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xmpp.chapril.org-ejabberd/src/mod_sip.erl
Evgeniy Khramtsov 69de1780a0 Introduce --enable-stun and --enable-sip configure options
STUN/TURN and SIP is not compiled by default anymore.
Use --enable-stun, --enable-sip or --enable-all to enable them.
2017-05-23 13:12:48 +03:00

368 lines
11 KiB
Erlang

%%%-------------------------------------------------------------------
%%% File : mod_sip.erl
%%% Author : Evgeny Khramtsov <ekhramtsov@process-one.net>
%%% Purpose : SIP RFC-3261
%%% Created : 21 Apr 2014 by Evgeny Khramtsov <ekhramtsov@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2014-2017 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(mod_sip).
-protocol({rfc, 3261}).
-include("logger.hrl").
-ifndef(SIP).
-export([start/2, stop/1, depends/2, mod_opt_type/1]).
start(_, _) ->
?CRITICAL_MSG("ejabberd is not compiled with SIP support", []),
{error, sip_not_compiled}.
stop(_) ->
ok.
depends(_, _) ->
[].
mod_opt_type(_) ->
[].
-else.
-behaviour(gen_mod).
-behaviour(esip).
%% API
-export([start/2, stop/1, reload/3,
make_response/2, is_my_host/1, at_my_host/1]).
-export([data_in/2, data_out/2, message_in/2,
message_out/2, request/2, request/3, response/2,
locate/1, mod_opt_type/1, depends/2]).
-include("ejabberd.hrl").
-include_lib("esip/include/esip.hrl").
%%%===================================================================
%%% API
%%%===================================================================
start(_Host, _Opts) ->
ejabberd:start_app(esip),
esip:set_config_value(max_server_transactions, 10000),
esip:set_config_value(max_client_transactions, 10000),
esip:set_config_value(software, <<"ejabberd ", (?VERSION)/binary>>),
esip:set_config_value(module, ?MODULE),
Spec = {mod_sip_registrar, {mod_sip_registrar, start_link, []},
transient, 2000, worker, [mod_sip_registrar]},
TmpSupSpec = {mod_sip_proxy_sup,
{ejabberd_tmp_sup, start_link,
[mod_sip_proxy_sup, mod_sip_proxy]},
permanent, infinity, supervisor, [ejabberd_tmp_sup]},
supervisor:start_child(ejabberd_gen_mod_sup, Spec),
supervisor:start_child(ejabberd_gen_mod_sup, TmpSupSpec),
ok.
stop(_Host) ->
ok.
reload(_Host, _NewOpts, _OldOpts) ->
ok.
depends(_Host, _Opts) ->
[].
data_in(Data, #sip_socket{type = Transport,
addr = {MyIP, MyPort},
peer = {PeerIP, PeerPort}}) ->
?DEBUG(
"SIP [~p/in] ~s:~p -> ~s:~p:~n~s",
[Transport, inet_parse:ntoa(PeerIP), PeerPort,
inet_parse:ntoa(MyIP), MyPort, Data]).
data_out(Data, #sip_socket{type = Transport,
addr = {MyIP, MyPort},
peer = {PeerIP, PeerPort}}) ->
?DEBUG(
"SIP [~p/out] ~s:~p -> ~s:~p:~n~s",
[Transport, inet_parse:ntoa(MyIP), MyPort,
inet_parse:ntoa(PeerIP), PeerPort, Data]).
message_in(#sip{type = request, method = M} = Req, SIPSock)
when M /= <<"ACK">>, M /= <<"CANCEL">> ->
case action(Req, SIPSock) of
{relay, _LServer} ->
ok;
Action ->
request(Req, SIPSock, undefined, Action)
end;
message_in(ping, SIPSock) ->
mod_sip_registrar:ping(SIPSock);
message_in(_, _) ->
ok.
message_out(_, _) ->
ok.
response(_Resp, _SIPSock) ->
ok.
request(#sip{method = <<"ACK">>} = Req, SIPSock) ->
case action(Req, SIPSock) of
{relay, LServer} ->
mod_sip_proxy:route(Req, LServer, [{authenticated, true}]);
{proxy_auth, LServer} ->
mod_sip_proxy:route(Req, LServer, [{authenticated, false}]);
_ ->
ok
end;
request(_Req, _SIPSock) ->
ok.
request(Req, SIPSock, TrID) ->
request(Req, SIPSock, TrID, action(Req, SIPSock)).
request(Req, SIPSock, TrID, Action) ->
case Action of
to_me ->
process(Req, SIPSock);
register ->
mod_sip_registrar:request(Req, SIPSock);
loop ->
make_response(Req, #sip{status = 483, type = response});
{unsupported, Require} ->
make_response(Req, #sip{status = 420,
type = response,
hdrs = [{'unsupported',
Require}]});
{relay, LServer} ->
case mod_sip_proxy:start(LServer, []) of
{ok, Pid} ->
mod_sip_proxy:route(Req, SIPSock, TrID, Pid),
{mod_sip_proxy, route, [Pid]};
Err ->
?INFO_MSG("failed to proxy request ~p: ~p", [Req, Err]),
Err
end;
{proxy_auth, LServer} ->
make_response(
Req,
#sip{status = 407,
type = response,
hdrs = [{'proxy-authenticate',
make_auth_hdr(LServer)}]});
{auth, LServer} ->
make_response(
Req,
#sip{status = 401,
type = response,
hdrs = [{'www-authenticate',
make_auth_hdr(LServer)}]});
deny ->
make_response(Req, #sip{status = 403,
type = response});
not_found ->
make_response(Req, #sip{status = 480,
type = response})
end.
locate(_SIPMsg) ->
ok.
find(#uri{user = User, host = Host}) ->
LUser = jid:nodeprep(User),
LServer = jid:nameprep(Host),
if LUser == <<"">> ->
to_me;
true ->
case mod_sip_registrar:find_sockets(LUser, LServer) of
[] ->
not_found;
[_|_] ->
{relay, LServer}
end
end.
%%%===================================================================
%%% Internal functions
%%%===================================================================
action(#sip{method = <<"REGISTER">>, type = request, hdrs = Hdrs,
uri = #uri{user = <<"">>} = URI} = Req, SIPSock) ->
case at_my_host(URI) of
true ->
Require = esip:get_hdrs('require', Hdrs) -- supported(),
case Require of
[_|_] ->
{unsupported, Require};
_ ->
{_, ToURI, _} = esip:get_hdr('to', Hdrs),
case at_my_host(ToURI) of
true ->
case check_auth(Req, 'authorization', SIPSock) of
true ->
register;
false ->
{auth, jid:nameprep(ToURI#uri.host)}
end;
false ->
deny
end
end;
false ->
deny
end;
action(#sip{method = Method, hdrs = Hdrs, type = request} = Req, SIPSock) ->
case esip:get_hdr('max-forwards', Hdrs) of
0 when Method == <<"OPTIONS">> ->
to_me;
0 ->
loop;
_ ->
Require = esip:get_hdrs('proxy-require', Hdrs) -- supported(),
case Require of
[_|_] ->
{unsupported, Require};
_ ->
{_, ToURI, _} = esip:get_hdr('to', Hdrs),
{_, FromURI, _} = esip:get_hdr('from', Hdrs),
case at_my_host(FromURI) of
true ->
case check_auth(Req, 'proxy-authorization', SIPSock) of
true ->
case at_my_host(ToURI) of
true ->
find(ToURI);
false ->
LServer = jid:nameprep(FromURI#uri.host),
{relay, LServer}
end;
false ->
{proxy_auth, FromURI#uri.host}
end;
false ->
case at_my_host(ToURI) of
true ->
find(ToURI);
false ->
deny
end
end
end
end.
check_auth(#sip{method = <<"CANCEL">>}, _, _SIPSock) ->
true;
check_auth(#sip{method = Method, hdrs = Hdrs, body = Body}, AuthHdr, _SIPSock) ->
Issuer = case AuthHdr of
'authorization' ->
to;
'proxy-authorization' ->
from
end,
{_, #uri{user = User, host = Host}, _} = esip:get_hdr(Issuer, Hdrs),
LUser = jid:nodeprep(User),
LServer = jid:nameprep(Host),
case lists:filter(
fun({_, Params}) ->
Username = esip:get_param(<<"username">>, Params),
Realm = esip:get_param(<<"realm">>, Params),
(LUser == esip:unquote(Username))
and (LServer == esip:unquote(Realm))
end, esip:get_hdrs(AuthHdr, Hdrs)) of
[Auth|_] ->
case ejabberd_auth:get_password_s(LUser, LServer) of
<<"">> ->
false;
Password when is_binary(Password) ->
esip:check_auth(Auth, Method, Body, Password);
_ScramedPassword ->
?ERROR_MSG("unable to authenticate ~s@~s against SCRAM'ed "
"password", [LUser, LServer]),
false
end;
[] ->
false
end.
allow() ->
[<<"OPTIONS">>, <<"REGISTER">>].
supported() ->
[<<"path">>, <<"outbound">>].
process(#sip{method = <<"OPTIONS">>} = Req, _) ->
make_response(Req, #sip{type = response, status = 200,
hdrs = [{'allow', allow()},
{'supported', supported()}]});
process(#sip{method = <<"REGISTER">>} = Req, _) ->
make_response(Req, #sip{type = response, status = 400});
process(Req, _) ->
make_response(Req, #sip{type = response, status = 405,
hdrs = [{'allow', allow()}]}).
make_auth_hdr(LServer) ->
{<<"Digest">>, [{<<"realm">>, esip:quote(LServer)},
{<<"qop">>, esip:quote(<<"auth">>)},
{<<"nonce">>, esip:quote(esip:make_hexstr(20))}]}.
make_response(Req, Resp) ->
esip:make_response(Req, Resp, esip:make_tag()).
at_my_host(#uri{host = Host}) ->
is_my_host(jid:nameprep(Host)).
is_my_host(LServer) ->
gen_mod:is_loaded(LServer, ?MODULE).
mod_opt_type(always_record_route) ->
fun (true) -> true;
(false) -> false
end;
mod_opt_type(flow_timeout_tcp) ->
fun (I) when is_integer(I), I > 0 -> I end;
mod_opt_type(flow_timeout_udp) ->
fun (I) when is_integer(I), I > 0 -> I end;
mod_opt_type(record_route) ->
fun (IOList) ->
S = iolist_to_binary(IOList),
#uri{} = esip:decode_uri(S)
end;
mod_opt_type(routes) ->
fun (L) ->
lists:map(fun (IOList) ->
S = iolist_to_binary(IOList),
#uri{} = esip:decode_uri(S)
end,
L)
end;
mod_opt_type(via) ->
fun (L) ->
lists:map(fun (Opts) ->
Type = proplists:get_value(type, Opts),
Host = proplists:get_value(host, Opts),
Port = proplists:get_value(port, Opts),
true = (Type == tcp) or (Type == tls) or
(Type == udp),
true = is_binary(Host) and (Host /= <<"">>),
true = is_integer(Port) and (Port > 0) and
(Port < 65536)
or (Port == undefined),
{Type, {Host, Port}}
end,
L)
end;
mod_opt_type(_) ->
[always_record_route, flow_timeout_tcp,
flow_timeout_udp, record_route, routes, via].
-endif.