%%%----------------------------------------------------------------------
%%% File : ejabberd_websocket.erl
%%% Author : Eric Cestari <ecestari@process-one.net>
%%% Purpose : XMPP Websocket support
%%% Created : 09-10-2010 by Eric Cestari <ecestari@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2016 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(ejabberd_http_ws).
-behaviour(ejabberd_config).
-author('ecestari@process-one.net').
-behaviour(gen_fsm).
-export([start/1, start_link/1, init/1, handle_event/3,
handle_sync_event/4, code_change/4, handle_info/3,
terminate/3, send_xml/2, setopts/2, sockname/1,
peername/1, controlling_process/2, become_controller/2,
close/1, socket_handoff/6, opt_type/1]).
-include("ejabberd.hrl").
-include("logger.hrl").
-include("jlib.hrl").
-include("ejabberd_http.hrl").
-define(PING_INTERVAL, 60).
-define(WEBSOCKET_TIMEOUT, 300).
-record(state,
{socket :: ws_socket(),
ping_interval = ?PING_INTERVAL :: non_neg_integer(),
ping_timer = make_ref() :: reference(),
pong_expected :: boolean(),
timeout = ?WEBSOCKET_TIMEOUT :: non_neg_integer(),
timer = make_ref() :: reference(),
input = [] :: list(),
waiting_input = false :: false | pid(),
last_receiver :: pid(),
ws :: {#ws{}, pid()},
rfc_compilant = undefined :: boolean() | undefined}).
%-define(DBGFSM, true).
-ifdef(DBGFSM).
-define(FSMOPTS, [{debug, [trace]}]).
-else.
-define(FSMOPTS, []).
-endif.
-type ws_socket() :: {http_ws, pid(), {inet:ip_address(), inet:port_number()}}.
-export_type([ws_socket/0]).
start(WS) ->
gen_fsm:start(?MODULE, [WS], ?FSMOPTS).
start_link(WS) ->
gen_fsm:start_link(?MODULE, [WS], ?FSMOPTS).
send_xml({http_ws, FsmRef, _IP}, Packet) ->
gen_fsm:sync_send_all_state_event(FsmRef,
{send_xml, Packet}).
setopts({http_ws, FsmRef, _IP}, Opts) ->
case lists:member({active, once}, Opts) of
true ->
gen_fsm:send_all_state_event(FsmRef,
{activate, self()});
_ -> ok
end.
sockname(_Socket) -> {ok, {{0, 0, 0, 0}, 0}}.
peername({http_ws, _FsmRef, IP}) -> {ok, IP}.
controlling_process(_Socket, _Pid) -> ok.
become_controller(FsmRef, C2SPid) ->
gen_fsm:send_all_state_event(FsmRef,
{become_controller, C2SPid}).
close({http_ws, FsmRef, _IP}) ->
catch gen_fsm:sync_send_all_state_event(FsmRef, close).
socket_handoff(LocalPath, Request, Socket, SockMod, Buf, Opts) ->
ejabberd_websocket:socket_handoff(LocalPath, Request, Socket, SockMod,
Buf, Opts, ?MODULE, fun get_human_html_xmlel/0).
%%% Internal
init([{#ws{ip = IP, http_opts = HOpts}, _} = WS]) ->
SOpts = lists:filtermap(fun({stream_management, _}) -> true;
({max_ack_queue, _}) -> true;
({resume_timeout, _}) -> true;
({max_resume_timeout, _}) -> true;
({resend_on_timeout, _}) -> true;
(_) -> false
end, HOpts),
Opts = [{xml_socket, true} | ejabberd_c2s_config:get_c2s_limits() ++ SOpts],
PingInterval = ejabberd_config:get_option(
{websocket_ping_interval, ?MYNAME},
fun(I) when is_integer(I), I>=0 -> I end,
?PING_INTERVAL) * 1000,
WSTimeout = ejabberd_config:get_option(
{websocket_timeout, ?MYNAME},
fun(I) when is_integer(I), I>0 -> I end,
?WEBSOCKET_TIMEOUT) * 1000,
Socket = {http_ws, self(), IP},
?DEBUG("Client connected through websocket ~p",
[Socket]),
ejabberd_socket:start(ejabberd_c2s, ?MODULE, Socket,
Opts),
Timer = erlang:start_timer(WSTimeout, self(), []),
{ok, loop,
#state{socket = Socket, timeout = WSTimeout,
timer = Timer, ws = WS,
ping_interval = PingInterval}}.
handle_event({activate, From}, StateName, StateData) ->
case StateData#state.input of
[] ->
{next_state, StateName,
StateData#state{waiting_input = From}};
Input ->
Receiver = From,
lists:foreach(fun(I) when is_binary(I)->
Receiver ! {tcp, StateData#state.socket, I};
(I2) ->
Receiver ! {tcp, StateData#state.socket, [I2]}
end, Input),
{next_state, StateName,
StateData#state{input = [], waiting_input = false,
last_receiver = Receiver}}
end.
handle_sync_event({send_xml, Packet}, _From, StateName,
#state{ws = {_, WsPid}, rfc_compilant = R} = StateData) ->
Packet2 = case {case R of undefined -> true; V -> V end, Packet} of
{true, {xmlstreamstart, _, Attrs}} ->
Attrs2 = [{<<"xmlns">>, <<"urn:ietf:params:xml:ns:xmpp-framing">>} |
lists:keydelete(<<"xmlns">>, 1, lists:keydelete(<<"xmlns:stream">>, 1, Attrs))],
{xmlstreamelement, #xmlel{name = <<"open">>, attrs = Attrs2}};
{true, {xmlstreamend, _}} ->
{xmlstreamelement, #xmlel{name = <<"close">>,
attrs = [{<<"xmlns">>, <<"urn:ietf:params:xml:ns:xmpp-framing">>}]}};
{true, {xmlstreamraw, <<"\r\n\r\n">>}} -> % cdata ping
skip;
{true, {xmlstreamelement, #xmlel{name=Name2} = El2}} ->
El3 = case Name2 of
<<"stream:", _/binary>> ->
fxml:replace_tag_attr(<<"xmlns:stream">>, ?NS_STREAM, El2);
_ ->
case fxml:get_tag_attr_s(<<"xmlns">>, El2) of
<<"">> ->
fxml:replace_tag_attr(<<"xmlns">>, <<"jabber:client">>, El2);
_ ->
El2
end
end,
{xmlstreamelement , El3};
_ ->
Packet
end,
case Packet2 of
{xmlstreamstart, Name, Attrs3} ->
B = fxml:element_to_binary(#xmlel{name = Name, attrs = Attrs3}),
WsPid ! {send, <<(binary:part(B, 0, byte_size(B)-2))/binary, ">">>};
{xmlstreamend, Name} ->
WsPid ! {send, <<"</", Name/binary, ">">>};
{xmlstreamelement, El} ->
WsPid ! {send, fxml:element_to_binary(El)};
{xmlstreamraw, Bin} ->
WsPid ! {send, Bin};
{xmlstreamcdata, Bin2} ->
WsPid ! {send, Bin2};
skip ->
ok
end,
SN2 = case Packet2 of
{xmlstreamelement, #xmlel{name = <<"close">>}} ->
stream_end_sent;
_ ->
StateName
end,
{reply, ok, SN2, StateData};
handle_sync_event(close, _From, StateName, #state{ws = {_, WsPid}, rfc_compilant = true} = StateData)
when StateName /= stream_end_sent ->
Close = #xmlel{name = <<"close">>,
attrs = [{<<"xmlns">>, <<"urn:ietf:params:xml:ns:xmpp-framing">>}]},
WsPid ! {send, fxml:element_to_binary(Close)},
{stop, normal, StateData};
handle_sync_event(close, _From, _StateName, StateData) ->
{stop, normal, StateData}.
handle_info(closed, _StateName, StateData) ->
{stop, normal, StateData};
handle_info({received, Packet}, StateName, StateDataI) ->
{StateData, Parsed} = parse(StateDataI, Packet),
SD = case StateData#state.waiting_input of
false ->
Input = StateData#state.input ++ if is_binary(Parsed) -> [Parsed]; true -> Parsed end,
StateData#state{input = Input};
Receiver ->
Receiver ! {tcp, StateData#state.socket, Parsed},
setup_timers(StateData#state{waiting_input = false,
last_receiver = Receiver})
end,
{next_state, StateName, SD};
handle_info(PingPong, StateName, StateData) when PingPong == ping orelse
PingPong == pong ->
StateData2 = setup_timers(StateData),
{next_state, StateName,
StateData2#state{pong_expected = false}};
handle_info({timeout, Timer, _}, _StateName,
#state{timer = Timer} = StateData) ->
{stop, normal, StateData};
handle_info({timeout, Timer, _}, StateName,
#state{ping_timer = Timer, ws = {_, WsPid}} = StateData) ->
case StateData#state.pong_expected of
false ->
cancel_timer(StateData#state.ping_timer),
PingTimer = erlang:start_timer(StateData#state.ping_interval,
self(), []),
WsPid ! {ping, <<>>},
{next_state, StateName,
StateData#state{ping_timer = PingTimer, pong_expected = true}};
true ->
{stop, normal, StateData}
end;
handle_info(_, StateName, StateData) ->
{next_state, StateName, StateData}.
code_change(_OldVsn, StateName, StateData, _Extra) ->
{ok, StateName, StateData}.
terminate(_Reason, _StateName, StateData) ->
case StateData#state.waiting_input of
false -> ok;
Receiver ->
?DEBUG("C2S Pid : ~p", [Receiver]),
Receiver ! {tcp_closed, StateData#state.socket}
end,
ok.
setup_timers(StateData) ->
cancel_timer(StateData#state.timer),
Timer = erlang:start_timer(StateData#state.timeout,
self(), []),
cancel_timer(StateData#state.ping_timer),
PingTimer = case StateData#state.ping_interval of
0 -> StateData#state.ping_timer;
V -> erlang:start_timer(V, self(), [])
end,
StateData#state{timer = Timer, ping_timer = PingTimer,
pong_expected = false}.
cancel_timer(Timer) ->
erlang:cancel_timer(Timer),
receive {timeout, Timer, _} -> ok after 0 -> ok end.
get_human_html_xmlel() ->
Heading = <<"ejabberd ", (jlib:atom_to_binary(?MODULE))/binary>>,
#xmlel{name = <<"html">>,
attrs =
[{<<"xmlns">>, <<"http://www.w3.org/1999/xhtml">>}],
children =
[#xmlel{name = <<"head">>, attrs = [],
children =
[#xmlel{name = <<"title">>, attrs = [],
children = [{xmlcdata, Heading}]}]},
#xmlel{name = <<"body">>, attrs = [],
children =
[#xmlel{name = <<"h1">>, attrs = [],
children = [{xmlcdata, Heading}]},
#xmlel{name = <<"p">>, attrs = [],
children =
[{xmlcdata, <<"An implementation of ">>},
#xmlel{name = <<"a">>,
attrs =
[{<<"href">>,
<<"http://tools.ietf.org/html/rfc6455">>}],
children =
[{xmlcdata,
<<"WebSocket protocol">>}]}]},
#xmlel{name = <<"p">>, attrs = [],
children =
[{xmlcdata,
<<"This web page is only informative. To "
"use WebSocket connection you need a Jabber/XMPP "
"client that supports it.">>}]}]}]}.
parse(#state{rfc_compilant = C} = State, Data) ->
case C of
undefined ->
P = fxml_stream:new(self()),
P2 = fxml_stream:parse(P, Data),
fxml_stream:close(P2),
case parsed_items([]) of
error ->
{State#state{rfc_compilant = true}, <<"parse error">>};
[] ->
{State#state{rfc_compilant = true}, <<"parse error">>};
[{xmlstreamstart, <<"open">>, _} | _] ->
parse(State#state{rfc_compilant = true}, Data);
_ ->
parse(State#state{rfc_compilant = false}, Data)
end;
true ->
El = fxml_stream:parse_element(Data),
case El of
#xmlel{name = <<"open">>, attrs = Attrs} ->
Attrs2 = [{<<"xmlns:stream">>, ?NS_STREAM}, {<<"xmlns">>, <<"jabber:client">>} |
lists:keydelete(<<"xmlns">>, 1, lists:keydelete(<<"xmlns:stream">>, 1, Attrs))],
{State, [{xmlstreamstart, <<"stream:stream">>, Attrs2}]};
#xmlel{name = <<"close">>} ->
{State, [{xmlstreamend, <<"stream:stream">>}]};
{error, _} ->
{State, <<"parse error">>};
_ ->
{State, [El]}
end;
false ->
{State, Data}
end.
parsed_items(List) ->
receive
{'$gen_event', El}
when element(1, El) == xmlel;
element(1, El) == xmlstreamstart;
element(1, El) == xmlstreamelement;
element(1, El) == xmlstreamend ->
parsed_items([El | List]);
{'$gen_event', {xmlstreamerror, _}} ->
error
after 0 ->
lists:reverse(List)
end.
opt_type(websocket_ping_interval) ->
fun (I) when is_integer(I), I >= 0 -> I end;
opt_type(websocket_timeout) ->
fun (I) when is_integer(I), I > 0 -> I end;
opt_type(_) ->
[websocket_ping_interval, websocket_timeout].