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mirror of https://github.com/processone/ejabberd.git synced 2024-11-26 16:26:24 +01:00
xmpp.chapril.org-ejabberd/src/mod_sip_registrar.erl
2016-01-13 12:29:14 +01:00

585 lines
17 KiB
Erlang

%%%-------------------------------------------------------------------
%%% @author Evgeny Khramtsov <ekhramtsov@process-one.net>
%%% @doc
%%%
%%% @end
%%% Created : 23 Apr 2014 by Evgeny Khramtsov <ekhramtsov@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2014-2016 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_sip_registrar).
-define(GEN_SERVER, p1_server).
-behaviour(?GEN_SERVER).
%% API
-export([start_link/0, request/2, find_sockets/2, ping/1]).
%% gen_server callbacks
-export([init/1, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3]).
-include("ejabberd.hrl").
-include("logger.hrl").
-include_lib("esip/include/esip.hrl").
-define(CALL_TIMEOUT, timer:seconds(30)).
-define(DEFAULT_EXPIRES, 3600).
-define(FLOW_TIMEOUT_UDP, 29).
-define(FLOW_TIMEOUT_TCP, 120).
-record(sip_session, {us = {<<"">>, <<"">>} :: {binary(), binary()},
socket = #sip_socket{} :: #sip_socket{},
call_id = <<"">> :: binary(),
cseq = 0 :: non_neg_integer(),
timestamp = p1_time_compat:timestamp() :: erlang:timestamp(),
contact :: {binary(), #uri{}, [{binary(), binary()}]},
flow_tref :: reference(),
reg_tref = make_ref() :: reference(),
conn_mref = make_ref() :: reference(),
expires = 0 :: non_neg_integer()}).
-record(state, {}).
%%%===================================================================
%%% API
%%%===================================================================
start_link() ->
?GEN_SERVER:start_link({local, ?MODULE}, ?MODULE, [], []).
request(#sip{hdrs = Hdrs} = Req, SIPSock) ->
{_, #uri{user = U, host = S}, _} = esip:get_hdr('to', Hdrs),
LUser = jid:nodeprep(U),
LServer = jid:nameprep(S),
{PeerIP, _} = SIPSock#sip_socket.peer,
US = {LUser, LServer},
CallID = esip:get_hdr('call-id', Hdrs),
CSeq = esip:get_hdr('cseq', Hdrs),
Expires = esip:get_hdr('expires', Hdrs, ?DEFAULT_EXPIRES),
Supported = esip:get_hdrs('supported', Hdrs),
IsOutboundSupported = lists:member(<<"outbound">>, Supported),
case esip:get_hdrs('contact', Hdrs) of
[<<"*">>] when Expires == 0 ->
case unregister_session(US, CallID, CSeq) of
{ok, ContactsWithExpires} ->
?INFO_MSG("unregister SIP session for user ~s@~s from ~s",
[LUser, LServer, inet_parse:ntoa(PeerIP)]),
Cs = prepare_contacts_to_send(ContactsWithExpires),
mod_sip:make_response(
Req,
#sip{type = response,
status = 200,
hdrs = [{'contact', Cs}]});
{error, Why} ->
{Status, Reason} = make_status(Why),
mod_sip:make_response(
Req, #sip{type = response,
status = Status,
reason = Reason})
end;
[{_, _URI, _Params}|_] = Contacts ->
ContactsWithExpires = make_contacts_with_expires(Contacts, Expires),
ContactsHaveManyRegID = contacts_have_many_reg_id(Contacts),
Expires1 = lists:max([E || {_, E} <- ContactsWithExpires]),
MinExpires = min_expires(),
if Expires1 > 0, Expires1 < MinExpires ->
mod_sip:make_response(
Req, #sip{type = response,
status = 423,
hdrs = [{'min-expires', MinExpires}]});
ContactsHaveManyRegID ->
mod_sip:make_response(
Req, #sip{type = response, status = 400,
reason = <<"Multiple 'reg-id' parameter">>});
true ->
case register_session(US, SIPSock, CallID, CSeq,
IsOutboundSupported,
ContactsWithExpires) of
{ok, Res} ->
?INFO_MSG("~s SIP session for user ~s@~s from ~s",
[Res, LUser, LServer,
inet_parse:ntoa(PeerIP)]),
Cs = prepare_contacts_to_send(ContactsWithExpires),
Require = case need_ob_hdrs(
Contacts, IsOutboundSupported) of
true -> [{'require', [<<"outbound">>]},
{'flow-timer',
get_flow_timeout(LServer, SIPSock)}];
false -> []
end,
mod_sip:make_response(
Req,
#sip{type = response,
status = 200,
hdrs = [{'contact', Cs}|Require]});
{error, Why} ->
{Status, Reason} = make_status(Why),
mod_sip:make_response(
Req, #sip{type = response,
status = Status,
reason = Reason})
end
end;
[] ->
case mnesia:dirty_read(sip_session, US) of
[_|_] = Sessions ->
ContactsWithExpires =
lists:map(
fun(#sip_session{contact = Contact, expires = Es}) ->
{Contact, Es}
end, Sessions),
Cs = prepare_contacts_to_send(ContactsWithExpires),
mod_sip:make_response(
Req, #sip{type = response, status = 200,
hdrs = [{'contact', Cs}]});
[] ->
{Status, Reason} = make_status(notfound),
mod_sip:make_response(
Req, #sip{type = response,
status = Status,
reason = Reason})
end;
_ ->
mod_sip:make_response(Req, #sip{type = response, status = 400})
end.
find_sockets(U, S) ->
case mnesia:dirty_read(sip_session, {U, S}) of
[_|_] = Sessions ->
lists:map(
fun(#sip_session{contact = {_, URI, _},
socket = Socket}) ->
{Socket, URI}
end, Sessions);
[] ->
[]
end.
ping(SIPSocket) ->
call({ping, SIPSocket}).
%%%===================================================================
%%% gen_server callbacks
%%%===================================================================
init([]) ->
update_table(),
mnesia:create_table(sip_session,
[{ram_copies, [node()]},
{type, bag},
{attributes, record_info(fields, sip_session)}]),
mnesia:add_table_index(sip_session, conn_mref),
mnesia:add_table_index(sip_session, socket),
mnesia:add_table_copy(sip_session, node(), ram_copies),
{ok, #state{}}.
handle_call({write, Sessions, Supported}, _From, State) ->
Res = write_session(Sessions, Supported),
{reply, Res, State};
handle_call({delete, US, CallID, CSeq}, _From, State) ->
Res = delete_session(US, CallID, CSeq),
{reply, Res, State};
handle_call({ping, SIPSocket}, _From, State) ->
Res = process_ping(SIPSocket),
{reply, Res, State};
handle_call(_Request, _From, State) ->
Reply = ok,
{reply, Reply, State}.
handle_cast(_Msg, State) ->
{noreply, State}.
handle_info({write, Sessions, Supported}, State) ->
write_session(Sessions, Supported),
{noreply, State};
handle_info({delete, US, CallID, CSeq}, State) ->
delete_session(US, CallID, CSeq),
{noreply, State};
handle_info({timeout, TRef, US}, State) ->
delete_expired_session(US, TRef),
{noreply, State};
handle_info({'DOWN', MRef, process, _Pid, _Reason}, State) ->
case mnesia:dirty_index_read(sip_session, MRef, #sip_session.conn_mref) of
[Session] ->
mnesia:dirty_delete_object(Session);
_ ->
ok
end,
{noreply, State};
handle_info(_Info, State) ->
?ERROR_MSG("got unexpected info: ~p", [_Info]),
{noreply, State}.
terminate(_Reason, _State) ->
ok.
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%%===================================================================
%%% Internal functions
%%%===================================================================
register_session(US, SIPSocket, CallID, CSeq, IsOutboundSupported,
ContactsWithExpires) ->
Sessions = lists:map(
fun({Contact, Expires}) ->
#sip_session{us = US,
socket = SIPSocket,
call_id = CallID,
cseq = CSeq,
timestamp = p1_time_compat:timestamp(),
contact = Contact,
expires = Expires}
end, ContactsWithExpires),
Msg = {write, Sessions, IsOutboundSupported},
call(Msg).
unregister_session(US, CallID, CSeq) ->
Msg = {delete, US, CallID, CSeq},
call(Msg).
write_session([#sip_session{us = {U, S} = US}|_] = NewSessions,
IsOutboundSupported) ->
PrevSessions = mnesia:dirty_read(sip_session, US),
Res = lists:foldl(
fun(_, {error, _} = Err) ->
Err;
(#sip_session{call_id = CallID,
expires = Expires,
cseq = CSeq} = Session, {Add, Del}) ->
case find_session(Session, PrevSessions,
IsOutboundSupported) of
{ok, normal, #sip_session{call_id = CallID,
cseq = PrevCSeq}}
when PrevCSeq > CSeq ->
{error, cseq_out_of_order};
{ok, _Type, PrevSession} when Expires == 0 ->
{Add, [PrevSession|Del]};
{ok, _Type, PrevSession} ->
{[Session|Add], [PrevSession|Del]};
{error, notfound} when Expires == 0 ->
{error, notfound};
{error, notfound} ->
{[Session|Add], Del}
end
end, {[], []}, NewSessions),
MaxSessions = ejabberd_sm:get_max_user_sessions(U, S),
case Res of
{error, Why} ->
{error, Why};
{AddSessions, DelSessions} ->
MaxSessions = ejabberd_sm:get_max_user_sessions(U, S),
AllSessions = AddSessions ++ PrevSessions -- DelSessions,
if length(AllSessions) > MaxSessions ->
{error, too_many_sessions};
true ->
lists:foreach(fun delete_session/1, DelSessions),
lists:foreach(
fun(Session) ->
NewSession = set_monitor_and_timer(
Session, IsOutboundSupported),
mnesia:dirty_write(NewSession)
end, AddSessions),
case {AllSessions, AddSessions} of
{[], _} ->
{ok, unregister};
{_, []} ->
{ok, unregister};
_ ->
{ok, register}
end
end
end.
delete_session(US, CallID, CSeq) ->
case mnesia:dirty_read(sip_session, US) of
[_|_] = Sessions ->
case lists:all(
fun(S) when S#sip_session.call_id == CallID,
S#sip_session.cseq > CSeq ->
false;
(_) ->
true
end, Sessions) of
true ->
ContactsWithExpires =
lists:map(
fun(#sip_session{contact = Contact} = Session) ->
delete_session(Session),
{Contact, 0}
end, Sessions),
{ok, ContactsWithExpires};
false ->
{error, cseq_out_of_order}
end;
[] ->
{error, notfound}
end.
delete_expired_session(US, TRef) ->
case mnesia:dirty_read(sip_session, US) of
[_|_] = Sessions ->
lists:foreach(
fun(#sip_session{reg_tref = T1,
flow_tref = T2} = Session)
when T1 == TRef; T2 == TRef ->
if T2 /= undefined ->
close_socket(Session);
true ->
ok
end,
delete_session(Session);
(_) ->
ok
end, Sessions);
[] ->
ok
end.
min_expires() ->
60.
to_integer(Bin, Min, Max) ->
case catch list_to_integer(binary_to_list(Bin)) of
N when N >= Min, N =< Max ->
{ok, N};
_ ->
error
end.
call(Msg) ->
case catch ?GEN_SERVER:call(?MODULE, Msg, ?CALL_TIMEOUT) of
{'EXIT', {timeout, _}} ->
{error, timeout};
{'EXIT', Why} ->
{error, Why};
Reply ->
Reply
end.
make_contacts_with_expires(Contacts, Expires) ->
lists:map(
fun({Name, URI, Params}) ->
E1 = case to_integer(esip:get_param(<<"expires">>, Params),
0, (1 bsl 32)-1) of
{ok, E} -> E;
_ -> Expires
end,
Params1 = lists:keydelete(<<"expires">>, 1, Params),
{{Name, URI, Params1}, E1}
end, Contacts).
prepare_contacts_to_send(ContactsWithExpires) ->
lists:map(
fun({{Name, URI, Params}, Expires}) ->
Params1 = esip:set_param(<<"expires">>,
list_to_binary(
integer_to_list(Expires)),
Params),
{Name, URI, Params1}
end, ContactsWithExpires).
contacts_have_many_reg_id(Contacts) ->
Sum = lists:foldl(
fun({_Name, _URI, Params}, Acc) ->
case get_ob_params(Params) of
error ->
Acc;
{_, _} ->
Acc + 1
end
end, 0, Contacts),
if Sum > 1 ->
true;
true ->
false
end.
find_session(#sip_session{contact = {_, URI, Params}}, Sessions,
IsOutboundSupported) ->
if IsOutboundSupported ->
case get_ob_params(Params) of
{InstanceID, RegID} ->
find_session_by_ob({InstanceID, RegID}, Sessions);
error ->
find_session_by_uri(URI, Sessions)
end;
true ->
find_session_by_uri(URI, Sessions)
end.
find_session_by_ob({InstanceID, RegID},
[#sip_session{contact = {_, _, Params}} = Session|Sessions]) ->
case get_ob_params(Params) of
{InstanceID, RegID} ->
{ok, flow, Session};
_ ->
find_session_by_ob({InstanceID, RegID}, Sessions)
end;
find_session_by_ob(_, []) ->
{error, notfound}.
find_session_by_uri(URI1,
[#sip_session{contact = {_, URI2, _}} = Session|Sessions]) ->
case cmp_uri(URI1, URI2) of
true ->
{ok, normal, Session};
false ->
find_session_by_uri(URI1, Sessions)
end;
find_session_by_uri(_, []) ->
{error, notfound}.
%% TODO: this is *totally* wrong.
%% Rewrite this using URI comparison rules
cmp_uri(#uri{user = U, host = H, port = P},
#uri{user = U, host = H, port = P}) ->
true;
cmp_uri(_, _) ->
false.
make_status(notfound) ->
{404, esip:reason(404)};
make_status(cseq_out_of_order) ->
{500, <<"CSeq is Out of Order">>};
make_status(timeout) ->
{408, esip:reason(408)};
make_status(too_many_sessions) ->
{503, <<"Too Many Registered Sessions">>};
make_status(_) ->
{500, esip:reason(500)}.
get_ob_params(Params) ->
case esip:get_param(<<"+sip.instance">>, Params) of
<<>> ->
error;
InstanceID ->
case to_integer(esip:get_param(<<"reg-id">>, Params),
0, (1 bsl 32)-1) of
{ok, RegID} ->
{InstanceID, RegID};
error ->
error
end
end.
need_ob_hdrs(_Contacts, _IsOutboundSupported = false) ->
false;
need_ob_hdrs(Contacts, _IsOutboundSupported = true) ->
lists:any(
fun({_Name, _URI, Params}) ->
case get_ob_params(Params) of
error -> false;
{_, _} -> true
end
end, Contacts).
get_flow_timeout(LServer, #sip_socket{type = Type}) ->
case Type of
udp ->
gen_mod:get_module_opt(
LServer, mod_sip, flow_timeout_udp,
fun(I) when is_integer(I), I>0 -> I end,
?FLOW_TIMEOUT_UDP);
_ ->
gen_mod:get_module_opt(
LServer, mod_sip, flow_timeout_tcp,
fun(I) when is_integer(I), I>0 -> I end,
?FLOW_TIMEOUT_TCP)
end.
update_table() ->
Fields = record_info(fields, sip_session),
case catch mnesia:table_info(sip_session, attributes) of
Fields ->
ok;
[_|_] ->
mnesia:delete_table(sip_session);
{'EXIT', _} ->
ok
end.
set_monitor_and_timer(#sip_session{socket = #sip_socket{type = Type,
pid = Pid} = SIPSock,
conn_mref = MRef,
expires = Expires,
us = {_, LServer},
contact = {_, _, Params}} = Session,
IsOutboundSupported) ->
RegTRef = set_timer(Session, Expires),
Session1 = Session#sip_session{reg_tref = RegTRef},
if IsOutboundSupported ->
case get_ob_params(Params) of
error ->
Session1;
{_, _} ->
FlowTimeout = get_flow_timeout(LServer, SIPSock),
FlowTRef = set_timer(Session1, FlowTimeout),
NewMRef = if Type == udp -> MRef;
true -> erlang:monitor(process, Pid)
end,
Session1#sip_session{conn_mref = NewMRef,
flow_tref = FlowTRef}
end;
true ->
Session1
end.
set_timer(#sip_session{us = US}, Timeout) ->
erlang:start_timer(Timeout * 1000, self(), US).
close_socket(#sip_session{socket = SIPSocket}) ->
if SIPSocket#sip_socket.type /= udp ->
esip_socket:close(SIPSocket);
true ->
ok
end.
delete_session(#sip_session{reg_tref = RegTRef,
flow_tref = FlowTRef,
conn_mref = MRef} = Session) ->
erlang:cancel_timer(RegTRef),
catch erlang:cancel_timer(FlowTRef),
catch erlang:demonitor(MRef, [flush]),
mnesia:dirty_delete_object(Session).
process_ping(SIPSocket) ->
ErrResponse = if SIPSocket#sip_socket.type == udp -> pang;
true -> drop
end,
Sessions = mnesia:dirty_index_read(
sip_session, SIPSocket, #sip_session.socket),
lists:foldl(
fun(#sip_session{flow_tref = TRef,
us = {_, LServer}} = Session, _)
when TRef /= undefined ->
erlang:cancel_timer(TRef),
mnesia:dirty_delete_object(Session),
Timeout = get_flow_timeout(LServer, SIPSocket),
NewTRef = set_timer(Session, Timeout),
case mnesia:dirty_write(
Session#sip_session{flow_tref = NewTRef}) of
ok ->
pong;
_Err ->
pang
end;
(_, Acc) ->
Acc
end, ErrResponse, Sessions).