/1, check_password_digest_fun/1,
unauthenticated_stream_features/1, authenticated_stream_features/1,
handle_stream_start/2, handle_stream_end/2,
handle_unauthenticated_packet/2, handle_authenticated_packet/2,
handle_auth_success/4, handle_auth_failure/4, handle_send/3,
handle_recv/3, handle_cdata/2, handle_unbinded_packet/2]).
%% Hooks
-export([handle_unexpected_cast/2,
reject_unauthenticated_packet/2, process_closed/2,
process_terminated/2, process_info/2]).
%% API
-export([get_presence/1, get_subscription/2, get_subscribed/1,
open_session/1, call/3, send/2, close/1, close/2, stop/1,
reply/2, copy_state/2, set_timeout/2, route/2,
host_up/1, host_down/1]).
-include("ejabberd.hrl").
-include("xmpp.hrl").
-include("logger.hrl").
-define(SETS, gb_sets).
-type state() :: map().
-export_type([state/0]).
%%%===================================================================
%%% ejabberd_socket API
%%%===================================================================
start(SockData, Opts) ->
case proplists:get_value(supervisor, Opts, true) of
true ->
supervisor:start_child(ejabberd_c2s_sup, [SockData, Opts]);
_ ->
xmpp_stream_in:start(?MODULE, [SockData, Opts],
ejabberd_config:fsm_limit_opts(Opts))
end.
start_link(SockData, Opts) ->
xmpp_stream_in:start_link(?MODULE, [SockData, Opts],
ejabberd_config:fsm_limit_opts(Opts)).
socket_type() ->
xml_stream.
%%%===================================================================
%%% Common API
%%%===================================================================
-spec call(pid(), term(), non_neg_integer() | infinity) -> term().
call(Ref, Msg, Timeout) ->
xmpp_stream_in:call(Ref, Msg, Timeout).
reply(Ref, Reply) ->
xmpp_stream_in:reply(Ref, Reply).
-spec get_presence(pid()) -> presence().
get_presence(Ref) ->
call(Ref, get_presence, 1000).
-spec get_subscription(jid() | ljid(), state()) -> both | from | to | none.
get_subscription(#jid{} = From, State) ->
get_subscription(jid:tolower(From), State);
get_subscription(LFrom, #{pres_f := PresF, pres_t := PresT}) ->
LBFrom = jid:remove_resource(LFrom),
F = ?SETS:is_element(LFrom, PresF) orelse ?SETS:is_element(LBFrom, PresF),
T = ?SETS:is_element(LFrom, PresT) orelse ?SETS:is_element(LBFrom, PresT),
if F and T -> both;
F -> from;
T -> to;
true -> none
end.
-spec get_subscribed(pid()) -> [ljid()].
%% Return list of all available resources of contacts
get_subscribed(Ref) ->
call(Ref, get_subscribed, 1000).
-spec close(pid()) -> ok;
(state()) -> state().
close(Ref) ->
xmpp_stream_in:close(Ref).
-spec close(pid(), boolean()) -> ok;
(state(), boolean()) -> state().
close(Ref, SendTrailer) ->
xmpp_stream_in:close(Ref, SendTrailer).
-spec stop(pid()) -> ok;
(state()) -> no_return().
stop(Ref) ->
xmpp_stream_in:stop(Ref).
-spec send(pid(), xmpp_element()) -> ok;
(state(), xmpp_element()) -> state().
send(Pid, Pkt) when is_pid(Pid) ->
xmpp_stream_in:send(Pid, Pkt);
send(#{lserver := LServer} = State, Pkt) ->
Pkt1 = fix_from_to(Pkt, State),
case ejabberd_hooks:run_fold(c2s_filter_send, LServer, {Pkt1, State}, []) of
{drop, State1} -> State1;
{Pkt2, State1} -> xmpp_stream_in:send(State1, Pkt2)
end.
-spec send_error(state(), xmpp_element(), stanza_error()) -> state().
send_error(#{lserver := LServer} = State, Pkt, Err) ->
case ejabberd_hooks:run_fold(c2s_filter_send, LServer, {Pkt, State}, []) of
{drop, State1} -> State1;
{Pkt1, State1} -> xmpp_stream_in:send_error(State1, Pkt1, Err)
end.
-spec route(pid(), term()) -> ok.
route(Pid, Term) ->
Pid ! Term,
ok.
-spec set_timeout(state(), timeout()) -> state().
set_timeout(State, Timeout) ->
xmpp_stream_in:set_timeout(State, Timeout).
-spec host_up(binary()) -> ok.
host_up(Host) ->
ejabberd_hooks:add(c2s_closed, Host, ?MODULE, process_closed, 100),
ejabberd_hooks:add(c2s_terminated, Host, ?MODULE,
process_terminated, 100),
ejabberd_hooks:add(c2s_unauthenticated_packet, Host, ?MODULE,
reject_unauthenticated_packet, 100),
ejabberd_hooks:add(c2s_handle_info, Host, ?MODULE,
process_info, 100),
ejabberd_hooks:add(c2s_handle_cast, Host, ?MODULE,
handle_unexpected_cast, 100).
-spec host_down(binary()) -> ok.
host_down(Host) ->
ejabberd_hooks:delete(c2s_closed, Host, ?MODULE, process_closed, 100),
ejabberd_hooks:delete(c2s_terminated, Host, ?MODULE,
process_terminated, 100),
ejabberd_hooks:delete(c2s_unauthenticated_packet, Host, ?MODULE,
reject_unauthenticated_packet, 100),
ejabberd_hooks:delete(c2s_handle_info, Host, ?MODULE,
process_info, 100),
ejabberd_hooks:delete(c2s_handle_cast, Host, ?MODULE,
handle_unexpected_cast, 100).
%% Copies content of one c2s state to another.
%% This is needed for session migration from one pid to another.
-spec copy_state(state(), state()) -> state().
copy_state(#{owner := Owner} = NewState,
#{jid := JID, resource := Resource, sid := {Time, _},
auth_module := AuthModule, lserver := LServer,
pres_t := PresT, pres_a := PresA,
pres_f := PresF} = OldState) ->
State1 = case OldState of
#{pres_last := Pres, pres_timestamp := PresTS} ->
NewState#{pres_last => Pres, pres_timestamp => PresTS};
_ ->
NewState
end,
Conn = get_conn_type(State1),
State2 = State1#{jid => JID, resource => Resource,
conn => Conn,
sid => {Time, Owner},
auth_module => AuthModule,
pres_t => PresT, pres_a => PresA,
pres_f => PresF},
ejabberd_hooks:run_fold(c2s_copy_session, LServer, State2, [OldState]).
-spec open_session(state()) -> {ok, state()} | state().
open_session(#{user := U, server := S, resource := R,
sid := SID, ip := IP, auth_module := AuthModule} = State) ->
JID = jid:make(U, S, R),
change_shaper(State),
Conn = get_conn_type(State),
State1 = State#{conn => Conn, resource => R, jid => JID},
Prio = case maps:get(pres_last, State, undefined) of
undefined -> undefined;
Pres -> get_priority_from_presence(Pres)
end,
Info = [{ip, IP}, {conn, Conn}, {auth_module, AuthModule}],
ejabberd_sm:open_session(SID, U, S, R, Prio, Info),
xmpp_stream_in:establish(State1).
%%%===================================================================
%%% Hooks
%%%===================================================================
process_info(#{lserver := LServer} = State, {route, Packet}) ->
{Pass, State1} = case Packet of
#presence{} ->
process_presence_in(State, Packet);
#message{} ->
process_message_in(State, Packet);
#iq{} ->
process_iq_in(State, Packet)
end,
if Pass ->
{Packet1, State2} = ejabberd_hooks:run_fold(
user_receive_packet, LServer,
{Packet, State1}, []),
case Packet1 of
drop -> State2;
_ -> send(State2, Packet1)
end;
true ->
State1
end;
process_info(State, force_update_presence) ->
case maps:get(pres_last, State, error) of
error -> State;
Pres -> process_self_presence(State, Pres)
end;
process_info(State, Info) ->
?WARNING_MSG("got unexpected info: ~p", [Info]),
State.
handle_unexpected_cast(State, Msg) ->
?WARNING_MSG("got unexpected cast: ~p", [Msg]),
State.
reject_unauthenticated_packet(State, _Pkt) ->
Err = xmpp:serr_not_authorized(),
send(State, Err).
process_closed(State, Reason) ->
stop(State#{stop_reason => Reason}).
process_terminated(#{sockmod := SockMod, socket := Socket, jid := JID} = State,
Reason) ->
Status = format_reason(State, Reason),
?INFO_MSG("(~s) Closing c2s session for ~s: ~s",
[SockMod:pp(Socket), jid:to_string(JID), Status]),
State1 = case maps:is_key(pres_last, State) of
true ->
Pres = #presence{type = unavailable,
status = xmpp:mk_text(Status),
from = JID,
to = jid:remove_resource(JID)},
broadcast_presence_unavailable(State, Pres);
false ->
State
end,
bounce_message_queue(),
State1;
process_terminated(State, _Reason) ->
State.
%%%===================================================================
%%% xmpp_stream_in callbacks
%%%===================================================================
tls_options(#{lserver := LServer, tls_options := DefaultOpts}) ->
TLSOpts1 = case ejabberd_config:get_option(
{c2s_certfile, LServer},
fun iolist_to_binary/1,
ejabberd_config:get_option(
{domain_certfile, LServer},
fun iolist_to_binary/1)) of
undefined -> DefaultOpts;
CertFile -> lists:keystore(certfile, 1, DefaultOpts,
{certfile, CertFile})
end,
TLSOpts2 = case ejabberd_config:get_option(
{c2s_ciphers, LServer},
fun iolist_to_binary/1) of
undefined -> TLSOpts1;
Ciphers -> lists:keystore(ciphers, 1, TLSOpts1,
{ciphers, Ciphers})
end,
TLSOpts3 = case ejabberd_config:get_option(
{c2s_protocol_options, LServer},
fun (Options) -> str:join(Options, <<$|>>) end) of
undefined -> TLSOpts2;
ProtoOpts -> lists:keystore(protocol_options, 1, TLSOpts2,
{protocol_options, ProtoOpts})
end,
TLSOpts4 = case ejabberd_config:get_option(
{c2s_dhfile, LServer},
fun iolist_to_binary/1) of
undefined -> TLSOpts3;
DHFile -> lists:keystore(dhfile, 1, TLSOpts3,
{dhfile, DHFile})
end,
TLSOpts5 = case ejabberd_config:get_option(
{c2s_cafile, LServer},
fun iolist_to_binary/1) of
undefined -> TLSOpts4;
CAFile -> lists:keystore(cafile, 1, TLSOpts4,
{cafile, CAFile})
end,
case ejabberd_config:get_option(
{c2s_tls_compression, LServer},
fun(B) when is_boolean(B) -> B end) of
undefined -> TLSOpts5;
false -> [compression_none | TLSOpts5];
true -> lists:delete(compression_none, TLSOpts5)
end.
tls_required(#{tls_required := TLSRequired}) ->
TLSRequired.
tls_verify(#{tls_verify := TLSVerify}) ->
TLSVerify.
tls_enabled(#{tls_enabled := TLSEnabled,
tls_required := TLSRequired,
tls_verify := TLSVerify}) ->
TLSEnabled or TLSRequired or TLSVerify.
compress_methods(#{zlib := true}) ->
[<<"zlib">>];
compress_methods(_) ->
[].
unauthenticated_stream_features(#{lserver := LServer}) ->
ejabberd_hooks:run_fold(c2s_pre_auth_features, LServer, [], [LServer]).
authenticated_stream_features(#{lserver := LServer}) ->
ejabberd_hooks:run_fold(c2s_post_auth_features, LServer, [], [LServer]).
sasl_mechanisms(Mechs, #{lserver := LServer}) ->
Mechs1 = ejabberd_config:get_option(
{disable_sasl_mechanisms, LServer},
fun(V) when is_list(V) ->
lists:map(fun(M) -> str:to_upper(M) end, V);
(V) ->
[str:to_upper(V)]
end, []),
Mechs2 = case ejabberd_auth_anonymous:is_sasl_anonymous_enabled(LServer) of
true -> Mechs1;
false -> [<<"ANONYMOUS">>|Mechs1]
end,
Mechs -- Mechs2.
get_password_fun(#{lserver := LServer}) ->
fun(U) ->
ejabberd_auth:get_password_with_authmodule(U, LServer)
end.
check_password_fun(#{lserver := LServer}) ->
fun(U, AuthzId, P) ->
ejabberd_auth:check_password_with_authmodule(U, AuthzId, LServer, P)
end.
check_password_digest_fun(#{lserver := LServer}) ->
fun(U, AuthzId, P, D, DG) ->
ejabberd_auth:check_password_with_authmodule(U, AuthzId, LServer, P, D, DG)
end.
bind(<<"">>, State) ->
bind(new_uniq_id(), State);
bind(R, #{user := U, server := S, access := Access, lang := Lang,
lserver := LServer, sockmod := SockMod, socket := Socket,
ip := IP} = State) ->
case resource_conflict_action(U, S, R) of
closenew ->
{error, xmpp:err_conflict(), State};
{accept_resource, Resource} ->
JID = jid:make(U, S, Resource),
case acl:access_matches(Access,
#{usr => jid:split(JID), ip => IP},
LServer) of
allow ->
State1 = open_session(State#{resource => Resource,
sid => ejabberd_sm:make_sid()}),
LBJID = jid:remove_resource(jid:tolower(JID)),
PresF = ?SETS:add_element(LBJID, maps:get(pres_f, State1)),
PresT = ?SETS:add_element(LBJID, maps:get(pres_t, State1)),
State2 = State1#{pres_f => PresF, pres_t => PresT},
State3 = ejabberd_hooks:run_fold(
c2s_session_opened, LServer, State2, []),
?INFO_MSG("(~s) Opened c2s session for ~s",
[SockMod:pp(Socket), jid:to_string(JID)]),
{ok, State3};
deny ->
ejabberd_hooks:run(forbidden_session_hook, LServer, [JID]),
?INFO_MSG("(~s) Forbidden c2s session for ~s",
[SockMod:pp(Socket), jid:to_string(JID)]),
Txt = <<"Denied by ACL">>,
{error, xmpp:err_not_allowed(Txt, Lang), State}
end
end.
handle_stream_start(StreamStart, #{lserver := LServer} = State) ->
case ejabberd_router:is_my_host(LServer) of
false ->
send(State, xmpp:serr_host_unknown());
true ->
change_shaper(State),
ejabberd_hooks:run_fold(
c2s_stream_started, LServer, State, [StreamStart])
end.
handle_stream_end(Reason, #{lserver := LServer} = State) ->
State1 = State#{stop_reason => Reason},
ejabberd_hooks:run_fold(c2s_closed, LServer, State1, [Reason]).
handle_auth_success(User, Mech, AuthModule,
#{socket := Socket, sockmod := SockMod,
ip := IP, lserver := LServer} = State) ->
?INFO_MSG("(~s) Accepted c2s ~s authentication for ~s@~s by ~s backend from ~s",
[SockMod:pp(Socket), Mech, User, LServer,
ejabberd_auth:backend_type(AuthModule),
ejabberd_config:may_hide_data(jlib:ip_to_list(IP))]),
State1 = State#{auth_module => AuthModule},
ejabberd_hooks:run_fold(c2s_auth_result, LServer, State1, [true, User]).
handle_auth_failure(User, Mech, Reason,
#{socket := Socket, sockmod := SockMod,
ip := IP, lserver := LServer} = State) ->
?INFO_MSG("(~s) Failed c2s ~s authentication ~sfrom ~s: ~s",
[SockMod:pp(Socket), Mech,
if User /= <<"">> -> ["for ", User, "@", LServer, " "];
true -> ""
end,
ejabberd_config:may_hide_data(jlib:ip_to_list(IP)), Reason]),
ejabberd_hooks:run_fold(c2s_auth_result, LServer, State, [false, User]).
handle_unbinded_packet(Pkt, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(c2s_unbinded_packet, LServer, State, [Pkt]).
handle_unauthenticated_packet(Pkt, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(c2s_unauthenticated_packet, LServer, State, [Pkt]).
handle_authenticated_packet(Pkt, #{lserver := LServer} = State) when not ?is_stanza(Pkt) ->
ejabberd_hooks:run_fold(c2s_authenticated_packet,
LServer, State, [Pkt]);
handle_authenticated_packet(Pkt, #{lserver := LServer, jid := JID,
ip := {IP, _}} = State) ->
Pkt1 = xmpp:put_meta(Pkt, ip, IP),
State1 = ejabberd_hooks:run_fold(c2s_authenticated_packet,
LServer, State, [Pkt1]),
#jid{luser = LUser} = JID,
{Pkt2, State2} = ejabberd_hooks:run_fold(
user_send_packet, LServer, {Pkt1, State1}, []),
case Pkt2 of
drop ->
State2;
#iq{type = set, sub_els = [_]} ->
case xmpp:get_subtag(Pkt2, #xmpp_session{}) of
#xmpp_session{} ->
send(State2, xmpp:make_iq_result(Pkt2));
_ ->
check_privacy_then_route(State2, Pkt2)
end;
#presence{to = #jid{luser = LUser, lserver = LServer,
lresource = <<"">>}} ->
process_self_presence(State2, Pkt2);
#presence{} ->
process_presence_out(State2, Pkt2);
_ ->
check_privacy_then_route(State2, Pkt2)
end.
handle_cdata(Data, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(c2s_handle_cdata, LServer,
State, [Data]).
handle_recv(El, Pkt, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(c2s_handle_recv, LServer, State, [El, Pkt]).
handle_send(Pkt, Result, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(c2s_handle_send, LServer, State, [Pkt, Result]).
init([State, Opts]) ->
Access = gen_mod:get_opt(access, Opts, fun acl:access_rules_validator/1, all),
Shaper = gen_mod:get_opt(shaper, Opts, fun acl:shaper_rules_validator/1, none),
TLSOpts1 = lists:filter(
fun({certfile, _}) -> true;
({ciphers, _}) -> true;
({dhfile, _}) -> true;
({cafile, _}) -> true;
(_) -> false
end, Opts),
TLSOpts2 = case lists:keyfind(protocol_options, 1, Opts) of
false -> TLSOpts1;
{_, OptString} ->
ProtoOpts = str:join(OptString, <<$|>>),
[{protocol_options, ProtoOpts}|TLSOpts1]
end,
TLSOpts3 = case proplists:get_bool(tls_compression, Opts) of
false -> [compression_none | TLSOpts2];
true -> TLSOpts2
end,
TLSEnabled = proplists:get_bool(starttls, Opts),
TLSRequired = proplists:get_bool(starttls_required, Opts),
TLSVerify = proplists:get_bool(tls_verify, Opts),
Zlib = proplists:get_bool(zlib, Opts),
State1 = State#{tls_options => TLSOpts3,
tls_required => TLSRequired,
tls_enabled => TLSEnabled,
tls_verify => TLSVerify,
pres_a => ?SETS:new(),
pres_f => ?SETS:new(),
pres_t => ?SETS:new(),
zlib => Zlib,
lang => ?MYLANG,
server => ?MYNAME,
lserver => ?MYNAME,
access => Access,
shaper => Shaper},
ejabberd_hooks:run_fold(c2s_init, {ok, State1}, [Opts]).
handle_call(get_presence, From, #{jid := JID} = State) ->
Pres = case maps:get(pres_last, State, error) of
error ->
BareJID = jid:remove_resource(JID),
#presence{from = JID, to = BareJID, type = unavailable};
P -> P
end,
reply(From, Pres),
State;
handle_call(get_subscribed, From, #{pres_f := PresF} = State) ->
reply(From, ?SETS:to_list(PresF)),
State;
handle_call(Request, From, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(
c2s_handle_call, LServer, State, [Request, From]).
handle_cast(Msg, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(c2s_handle_cast, LServer, State, [Msg]).
handle_info(Info, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(c2s_handle_info, LServer, State, [Info]).
terminate(Reason, #{sid := SID,
user := U, server := S, resource := R,
lserver := LServer} = State) ->
case maps:is_key(pres_last, State) of
true ->
Status = format_reason(State, Reason),
ejabberd_sm:close_session_unset_presence(SID, U, S, R, Status);
false ->
ejabberd_sm:close_session(SID, U, S, R)
end,
ejabberd_hooks:run_fold(c2s_terminated, LServer, State, [Reason]);
terminate(Reason, #{lserver := LServer} = State) ->
ejabberd_hooks:run_fold(c2s_terminated, LServer, State, [Reason]).
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%%===================================================================
%%% Internal functions
%%%===================================================================
-spec process_iq_in(state(), iq()) -> {boolean(), state()}.
process_iq_in(State, #iq{} = IQ) ->
case privacy_check_packet(State, IQ, in) of
allow ->
{true, State};
deny ->
ejabberd_router:route_error(IQ, xmpp:err_service_unavailable()),
{false, State}
end.
-spec process_message_in(state(), message()) -> {boolean(), state()}.
process_message_in(State, #message{type = T} = Msg) ->
%% This function should be as simple as process_iq_in/2,
%% however, we don't route errors to MUC rooms in order
%% to avoid kicking us, because having a MUC room's JID blocked
%% most likely means having only some particular participant
%% blocked, i.e. room@conference.server.org/participant.
case privacy_check_packet(State, Msg, in) of
allow ->
{true, State};
deny when T == groupchat; T == headline ->
{false, State};
deny ->
case xmpp:has_subtag(Msg, #muc_user{}) of
true ->
ok;
false ->
ejabberd_router:route_error(
Msg, xmpp:err_service_unavailable())
end,
{false, State}
end.
-spec process_presence_in(state(), presence()) -> {boolean(), state()}.
process_presence_in(#{lserver := LServer, pres_a := PresA} = State0,
#presence{from = From, to = To, type = T} = Pres) ->
State = ejabberd_hooks:run_fold(c2s_presence_in, LServer, State0, [Pres]),
case T of
probe ->
NewState = add_to_pres_a(State, From),
route_probe_reply(From, To, NewState),
{false, NewState};
error ->
A = ?SETS:del_element(jid:tolower(From), PresA),
{true, State#{pres_a => A}};
_ ->
case privacy_check_packet(State, Pres, in) of
allow ->
NewState = add_to_pres_a(State, From),
{true, NewState};
deny ->
{false, State}
end
end.
-spec route_probe_reply(jid(), jid(), state()) -> ok.
route_probe_reply(From, To, #{lserver := LServer, pres_f := PresF,
pres_last := LastPres,
pres_timestamp := TS} = State) ->
LFrom = jid:tolower(From),
LBFrom = jid:remove_resource(LFrom),
case ?SETS:is_element(LFrom, PresF)
orelse ?SETS:is_element(LBFrom, PresF) of
true ->
%% To is my JID
Packet = xmpp_util:add_delay_info(LastPres, To, TS),
case privacy_check_packet(State, Packet, out) of
deny ->
ok;
allow ->
ejabberd_hooks:run(presence_probe_hook,
LServer,
[From, To, self()]),
%% Don't route a presence probe to oneself
case From == To of
false ->
ejabberd_router:route(
xmpp:set_from_to(Packet, To, From));
true ->
ok
end
end;
false ->
ok
end;
route_probe_reply(_, _, _) ->
ok.
-spec process_presence_out(state(), presence()) -> state().
process_presence_out(#{user := User, server := Server, lserver := LServer,
jid := JID, lang := Lang, pres_a := PresA} = State,
#presence{from = From, to = To, type = Type} = Pres) ->
LTo = jid:tolower(To),
case privacy_check_packet(State, Pres, out) of
deny ->
ErrText = <<"Your active privacy list has denied "
"the routing of this stanza.">>,
Err = xmpp:err_not_acceptable(ErrText, Lang),
send_error(State, Pres, Err);
allow when Type == subscribe; Type == subscribed;
Type == unsubscribe; Type == unsubscribed ->
Access = gen_mod:get_module_opt(LServer, mod_roster, access,
fun(A) when is_atom(A) -> A end,
all),
MyBareJID = jid:remove_resource(JID),
case acl:match_rule(LServer, Access, MyBareJID) of
deny ->
ErrText = <<"Denied by ACL">>,
Err = xmpp:err_forbidden(ErrText, Lang),
send_error(State, Pres, Err);
allow ->
ejabberd_hooks:run(roster_out_subscription,
LServer,
[User, Server, To, Type]),
BareFrom = jid:remove_resource(From),
ejabberd_router:route(xmpp:set_from_to(Pres, BareFrom, To)),
State
end;
allow when Type == error; Type == probe ->
ejabberd_router:route(Pres),
State;
allow ->
ejabberd_router:route(Pres),
A = case Type of
available -> ?SETS:add_element(LTo, PresA);
unavailable -> ?SETS:del_element(LTo, PresA)
end,
State#{pres_a => A}
end.
-spec process_self_presence(state(), presence()) -> state().
process_self_presence(#{ip := IP, conn := Conn, lserver := LServer,
auth_module := AuthMod, sid := SID,
user := U, server := S, resource := R} = State,
#presence{type = unavailable} = Pres) ->
Status = xmpp:get_text(Pres#presence.status),
Info = [{ip, IP}, {conn, Conn}, {auth_module, AuthMod}],
ejabberd_sm:unset_presence(SID, U, S, R, Status, Info),
{Pres1, State1} = ejabberd_hooks:run_fold(
c2s_self_presence, LServer, {Pres, State}, []),
State2 = broadcast_presence_unavailable(State1, Pres1),
maps:remove(pres_last, maps:remove(pres_timestamp, State2));
process_self_presence(#{lserver := LServer} = State,
#presence{type = available} = Pres) ->
PreviousPres = maps:get(pres_last, State, undefined),
update_priority(State, Pres),
{Pres1, State1} = ejabberd_hooks:run_fold(
c2s_self_presence, LServer, {Pres, State}, []),
State2 = State1#{pres_last => Pres1,
pres_timestamp => p1_time_compat:timestamp()},
FromUnavailable = PreviousPres == undefined,
broadcast_presence_available(State2, Pres1, FromUnavailable);
process_self_presence(State, _Pres) ->
State.
-spec update_priority(state(), presence()) -> ok.
update_priority(#{ip := IP, conn := Conn, auth_module := AuthMod,
sid := SID, user := U, server := S, resource := R},
Pres) ->
Priority = get_priority_from_presence(Pres),
Info = [{ip, IP}, {conn, Conn}, {auth_module, AuthMod}],
ejabberd_sm:set_presence(SID, U, S, R, Priority, Pres, Info).
-spec broadcast_presence_unavailable(state(), presence()) -> state().
broadcast_presence_unavailable(#{pres_a := PresA} = State, Pres) ->
JIDs = filter_blocked(State, Pres, PresA),
route_multiple(State, JIDs, Pres),
State#{pres_a => ?SETS:new()}.
-spec broadcast_presence_available(state(), presence(), boolean()) -> state().
broadcast_presence_available(#{pres_a := PresA, pres_f := PresF,
pres_t := PresT, jid := JID} = State,
Pres, _FromUnavailable = true) ->
Probe = #presence{from = JID, type = probe},
TJIDs = filter_blocked(State, Probe, PresT),
FJIDs = filter_blocked(State, Pres, PresF),
route_multiple(State, TJIDs, Probe),
route_multiple(State, FJIDs, Pres),
State#{pres_a => ?SETS:union(PresA, PresF)};
broadcast_presence_available(#{pres_a := PresA, pres_f := PresF} = State,
Pres, _FromUnavailable = false) ->
JIDs = filter_blocked(State, Pres, ?SETS:intersection(PresA, PresF)),
route_multiple(State, JIDs, Pres),
State.
-spec check_privacy_then_route(state(), stanza()) -> state().
check_privacy_then_route(#{lang := Lang} = State, Pkt) ->
case privacy_check_packet(State, Pkt, out) of
deny ->
ErrText = <<"Your active privacy list has denied "
"the routing of this stanza.">>,
Err = xmpp:err_not_acceptable(ErrText, Lang),
send_error(State, Pkt, Err);
allow ->
ejabberd_router:route(Pkt),
State
end.
-spec privacy_check_packet(state(), stanza(), in | out) -> allow | deny.
privacy_check_packet(#{lserver := LServer} = State, Pkt, Dir) ->
ejabberd_hooks:run_fold(privacy_check_packet, LServer, allow, [State, Pkt, Dir]).
-spec get_priority_from_presence(presence()) -> integer().
get_priority_from_presence(#presence{priority = Prio}) ->
case Prio of
undefined -> 0;
_ -> Prio
end.
-spec filter_blocked(state(), presence(), ?SETS:set()) -> [jid()].
filter_blocked(#{jid := From} = State, Pres, LJIDSet) ->
?SETS:fold(
fun(LJID, Acc) ->
To = jid:make(LJID),
Pkt = xmpp:set_from_to(Pres, From, To),
case privacy_check_packet(State, Pkt, out) of
allow -> [To|Acc];
deny -> Acc
end
end, [], LJIDSet).
-spec route_multiple(state(), [jid()], stanza()) -> ok.
route_multiple(#{lserver := LServer}, JIDs, Pkt) ->
From = xmpp:get_from(Pkt),
ejabberd_router_multicast:route_multicast(From, LServer, JIDs, Pkt).
-spec resource_conflict_action(binary(), binary(), binary()) ->
{accept_resource, binary()} | closenew.
resource_conflict_action(U, S, R) ->
OptionRaw = case ejabberd_sm:is_existing_resource(U, S, R) of
true ->
ejabberd_config:get_option(
{resource_conflict, S},
fun(setresource) -> setresource;
(closeold) -> closeold;
(closenew) -> closenew;
(acceptnew) -> acceptnew
end);
false ->
acceptnew
end,
Option = case OptionRaw of
setresource -> setresource;
closeold ->
acceptnew; %% ejabberd_sm will close old session
closenew -> closenew;
acceptnew -> acceptnew;
_ -> acceptnew %% default ejabberd behavior
end,
case Option of
acceptnew -> {accept_resource, R};
closenew -> closenew;
setresource ->
Rnew = new_uniq_id(),
{accept_resource, Rnew}
end.
-spec bounce_message_queue() -> ok.
bounce_message_queue() ->
receive {route, Pkt} ->
ejabberd_router:route(Pkt),
bounce_message_queue()
after 0 ->
ok
end.
-spec new_uniq_id() -> binary().
new_uniq_id() ->
iolist_to_binary(
[randoms:get_string(),
integer_to_binary(p1_time_compat:unique_integer([positive]))]).
-spec get_conn_type(state()) -> c2s | c2s_tls | c2s_compressed | websocket |
c2s_compressed_tls | http_bind.
get_conn_type(State) ->
case xmpp_stream_in:get_transport(State) of
tcp -> c2s;
tls -> c2s_tls;
tcp_zlib -> c2s_compressed;
tls_zlib -> c2s_compressed_tls;
http_bind -> http_bind;
websocket -> websocket
end.
-spec fix_from_to(xmpp_element(), state()) -> stanza().
fix_from_to(Pkt, #{jid := JID}) when ?is_stanza(Pkt) ->
#jid{luser = U, lserver = S, lresource = R} = JID,
From = xmpp:get_from(Pkt),
From1 = case jid:tolower(From) of
{U, S, R} -> JID;
{U, S, _} -> jid:replace_resource(JID, From#jid.resource);
_ -> From
end,
xmpp:set_from_to(Pkt, From1, JID);
fix_from_to(Pkt, _State) ->
Pkt.
-spec change_shaper(state()) -> ok.
change_shaper(#{shaper := ShaperName, ip := IP, lserver := LServer,
user := U, server := S, resource := R} = State) ->
JID = jid:make(U, S, R),
Shaper = acl:access_matches(ShaperName,
#{usr => jid:split(JID), ip => IP},
LServer),
xmpp_stream_in:change_shaper(State, Shaper).
-spec add_to_pres_a(state(), jid()) -> state().
add_to_pres_a(#{pres_a := PresA, pres_f := PresF} = State, From) ->
LFrom = jid:tolower(From),
LBFrom = jid:remove_resource(LFrom),
case (?SETS):is_element(LFrom, PresA) orelse
(?SETS):is_element(LBFrom, PresA) of
true ->
State;
false ->
case (?SETS):is_element(LFrom, PresF) of
true ->
A = (?SETS):add_element(LFrom, PresA),
State#{pres_a => A};
false ->
case (?SETS):is_element(LBFrom, PresF) of
true ->
A = (?SETS):add_element(LBFrom, PresA),
State#{pres_a => A};
false ->
State
end
end
end.
-spec format_reason(state(), term()) -> binary().
format_reason(#{stop_reason := Reason}, _) ->
xmpp_stream_in:format_error(Reason);
format_reason(_, normal) ->
<<"unknown reason">>;
format_reason(_, shutdown) ->
<<"stopped by supervisor">>;
format_reason(_, {shutdown, _}) ->
<<"stopped by supervisor">>;
format_reason(_, _) ->
<<"internal server error">>.
transform_listen_option(Opt, Opts) ->
[Opt|Opts].
opt_type(domain_certfile) -> fun iolist_to_binary/1;
opt_type(c2s_certfile) -> fun iolist_to_binary/1;
opt_type(c2s_ciphers) -> fun iolist_to_binary/1;
opt_type(c2s_dhfile) -> fun iolist_to_binary/1;
opt_type(c2s_cafile) -> fun iolist_to_binary/1;
opt_type(c2s_protocol_options) ->
fun (Options) -> str:join(Options, <<"|">>) end;
opt_type(c2s_tls_compression) ->
fun (true) -> true;
(false) -> false
end;
opt_type(resource_conflict) ->
fun (setresource) -> setresource;
(closeold) -> closeold;
(closenew) -> closenew;
(acceptnew) -> acceptnew
end;
opt_type(disable_sasl_mechanisms) ->
fun (V) when is_list(V) ->
lists:map(fun (M) -> str:to_upper(M) end, V);
(V) -> [str:to_upper(V)]
end;
opt_type(_) ->
[domain_certfile, c2s_certfile, c2s_ciphers, c2s_cafile,
c2s_protocol_options, c2s_tls_compression, resource_conflict,
disable_sasl_mechanisms].
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