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mirror of https://github.com/processone/ejabberd.git synced 2024-11-28 16:34:13 +01:00
xmpp.chapril.org-ejabberd/src/mod_mqtt_bridge_session.erl
2023-01-16 12:14:21 +01:00

531 lines
19 KiB
Erlang

%%%-------------------------------------------------------------------
%%% @author Pawel Chmielowski <pawel@process-one.net>
%%% @copyright (C) 2002-2023 ProcessOne, SARL. All Rights Reserved.
%%%
%%% Licensed under the Apache License, Version 2.0 (the "License");
%%% you may not use this file except in compliance with the License.
%%% You may obtain a copy of the License at
%%%
%%% http://www.apache.org/licenses/LICENSE-2.0
%%%
%%% Unless required by applicable law or agreed to in writing, software
%%% distributed under the License is distributed on an "AS IS" BASIS,
%%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%%% See the License for the specific language governing permissions and
%%% limitations under the License.
%%%
%%%-------------------------------------------------------------------
-module(mod_mqtt_bridge_session).
-behaviour(p1_server).
-define(VSN, 1).
-vsn(?VSN).
%% API
-export([start/9, start_link/9]).
%% gen_server callbacks
-export([init/1, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3]).
-include("logger.hrl").
-include("mqtt.hrl").
-include_lib("xmpp/include/xmpp.hrl").
-include_lib("public_key/include/public_key.hrl").
-type error_reason() ::
{auth, reason_code()} |
{code, reason_code()} |
{peer_disconnected, reason_code(), binary()} |
{socket, socket_error_reason()} |
{codec, mqtt_codec:error_reason()} |
{unexpected_packet, atom()} |
{tls, inet:posix() | atom() | binary()} |
{replaced, pid()} |
{resumed, pid()} |
subscribe_forbidden | publish_forbidden |
will_topic_forbidden | internal_server_error |
session_expired | idle_connection |
queue_full | shutdown | db_failure |
{payload_format_invalid, will | publish} |
session_expiry_non_zero | unknown_topic_alias.
-type socket() ::
{gen_tcp, inet:socket()} |
{fast_tls, fast_tls:tls_socket()} |
{mod_mqtt_ws, mod_mqtt_ws:socket()}.
-type seconds() :: non_neg_integer().
-type socket_error_reason() :: closed | timeout | inet:posix().
-define(PING_TIMEOUT, timer:seconds(50)).
-define(MAX_UINT32, 4294967295).
-record(state, {vsn = ?VSN :: integer(),
version :: undefined | mqtt_version(),
socket :: undefined | socket(),
usr :: undefined | {binary(), binary(), binary()},
ping_timer = undefined :: undefined | reference(),
stop_reason :: undefined | error_reason(),
subscriptions = #{},
publish = #{},
ws_codec = none,
id = 0 :: non_neg_integer(),
codec :: mqtt_codec:state(),
authentication :: #{username => binary(), password => binary(), certfile => binary()}}).
-type state() :: #state{}.
%%%===================================================================
%%% API
%%%===================================================================
start(Proc, Transport, Host, Port, Path, Publish, Subscribe, Authentication, ReplicationUser) ->
p1_server:start({local, Proc}, ?MODULE, [Proc, Transport, Host, Port, Path, Publish, Subscribe, Authentication,
ReplicationUser], []).
start_link(Proc, Transport, Host, Port, Path, Publish, Subscribe, Authentication, ReplicationUser) ->
p1_server:start_link({local, Proc}, ?MODULE, [Proc, Transport, Host, Port, Path, Publish, Subscribe,
Authentication, ReplicationUser], []).
%%%===================================================================
%%% gen_server callbacks
%%%===================================================================
init([_Proc, Proto, Host, Port, Path, Publish, Subscribe, Authentication, ReplicationUser]) ->
{Version, Transport, IsWs} =
case Proto of
mqtt -> {4, gen_tcp, false};
mqtts -> {4, ssl, false};
mqtt5 -> {5, gen_tcp, false};
mqtt5s -> {5, ssl, false};
ws -> {4, gen_tcp, true};
wss -> {4, ssl, true};
ws5 -> {5, gen_tcp, true};
wss5 -> {5, ssl, true}
end,
State = #state{version = Version,
id = p1_rand:uniform(65535),
codec = mqtt_codec:new(4096),
subscriptions = Subscribe,
authentication = Authentication,
usr = jid:tolower(ReplicationUser),
publish = Publish},
case Authentication of
#{certfile := Cert} when Transport == ssl ->
Sock = ssl:connect(Host, Port, [binary, {active, true}, {certfile, Cert}]),
if IsWs ->
connect_ws(Host, Port, Path, Sock, State, ssl, none);
true -> connect(Sock, State, ssl, none)
end;
#{username := User, password := Pass} ->
Sock = Transport:connect(Host, Port, [binary, {active, true}]),
if IsWs ->
connect_ws(Host, Port, Path, Sock, State, Transport, {User, Pass});
true -> connect(Sock, State, Transport, {User, Pass})
end;
_ ->
{stop, {error, <<"Certificate can be only used for encrypted connections">> }}
end.
handle_call(stop, _From, State) ->
{stop, normal, ok, State};
handle_call(Request, From, State) ->
?WARNING_MSG("Unexpected call from ~p: ~p", [From, Request]),
{noreply, State}.
handle_cast(Msg, State) ->
?WARNING_MSG("Unexpected cast: ~p", [Msg]),
{noreply, State}.
-spec handle_info(term(), state()) ->
{noreply, state()} | {noreply, state(), timeout()} | {stop, term(), state()}.
handle_info({Tag, TCPSock, TCPData},
#state{ws_codec = {init, Hash, Auth, Last}} = State)
when (Tag == tcp orelse Tag == ssl) ->
Data = <<Last/binary, TCPData/binary>>,
case erlang:decode_packet(http_bin, Data, []) of
{ok, {http_response, _, 101, _}, Rest} ->
handle_info({tcp, TCPSock, Rest}, State#state{ws_codec = {inith, Hash, none, Auth, <<>>}});
{ok, {http_response, _, _, _}, _Rest} ->
stop(State, {socket, closed});
{ok, {http_error, _}, _} ->
stop(State, {socket, closed});
{error, _} ->
stop(State, {socket, closed});
{more, _} ->
{noreply, State#state{ws_codec = {init, Hash, Auth, Data}}}
end;
handle_info({Tag, TCPSock, TCPData},
#state{ws_codec = {inith, Hash, Upgrade, Auth, Last},
socket = {Transport, _}} = State)
when (Tag == tcp orelse Tag == ssl) ->
Data = <<Last/binary, TCPData/binary>>,
case erlang:decode_packet(httph_bin, Data, []) of
{ok, {http_header, _, <<"Sec-Websocket-Accept">>, _, Val}, Rest} ->
case str:to_lower(Val) of
Hash ->
handle_info({tcp, TCPSock, Rest},
State#state{ws_codec = {inith, ok, Upgrade, Auth, <<>>}});
_ ->
stop(State, {socket, closed})
end;
{ok, {http_header, _, 'Connection', _, Val}, Rest} ->
case str:to_lower(Val) of
<<"upgrade">> ->
handle_info({tcp, TCPSock, Rest},
State#state{ws_codec = {inith, Hash, ok, Auth, <<>>}});
_ ->
stop(State, {socket, closed})
end;
{ok, {http_header, _, _, _, _}, Rest} ->
handle_info({tcp, TCPSock, Rest}, State);
{ok, {http_error, _}, _} ->
stop(State, {socket, closed});
{ok, http_eoh, Rest} ->
case {Hash, Upgrade} of
{ok, ok} ->
{ok, State2} = connect({ok, TCPSock},
State#state{ws_codec = ejabberd_websocket_codec:new_client()},
Transport, Auth),
handle_info({tcp, TCPSock, Rest}, State2);
_ ->
stop(State, {socket, closed})
end;
{error, _} ->
stop(State, {socket, closed});
{more, _} ->
{noreply, State#state{ws_codec = {inith, Hash, Upgrade, Data}}}
end;
handle_info({Tag, TCPSock, TCPData},
#state{ws_codec = WSCodec} = State)
when (Tag == tcp orelse Tag == ssl) andalso WSCodec /= none ->
{Packets, Acc0} =
case ejabberd_websocket_codec:decode(WSCodec, TCPData) of
{ok, NewWSCodec, Packets0} ->
{Packets0, {noreply, ok, State#state{ws_codec = NewWSCodec}}};
{error, _Error, Packets0} ->
{Packets0, {stop_after, {socket, closed}, State}}
end,
Res2 =
lists:foldl(
fun(_, {stop, _, _} = Res) -> Res;
({_Op, Data}, {Tag2, Res, S}) ->
case handle_info({tcp_decoded, TCPSock, Data}, S) of
{stop, _, _} = Stop ->
Stop;
{_, NewState} ->
{Tag2, Res, NewState}
end
end, Acc0, Packets),
case Res2 of
{noreply, _, State2} ->
{noreply, State2};
{Tag3, Res3, State2} when Tag3 == stop; Tag3 == stop_after ->
{stop, Res3, State2}
end;
handle_info({Tag, TCPSock, TCPData},
#state{codec = Codec} = State)
when Tag == tcp; Tag == ssl; Tag == tcp_decoded ->
case mqtt_codec:decode(Codec, TCPData) of
{ok, Pkt, Codec1} ->
?DEBUG("Got MQTT packet:~n~ts", [pp(Pkt)]),
State1 = State#state{codec = Codec1},
case handle_packet(Pkt, State1) of
{ok, State2} ->
handle_info({tcp_decoded, TCPSock, <<>>}, State2);
{error, State2, Reason} ->
stop(State2, Reason)
end;
{more, Codec1} ->
State1 = State#state{codec = Codec1},
{noreply, State1};
{error, Why} ->
stop(State, {codec, Why})
end;
handle_info({tcp_closed, _Sock}, State) ->
?DEBUG("MQTT connection reset by peer", []),
stop(State, {socket, closed});
handle_info({ssl_closed, _Sock}, State) ->
?DEBUG("MQTT connection reset by peer", []),
stop(State, {socket, closed});
handle_info({tcp_error, _Sock, Reason}, State) ->
?DEBUG("MQTT connection error: ~ts", [format_inet_error(Reason)]),
stop(State, {socket, Reason});
handle_info({ssl_error, _Sock, Reason}, State) ->
?DEBUG("MQTT connection error: ~ts", [format_inet_error(Reason)]),
stop(State, {socket, Reason});
handle_info({publish, #publish{topic = Topic} = Pkt}, #state{publish = Publish} = State) ->
case maps:find(Topic, Publish) of
{ok, RemoteTopic} ->
case send(State, Pkt#publish{qos = 0, topic = RemoteTopic}) of
{ok, State2} ->
{noreply, State2}
end;
_ ->
{noreply, State}
end;
handle_info({timeout, _TRef, ping_timeout}, State) ->
case send(State, #pingreq{}) of
{ok, State2} ->
{noreply, State2}
end;
handle_info(Info, State) ->
?WARNING_MSG("Unexpected info: ~p", [Info]),
{noreply, State}.
-spec handle_packet(mqtt_packet(), state()) ->
{ok, state()} |
{error, state(), error_reason()}.
handle_packet(#connack{} = Pkt, State) ->
handle_connack(Pkt, State);
handle_packet(#suback{}, State) ->
{ok, State};
handle_packet(#publish{} = Pkt, State) ->
handle_publish(Pkt, State);
handle_packet(#pingresp{}, State) ->
{ok, State};
handle_packet(#disconnect{properties = #{session_expiry_interval := SE}},
State) when SE > 0 ->
%% Protocol violation
{error, State, session_expiry_non_zero};
handle_packet(#disconnect{code = Code, properties = Props},
State) ->
Reason = maps:get(reason_string, Props, <<>>),
{error, State, {peer_disconnected, Code, Reason}};
handle_packet(Pkt, State) ->
?WARNING_MSG("Unexpected packet:~n~ts~n** when state:~n~ts",
[pp(Pkt), pp(State)]),
{error, State, {unexpected_packet, element(1, Pkt)}}.
terminate(Reason, State) ->
Reason1 = case Reason of
shutdown -> shutdown;
{shutdown, _} -> shutdown;
normal -> State#state.stop_reason;
{process_limit, _} -> queue_full;
_ -> internal_server_error
end,
disconnect(State, Reason1).
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%%===================================================================
%%% State transitions
%%%===================================================================
connect({error, Reason}, _State, _Transport, _Auth) ->
{stop, {error, Reason}};
connect({ok, Sock}, State0, Transport, Auth) ->
State = State0#state{socket = {Transport, Sock}},
Connect = case Auth of
{User, Pass} ->
#connect{client_id = integer_to_binary(State#state.id),
clean_start = true,
username = User,
password = Pass,
keep_alive = 60,
proto_level = State#state.version};
_ ->
#connect{client_id = integer_to_binary(State#state.id),
clean_start = true,
keep_alive = 60,
proto_level = State#state.version}
end,
Pkt = mqtt_codec:encode(State#state.version, Connect),
send(State, Connect),
{ok, _, Codec2} = mqtt_codec:decode(State#state.codec, Pkt),
{ok, State#state{codec = Codec2}}.
connect_ws(_Host, _Port, _Path, {error, Reason}, _State, _Transport, _Auth) ->
{stop, {error, Reason}};
connect_ws(Host, Port, Path, {ok, Sock}, State0, Transport, Auth) ->
Key = base64:encode(p1_rand:get_string()),
Hash = str:to_lower(base64:encode(crypto:hash(sha, <<Key/binary, "258EAFA5-E914-47DA-95CA-C5AB0DC85B11">>))),
Data = <<"GET ", (list_to_binary(Path))/binary, " HTTP/1.1\r\n",
"Host: ", (list_to_binary(Host))/binary, ":", (integer_to_binary(Port))/binary,"\r\n",
"Upgrade: websocket\r\n",
"Connection: Upgrade\r\n",
"Sec-WebSocket-Protocol: mqtt\r\n",
"Sec-WebSocket-Key: ", Key/binary, "\r\n",
"Sec-WebSocket-Version: 13\r\n\r\n">>,
Res = Transport:send(Sock, Data),
check_sock_result({Transport, Sock}, Res),
{ok, State0#state{ws_codec = {init, Hash, Auth, <<>>}, socket = {Transport, Sock}}}.
-spec stop(state(), error_reason()) ->
{noreply, state(), infinity} |
{stop, normal, state()}.
stop(State, Reason) ->
{stop, normal, State#state{stop_reason = Reason}}.
%%%===================================================================
%%% CONNECT/PUBLISH/SUBSCRIBE/UNSUBSCRIBE handlers
%%%===================================================================
-spec handle_connack(connack(), state()) ->
{ok, state()} |
{error, state(), error_reason()}.
handle_connack(#connack{code = success}, #state{subscriptions = Subs} = State) ->
Filters = maps:fold(
fun(RemoteTopic, _LocalTopic, Acc) ->
[{RemoteTopic, #sub_opts{}} | Acc]
end, [], Subs),
Pkt = #subscribe{id = 1, filters = Filters},
send(State, Pkt);
handle_connack(#connack{}, State) ->
{error, State, {auth, 'not-authorized'}}.
-spec handle_publish(publish(), state()) ->
{ok, state()} |
{error, state(), error_reason()}.
handle_publish(#publish{topic = Topic, payload = Payload, properties = Props},
#state{usr = USR, subscriptions = Subs} = State) ->
case maps:get(Topic, Subs, none) of
none ->
{ok, State};
LocalTopic ->
MessageExpiry = maps:get(message_expiry_interval, Props, ?MAX_UINT32),
ExpiryTime = min(unix_time() + MessageExpiry, ?MAX_UINT32),
mod_mqtt:publish(USR, #publish{retain = true, topic = LocalTopic, payload = Payload, properties = Props},
ExpiryTime),
{ok, State}
end.
%%%===================================================================
%%% Socket management
%%%===================================================================
-spec send(state(), mqtt_packet()) ->
{ok, state()} |
{error, state(), error_reason()}.
send(State, #publish{} = Pkt) ->
case is_expired(Pkt) of
{false, Pkt1} ->
{ok, do_send(State, Pkt1)};
true ->
{ok, State}
end;
send(State, Pkt) ->
{ok, do_send(State, Pkt)}.
-spec do_send(state(), mqtt_packet()) -> state().
do_send(#state{ws_codec = WSCodec, socket = {SockMod, Sock} = Socket} = State, Pkt)
when WSCodec /= none ->
?DEBUG("Send MQTT packet:~n~ts", [pp(Pkt)]),
Data = mqtt_codec:encode(State#state.version, Pkt),
WSData = ejabberd_websocket_codec:encode(WSCodec, 2, Data),
Res = SockMod:send(Sock, WSData),
check_sock_result(Socket, Res),
reset_ping_timer(State);
do_send(#state{socket = {SockMod, Sock} = Socket} = State, Pkt) ->
?DEBUG("Send MQTT packet:~n~ts", [pp(Pkt)]),
Data = mqtt_codec:encode(State#state.version, Pkt),
Res = SockMod:send(Sock, Data),
check_sock_result(Socket, Res),
reset_ping_timer(State);
do_send(State, _Pkt) ->
State.
-spec disconnect(state(), error_reason()) -> state().
disconnect(#state{socket = {SockMod, Sock}} = State, Err) ->
State1 = case Err of
{auth, Code} ->
do_send(State, #connack{code = Code});
{codec, {Tag, _, _} = CErr} when Tag == unsupported_protocol_version;
Tag == unsupported_protocol_name ->
do_send(State#state{version = ?MQTT_VERSION_4},
#connack{code = mqtt_codec:error_reason_code(CErr)});
_ when State#state.version == undefined ->
State;
{Tag, _} when Tag == socket; Tag == tls ->
State;
{peer_disconnected, _, _} ->
State;
_ ->
case State of
_ when State#state.version == ?MQTT_VERSION_5 ->
Code = disconnect_reason_code(Err),
Pkt = #disconnect{code = Code},
do_send(State, Pkt);
_ ->
State
end
end,
SockMod:close(Sock),
State1#state{socket = undefined,
version = undefined,
codec = mqtt_codec:renew(State#state.codec)};
disconnect(State, _) ->
State.
-spec reset_ping_timer(state()) -> state().
reset_ping_timer(State) ->
misc:cancel_timer(State#state.ping_timer),
State#state{ping_timer = erlang:start_timer(?PING_TIMEOUT, self(), ping_timeout)}.
-spec check_sock_result(socket(), ok | {error, inet:posix()}) -> ok.
check_sock_result(_, ok) ->
ok;
check_sock_result({_, Sock}, {error, Why}) ->
self() ! {tcp_closed, Sock},
?DEBUG("MQTT socket error: ~p", [format_inet_error(Why)]).
%%%===================================================================
%%% Formatters
%%%===================================================================
-spec pp(any()) -> iolist().
pp(Term) ->
io_lib_pretty:print(Term, fun pp/2).
-spec format_inet_error(socket_error_reason()) -> string().
format_inet_error(closed) ->
"connection closed";
format_inet_error(timeout) ->
format_inet_error(etimedout);
format_inet_error(Reason) ->
case inet:format_error(Reason) of
"unknown POSIX error" -> atom_to_list(Reason);
Txt -> Txt
end.
-spec pp(atom(), non_neg_integer()) -> [atom()] | no.
pp(state, 17) -> record_info(fields, state);
pp(Rec, Size) -> mqtt_codec:pp(Rec, Size).
-spec disconnect_reason_code(error_reason()) -> reason_code().
disconnect_reason_code({code, Code}) -> Code;
disconnect_reason_code({codec, Err}) -> mqtt_codec:error_reason_code(Err);
disconnect_reason_code({unexpected_packet, _}) -> 'protocol-error';
disconnect_reason_code({replaced, _}) -> 'session-taken-over';
disconnect_reason_code({resumed, _}) -> 'session-taken-over';
disconnect_reason_code(internal_server_error) -> 'implementation-specific-error';
disconnect_reason_code(db_failure) -> 'implementation-specific-error';
disconnect_reason_code(idle_connection) -> 'keep-alive-timeout';
disconnect_reason_code(queue_full) -> 'quota-exceeded';
disconnect_reason_code(shutdown) -> 'server-shutting-down';
disconnect_reason_code(subscribe_forbidden) -> 'topic-filter-invalid';
disconnect_reason_code(publish_forbidden) -> 'topic-name-invalid';
disconnect_reason_code(will_topic_forbidden) -> 'topic-name-invalid';
disconnect_reason_code({payload_format_invalid, _}) -> 'payload-format-invalid';
disconnect_reason_code(session_expiry_non_zero) -> 'protocol-error';
disconnect_reason_code(unknown_topic_alias) -> 'protocol-error';
disconnect_reason_code(_) -> 'unspecified-error'.
%%%===================================================================
%%% Timings
%%%===================================================================
-spec unix_time() -> seconds().
unix_time() ->
erlang:system_time(second).
-spec is_expired(publish()) -> true | {false, publish()}.
is_expired(#publish{meta = Meta, properties = Props} = Pkt) ->
case maps:get(expiry_time, Meta, ?MAX_UINT32) of
?MAX_UINT32 ->
{false, Pkt};
ExpiryTime ->
Left = ExpiryTime - unix_time(),
if Left > 0 ->
Props1 = Props#{message_expiry_interval => Left},
{false, Pkt#publish{properties = Props1}};
true ->
?DEBUG("Dropping expired packet:~n~ts", [pp(Pkt)]),
true
end
end.