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xmpp.chapril.org-ejabberd/src/ejabberd_s2s_out.erl

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%%%----------------------------------------------------------------------
%%% File : ejabberd_s2s_out.erl
%%% Author : Alexey Shchepin <alexey@process-one.net>
%%% Purpose : Manage outgoing server-to-server connections
%%% Created : 6 Dec 2002 by Alexey Shchepin <alexey@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2009 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., 59 Temple Place, Suite 330, Boston, MA
%%% 02111-1307 USA
%%%
%%%----------------------------------------------------------------------
-module(ejabberd_s2s_out).
-author('alexey@process-one.net').
-behaviour(p1_fsm).
%% External exports
-export([start/3,
start_link/3,
start_connection/1,
terminate_if_waiting_delay/2,
stop_connection/1]).
%% p1_fsm callbacks (same as gen_fsm)
-export([init/1,
open_socket/2,
wait_for_stream/2,
wait_for_validation/2,
wait_for_features/2,
wait_for_auth_result/2,
wait_for_starttls_proceed/2,
reopen_socket/2,
wait_before_retry/2,
stream_established/2,
handle_event/3,
handle_sync_event/4,
handle_info/3,
terminate/3,
code_change/4,
test_get_addr_port/1,
get_addr_port/1]).
-include_lib("exmpp/include/exmpp.hrl").
-include("ejabberd.hrl").
-record(state, {socket,
streamid,
use_v10,
tls = false,
tls_required = false,
tls_enabled = false,
tls_options = [],
authenticated = false,
db_enabled = true,
try_auth = true,
myname, server, queue,
delay_to_retry = undefined_delay,
new = false, verify = false,
timer}).
%-define(DBGFSM, true).
-ifdef(DBGFSM).
-define(FSMOPTS, [{debug, [trace]}]).
-else.
-define(FSMOPTS, []).
-endif.
%% Module start with or without supervisor:
-ifdef(NO_TRANSIENT_SUPERVISORS).
-define(SUPERVISOR_START, p1_fsm:start(ejabberd_s2s_out, [From, Host, Type],
fsm_limit_opts() ++ ?FSMOPTS)).
-else.
-define(SUPERVISOR_START, supervisor:start_child(ejabberd_s2s_out_sup,
[From, Host, Type])).
-endif.
-define(FSMTIMEOUT, 30000).
%% We do not block on send anymore.
-define(TCP_SEND_TIMEOUT, 15000).
%% Maximum delay to wait before retrying to connect after a failed attempt.
%% Specified in miliseconds. Default value is 5 minutes.
-define(MAX_RETRY_DELAY, 300000).
% These are the namespace already declared by the stream opening. This is
% used at serialization time.
-define(DEFAULT_NS, ?NS_JABBER_SERVER).
-define(PREFIXED_NS, [
{?NS_XMPP, ?NS_XMPP_pfx}, {?NS_DIALBACK, ?NS_DIALBACK_pfx}
]).
-define(SOCKET_DEFAULT_RESULT, {error, badarg}).
%%%----------------------------------------------------------------------
%%% API
%%%----------------------------------------------------------------------
start(From, Host, Type) ->
?SUPERVISOR_START.
start_link(From, Host, Type) ->
p1_fsm:start_link(ejabberd_s2s_out, [From, Host, Type],
fsm_limit_opts() ++ ?FSMOPTS).
start_connection(Pid) ->
p1_fsm:send_event(Pid, init).
stop_connection(Pid) ->
p1_fsm:send_event(Pid, stop).
%%%----------------------------------------------------------------------
%%% Callback functions from p1_fsm
%%%----------------------------------------------------------------------
%%----------------------------------------------------------------------
%% Func: init/1
%% Returns: {ok, StateName, StateData} |
%% {ok, StateName, StateData, Timeout} |
%% ignore |
%% {stop, StopReason}
%%----------------------------------------------------------------------
init([From, Server, Type]) ->
process_flag(trap_exit, true),
?DEBUG("started: ~p", [{From, Server, Type}]),
TLS = case ejabberd_config:get_local_option(s2s_use_starttls) of
undefined ->
false;
UseStartTLS ->
UseStartTLS
end,
UseV10 = TLS,
TLSOpts = case ejabberd_config:get_local_option(s2s_certfile) of
undefined ->
[];
CertFile ->
[{certfile, CertFile}, connect]
end,
{New, Verify} = case Type of
{new, Key} ->
{Key, false};
{verify, Pid, Key, SID} ->
start_connection(self()),
{false, {Pid, Key, SID}}
end,
Timer = erlang:start_timer(?S2STIMEOUT, self(), []),
{ok, open_socket, #state{use_v10 = UseV10,
tls = TLS,
tls_options = TLSOpts,
queue = queue:new(),
myname = From,
server = Server,
new = New,
verify = Verify,
timer = Timer}}.
%%----------------------------------------------------------------------
%% Func: StateName/2
%% Returns: {next_state, NextStateName, NextStateData} |
%% {next_state, NextStateName, NextStateData, Timeout} |
%% {stop, Reason, NewStateData}
%%----------------------------------------------------------------------
open_socket(init, StateData) ->
log_s2s_out(StateData#state.new,
StateData#state.myname,
StateData#state.server),
?DEBUG("open_socket: ~p", [{StateData#state.myname,
StateData#state.server,
StateData#state.new,
StateData#state.verify}]),
AddrList = case idna:domain_utf8_to_ascii(StateData#state.server) of
false -> [];
ASCIIAddr ->
get_addr_port(ASCIIAddr)
end,
case lists:foldl(fun({Addr, Port}, Acc) ->
case Acc of
{ok, Socket} ->
{ok, Socket};
_ ->
open_socket1(Addr, Port)
end
end, ?SOCKET_DEFAULT_RESULT, AddrList) of
{ok, Socket} ->
Version = if
StateData#state.use_v10 ->
"1.0";
true ->
""
end,
NewStateData = StateData#state{socket = Socket,
tls_enabled = false,
streamid = new_id()},
Opening = exmpp_stream:opening(
StateData#state.server,
?NS_JABBER_SERVER,
Version),
send_element(NewStateData,
exmpp_stream:set_dialback_support(Opening)),
{next_state, wait_for_stream, NewStateData, ?FSMTIMEOUT};
{error, _Reason} ->
?INFO_MSG("s2s connection: ~s -> ~s (remote server not found)",
[StateData#state.myname, StateData#state.server]),
wait_before_reconnect(StateData)
%%{stop, normal, StateData}
end;
open_socket(stop, StateData) ->
?INFO_MSG("s2s connection: ~s -> ~s (stopped in open socket)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
open_socket(timeout, StateData) ->
?INFO_MSG("s2s connection: ~s -> ~s (timeout in open socket)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
open_socket(_, StateData) ->
{next_state, open_socket, StateData}.
%%----------------------------------------------------------------------
%% IPv4
open_socket1({_,_,_,_} = Addr, Port) ->
open_socket2(inet, Addr, Port);
%% IPv6
open_socket1({_,_,_,_,_,_,_,_} = Addr, Port) ->
open_socket2(inet6, Addr, Port);
%% Hostname
open_socket1(Host, Port) ->
lists:foldl(fun(_Family, {ok, _Socket} = R) ->
R;
(Family, _) ->
Addrs = get_addrs(Host, Family),
lists:foldl(fun(_Addr, {ok, _Socket} = R) ->
R;
(Addr, _) ->
open_socket1(Addr, Port)
end, ?SOCKET_DEFAULT_RESULT, Addrs)
end, ?SOCKET_DEFAULT_RESULT, outgoing_s2s_families()).
open_socket2(Type, Addr, Port) ->
?DEBUG("s2s_out: connecting to ~p:~p~n", [Addr, Port]),
Timeout = outgoing_s2s_timeout(),
SockOpts = case erlang:system_info(otp_release) >= "R13B" of
true -> [{send_timeout_close, true}];
false -> []
end,
case (catch ejabberd_socket:connect(Addr, Port,
[binary, {packet, 0},
{send_timeout, ?TCP_SEND_TIMEOUT},
{active, false}, Type | SockOpts],
Timeout)) of
{ok, _Socket} = R -> R;
{error, Reason} = R ->
?DEBUG("s2s_out: connect return ~p~n", [Reason]),
R;
{'EXIT', Reason} ->
?DEBUG("s2s_out: connect crashed ~p~n", [Reason]),
{error, Reason}
end.
%%----------------------------------------------------------------------
wait_for_stream({xmlstreamstart, Opening}, StateData) ->
case {exmpp_stream:get_default_ns(Opening),
exmpp_xml:is_ns_declared_here(Opening, ?NS_DIALBACK),
exmpp_stream:get_version(Opening) == {1, 0}} of
{?NS_JABBER_SERVER, true, false} ->
send_db_request(StateData);
{?NS_JABBER_SERVER, true, true} when
StateData#state.use_v10 ->
{next_state, wait_for_features, StateData, ?FSMTIMEOUT};
{?NS_JABBER_SERVER, false, true} when StateData#state.use_v10 ->
{next_state, wait_for_features, StateData#state{db_enabled = false}, ?FSMTIMEOUT};
{NSProvided, _, _} ->
send_element(StateData, exmpp_stream:error('invalid-namespace')),
?INFO_MSG("Closing s2s connection: ~s -> ~s (invalid namespace)~n"
"Namespace provided: ~p~nNamespace expected: ~p",
[StateData#state.myname, StateData#state.server,
NSProvided, ?NS_JABBER_SERVER]),
{stop, normal, StateData}
end;
wait_for_stream({xmlstreamerror, _}, StateData) ->
send_element(StateData, exmpp_stream:error('xml-not-well-formed')),
send_element(StateData, exmpp_stream:closing()),
?INFO_MSG("Closing s2s connection: ~s -> ~s (invalid xml)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
wait_for_stream({xmlstreamend,_Name}, StateData) ->
?INFO_MSG("Closing s2s connection: ~s -> ~s (xmlstreamend)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
wait_for_stream(timeout, StateData) ->
?INFO_MSG("Closing s2s connection: ~s -> ~s (timeout in wait_for_stream)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
wait_for_stream(closed, StateData) ->
?INFO_MSG("Closing s2s connection: ~s -> ~s (close in wait_for_stream)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData}.
wait_for_validation({xmlstreamelement, El}, StateData) ->
case is_verify_res(El) of
{result, To, From, Id, Type} ->
?DEBUG("recv result: ~p", [{From, To, Id, Type}]),
case Type of
"valid" ->
send_queue(StateData, StateData#state.queue),
?INFO_MSG("Connection established: ~s -> ~s",
[StateData#state.myname, StateData#state.server]),
ejabberd_hooks:run(s2s_connect_hook,
[StateData#state.myname,
StateData#state.server]),
{next_state, stream_established,
StateData#state{queue = queue:new()}};
_ ->
%% TODO: bounce packets
?INFO_MSG("Closing s2s connection: ~s -> ~s (invalid dialback key)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData}
end;
{verify, To, From, Id, Type} ->
?DEBUG("recv verify: ~p", [{From, To, Id, Type}]),
case StateData#state.verify of
false ->
NextState = wait_for_validation,
%% TODO: Should'nt we close the connection here ?
{next_state, NextState, StateData,
get_timeout_interval(NextState)};
{Pid, _Key, _SID} ->
case Type of
"valid" ->
p1_fsm:send_event(
Pid, {valid,
StateData#state.server,
StateData#state.myname});
_ ->
p1_fsm:send_event(
Pid, {invalid,
StateData#state.server,
StateData#state.myname})
end,
if
StateData#state.verify == false ->
{stop, normal, StateData};
true ->
NextState = wait_for_validation,
{next_state, NextState, StateData,
get_timeout_interval(NextState)}
end
end;
_ ->
{next_state, wait_for_validation, StateData, ?FSMTIMEOUT*3}
end;
wait_for_validation({xmlstreamend, _Name}, StateData) ->
?INFO_MSG("wait for validation: ~s -> ~s (xmlstreamend)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
wait_for_validation({xmlstreamerror, _}, StateData) ->
?INFO_MSG("wait for validation: ~s -> ~s (xmlstreamerror)",
[StateData#state.myname, StateData#state.server]),
send_element(StateData, exmpp_stream:error('xml-not-well-formed')),
send_element(StateData, exmpp_stream:closing()),
{stop, normal, StateData};
wait_for_validation(timeout, #state{verify = {VPid, VKey, SID}} = StateData)
when is_pid(VPid) and is_list(VKey) and is_list(SID) ->
%% This is an auxiliary s2s connection for dialback.
%% This timeout is normal and doesn't represent a problem.
?DEBUG("wait_for_validation: ~s -> ~s (timeout in verify connection)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
wait_for_validation(timeout, StateData) ->
?INFO_MSG("wait_for_validation: ~s -> ~s (connect timeout)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
wait_for_validation(closed, StateData) ->
?INFO_MSG("wait for validation: ~s -> ~s (closed)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData}.
wait_for_features({xmlstreamelement, El}, StateData) ->
case El of
#xmlel{ns = ?NS_XMPP, name = 'features'} = Features ->
{SASLEXT, StartTLS, StartTLSRequired} =
lists:foldl(
fun(#xmlel{ns = ?NS_SASL, name = 'mechanisms'},
{_SEXT, STLS, STLSReq} = Acc) ->
try
Mechs = exmpp_client_sasl:announced_mechanisms(
El),
NewSEXT = lists:member("EXTERNAL", Mechs),
{NewSEXT, STLS, STLSReq}
catch
_Exception ->
Acc
end;
(#xmlel{ns = ?NS_TLS, name ='starttls'},
{SEXT, _STLS, _STLSReq} = Acc) ->
try
Support = exmpp_client_tls:announced_support(
El),
case Support of
none -> Acc;
optional -> {SEXT, true, false};
required -> {SEXT, true, true}
end
catch
_Exception ->
Acc
end;
(_, Acc) ->
Acc
end, {false, false, false}, Features#xmlel.children),
if
(not SASLEXT) and (not StartTLS) and
StateData#state.authenticated ->
send_queue(StateData, StateData#state.queue),
?INFO_MSG("Connection established: ~s -> ~s",
[StateData#state.myname, StateData#state.server]),
ejabberd_hooks:run(s2s_connect_hook,
[StateData#state.myname,
StateData#state.server]),
{next_state, stream_established,
StateData#state{queue = queue:new()}};
SASLEXT and StateData#state.try_auth and
(StateData#state.new /= false) ->
send_element(StateData,
exmpp_client_sasl:selected_mechanism("EXTERNAL",
StateData#state.myname)),
{next_state, wait_for_auth_result,
StateData#state{try_auth = false}, ?FSMTIMEOUT};
StartTLS and StateData#state.tls and
(not StateData#state.tls_enabled) ->
send_element(StateData,
exmpp_client_tls:starttls()),
{next_state, wait_for_starttls_proceed, StateData,
?FSMTIMEOUT};
StartTLSRequired and (not StateData#state.tls) ->
?DEBUG("restarted: ~p", [{StateData#state.myname,
StateData#state.server}]),
ejabberd_socket:close(StateData#state.socket),
{next_state, reopen_socket,
StateData#state{socket = undefined,
use_v10 = false}, ?FSMTIMEOUT};
StateData#state.db_enabled ->
send_db_request(StateData);
true ->
?DEBUG("restarted: ~p", [{StateData#state.myname,
StateData#state.server}]),
% TODO: clear message queue
ejabberd_socket:close(StateData#state.socket),
{next_state, reopen_socket, StateData#state{socket = undefined,
use_v10 = false}, ?FSMTIMEOUT}
end;
_ ->
send_element(StateData, exmpp_stream:error('bad-format')),
send_element(StateData, exmpp_stream:closing()),
?INFO_MSG("Closing s2s connection: ~s -> ~s (bad format)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData}
end;
wait_for_features({xmlstreamend, _Name}, StateData) ->
?INFO_MSG("wait_for_features: xmlstreamend", []),
{stop, normal, StateData};
wait_for_features({xmlstreamerror, _}, StateData) ->
send_element(StateData, exmpp_stream:error('xml-not-well-formed')),
send_element(StateData, exmpp_stream:closing()),
?INFO_MSG("wait for features: xmlstreamerror", []),
{stop, normal, StateData};
wait_for_features(timeout, StateData) ->
?INFO_MSG("wait for features: timeout", []),
{stop, normal, StateData};
wait_for_features(closed, StateData) ->
?INFO_MSG("wait for features: closed", []),
{stop, normal, StateData}.
wait_for_auth_result({xmlstreamelement, El}, StateData) ->
case El of
#xmlel{ns = ?NS_SASL, name = 'success'} ->
?DEBUG("auth: ~p", [{StateData#state.myname,
StateData#state.server}]),
ejabberd_socket:reset_stream(StateData#state.socket),
Opening = exmpp_stream:opening(
StateData#state.server,
?NS_JABBER_SERVER,
"1.0"),
send_element(StateData,
exmpp_stream:set_dialback_support(Opening)),
{next_state, wait_for_stream,
StateData#state{streamid = new_id(),
authenticated = true
}, ?FSMTIMEOUT};
#xmlel{ns = ?NS_SASL, name = 'failure'} ->
?DEBUG("restarted: ~p", [{StateData#state.myname,
StateData#state.server}]),
ejabberd_socket:close(StateData#state.socket),
{next_state, reopen_socket,
StateData#state{socket = undefined}, ?FSMTIMEOUT};
_ ->
send_element(StateData, exmpp_stream:error('bad-format')),
send_element(StateData, exmpp_stream:closing()),
?INFO_MSG("Closing s2s connection: ~s -> ~s (bad format)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData}
end;
wait_for_auth_result({xmlstreamend, _Name}, StateData) ->
?INFO_MSG("wait for auth result: xmlstreamend", []),
{stop, normal, StateData};
wait_for_auth_result({xmlstreamerror, _}, StateData) ->
send_element(StateData, exmpp_stream:error('xml-not-well-formed')),
send_element(StateData, exmpp_stream:closing()),
?INFO_MSG("wait for auth result: xmlstreamerror", []),
{stop, normal, StateData};
wait_for_auth_result(timeout, StateData) ->
?INFO_MSG("wait for auth result: timeout", []),
{stop, normal, StateData};
wait_for_auth_result(closed, StateData) ->
?INFO_MSG("wait for auth result: closed", []),
{stop, normal, StateData}.
wait_for_starttls_proceed({xmlstreamelement, El}, StateData) ->
case El of
#xmlel{ns = ?NS_TLS, name = 'proceed'} ->
?DEBUG("starttls: ~p", [{StateData#state.myname,
StateData#state.server}]),
Socket = StateData#state.socket,
TLSOpts = case ejabberd_config:get_local_option(
{domain_certfile,
StateData#state.server}) of
undefined ->
StateData#state.tls_options;
CertFile ->
[{certfile, CertFile} |
lists:keydelete(
certfile, 1,
StateData#state.tls_options)]
end,
TLSSocket = ejabberd_socket:starttls(Socket, TLSOpts),
NewStateData = StateData#state{socket = TLSSocket,
streamid = new_id(),
tls_enabled = true
},
Opening = exmpp_stream:opening(
StateData#state.server,
?NS_JABBER_SERVER,
"1.0"),
send_element(NewStateData,
exmpp_stream:set_dialback_support(Opening)),
{next_state, wait_for_stream, NewStateData, ?FSMTIMEOUT};
_ ->
send_element(StateData, exmpp_stream:error('bad-format')),
send_element(StateData, exmpp_stream:closing()),
?INFO_MSG("Closing s2s connection: ~s -> ~s (bad format)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData}
end;
wait_for_starttls_proceed({xmlstreamend, _Name}, StateData) ->
?INFO_MSG("wait for starttls proceed: xmlstreamend", []),
{stop, normal, StateData};
wait_for_starttls_proceed({xmlstreamerror, _}, StateData) ->
send_element(StateData, exmpp_stream:error('xml-not-well-formed')),
send_element(StateData, exmpp_stream:closing()),
?INFO_MSG("wait for starttls proceed: xmlstreamerror", []),
{stop, normal, StateData};
wait_for_starttls_proceed(timeout, StateData) ->
?INFO_MSG("wait for starttls proceed: timeout", []),
{stop, normal, StateData};
wait_for_starttls_proceed(closed, StateData) ->
?INFO_MSG("wait for starttls proceed: closed", []),
{stop, normal, StateData}.
reopen_socket({xmlstreamelement, _El}, StateData) ->
{next_state, reopen_socket, StateData, ?FSMTIMEOUT};
reopen_socket({xmlstreamend, _Name}, StateData) ->
{next_state, reopen_socket, StateData, ?FSMTIMEOUT};
reopen_socket({xmlstreamerror, _}, StateData) ->
{next_state, reopen_socket, StateData, ?FSMTIMEOUT};
reopen_socket(timeout, StateData) ->
?INFO_MSG("reopen socket: timeout", []),
{stop, normal, StateData};
reopen_socket(closed, StateData) ->
p1_fsm:send_event(self(), init),
{next_state, open_socket, StateData, ?FSMTIMEOUT}.
%% This state is use to avoid reconnecting to often to bad sockets
wait_before_retry(_Event, StateData) ->
{next_state, wait_before_retry, StateData, ?FSMTIMEOUT}.
stream_established({xmlstreamelement, El}, StateData) ->
?DEBUG("s2S stream established", []),
case is_verify_res(El) of
{verify, VTo, VFrom, VId, VType} ->
?DEBUG("recv verify: ~p", [{VFrom, VTo, VId, VType}]),
case StateData#state.verify of
{VPid, _VKey, _SID} ->
case VType of
"valid" ->
p1_fsm:send_event(
VPid, {valid,
StateData#state.server,
StateData#state.myname});
_ ->
p1_fsm:send_event(
VPid, {invalid,
StateData#state.server,
StateData#state.myname})
end;
_ ->
ok
end;
_ ->
ok
end,
{next_state, stream_established, StateData};
stream_established({xmlstreamend, _Name}, StateData) ->
?INFO_MSG("Connection closed in stream established: ~s -> ~s (xmlstreamend)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
stream_established({xmlstreamerror, _}, StateData) ->
send_element(StateData, exmpp_stream:error('xml-not-well-formed')),
send_element(StateData, exmpp_stream:closing()),
?INFO_MSG("stream established: ~s -> ~s (xmlstreamerror)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
stream_established(timeout, StateData) ->
?INFO_MSG("stream established: ~s -> ~s (timeout)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData};
stream_established(closed, StateData) ->
?INFO_MSG("stream established: ~s -> ~s (closed)",
[StateData#state.myname, StateData#state.server]),
{stop, normal, StateData}.
%%----------------------------------------------------------------------
%% Func: StateName/3
%% Returns: {next_state, NextStateName, NextStateData} |
%% {next_state, NextStateName, NextStateData, Timeout} |
%% {reply, Reply, NextStateName, NextStateData} |
%% {reply, Reply, NextStateName, NextStateData, Timeout} |
%% {stop, Reason, NewStateData} |
%% {stop, Reason, Reply, NewStateData}
%%----------------------------------------------------------------------
%%state_name(Event, From, StateData) ->
%% Reply = ok,
%% {reply, Reply, state_name, StateData}.
%%----------------------------------------------------------------------
%% Func: handle_event/3
%% Returns: {next_state, NextStateName, NextStateData} |
%% {next_state, NextStateName, NextStateData, Timeout} |
%% {stop, Reason, NewStateData}
%%----------------------------------------------------------------------
handle_event(_Event, StateName, StateData) ->
{next_state, StateName, StateData, get_timeout_interval(StateName)}.
%%----------------------------------------------------------------------
%% Func: handle_sync_event/4
%% Returns: The associated StateData for this connection
%% {reply, Reply, NextStateName, NextStateData}
%% Reply = {state_infos, [{InfoName::atom(), InfoValue::any()]
%%----------------------------------------------------------------------
handle_sync_event(get_state_infos, _From, StateName, StateData) ->
{Addr,Port} = try ejabberd_socket:peername(StateData#state.socket) of
{ok, {A,P}} -> {A,P};
{error, _} -> {unknown,unknown}
catch
_:_ ->
{unknown,unknown}
end,
Infos = [
{direction, out},
{statename, StateName},
{addr, Addr},
{port, Port},
{streamid, StateData#state.streamid},
{use_v10, StateData#state.use_v10},
{tls, StateData#state.tls},
{tls_required, StateData#state.tls_required},
{tls_enabled, StateData#state.tls_enabled},
{tls_options, StateData#state.tls_options},
{authenticated, StateData#state.authenticated},
{db_enabled, StateData#state.db_enabled},
{try_auth, StateData#state.try_auth},
{myname, StateData#state.myname},
{server, StateData#state.server},
{delay_to_retry, StateData#state.delay_to_retry},
{verify, StateData#state.verify}
],
Reply = {state_infos, Infos},
{reply,Reply,StateName,StateData};
%%----------------------------------------------------------------------
%% Func: handle_sync_event/4
%% Returns: {next_state, NextStateName, NextStateData} |
%% {next_state, NextStateName, NextStateData, Timeout} |
%% {reply, Reply, NextStateName, NextStateData} |
%% {reply, Reply, NextStateName, NextStateData, Timeout} |
%% {stop, Reason, NewStateData} |
%% {stop, Reason, Reply, NewStateData}
%%----------------------------------------------------------------------
handle_sync_event(_Event, _From, StateName, StateData) ->
Reply = ok,
{reply, Reply, StateName, StateData, get_timeout_interval(StateName)}.
code_change(_OldVsn, StateName, StateData, _Extra) ->
{ok, StateName, StateData}.
%%----------------------------------------------------------------------
%% Func: handle_info/3
%% Returns: {next_state, NextStateName, NextStateData} |
%% {next_state, NextStateName, NextStateData, Timeout} |
%% {stop, Reason, NewStateData}
%%----------------------------------------------------------------------
handle_info({send_text, Text}, StateName, StateData) ->
send_text(StateData, Text),
cancel_timer(StateData#state.timer),
Timer = erlang:start_timer(?S2STIMEOUT, self(), []),
{next_state, StateName, StateData#state{timer = Timer},
get_timeout_interval(StateName)};
handle_info({send_element, El}, StateName, StateData) ->
case StateName of
stream_established ->
cancel_timer(StateData#state.timer),
Timer = erlang:start_timer(?S2STIMEOUT, self(), []),
send_element(StateData, El),
{next_state, StateName, StateData#state{timer = Timer}};
%% In this state we bounce all message: We are waiting before
%% trying to reconnect
wait_before_retry ->
bounce_element(El, 'remote-server-not-found'),
{next_state, StateName, StateData};
_ ->
Q = queue:in(El, StateData#state.queue),
{next_state, StateName, StateData#state{queue = Q},
get_timeout_interval(StateName)}
end;
handle_info({timeout, Timer, _}, wait_before_retry,
#state{timer = Timer} = StateData) ->
?INFO_MSG("Reconnect delay expired: Will now retry to connect to ~s when needed.", [StateData#state.server]),
{stop, normal, StateData};
handle_info({timeout, Timer, _}, _StateName,
#state{timer = Timer} = StateData) ->
?INFO_MSG("Closing connection with ~s: timeout", [StateData#state.server]),
{stop, normal, StateData};
handle_info(terminate_if_waiting_before_retry, wait_before_retry, StateData) ->
{stop, normal, StateData};
handle_info(terminate_if_waiting_before_retry, StateName, StateData) ->
{next_state, StateName, StateData, get_timeout_interval(StateName)};
handle_info(_, StateName, StateData) ->
{next_state, StateName, StateData, get_timeout_interval(StateName)}.
%%----------------------------------------------------------------------
%% Func: terminate/3
%% Purpose: Shutdown the fsm
%% Returns: any
%%----------------------------------------------------------------------
terminate(Reason, StateName, StateData) ->
?DEBUG("terminated: ~p", [{Reason, StateName}]),
case StateData#state.new of
false ->
ok;
Key ->
ejabberd_s2s:remove_connection(
{StateData#state.myname, StateData#state.server}, self(), Key)
end,
%% bounce queue manage by process and Erlang message queue
bounce_queue(StateData#state.queue, 'remote-server-not-found'),
bounce_messages('remote-server-not-found'),
case StateData#state.socket of
undefined ->
ok;
_Socket ->
ejabberd_socket:close(StateData#state.socket)
end,
ok.
%%%----------------------------------------------------------------------
%%% Internal functions
%%%----------------------------------------------------------------------
send_text(StateData, Text) ->
ejabberd_socket:send(StateData#state.socket, Text).
send_element(StateData, #xmlel{ns = ?NS_XMPP, name = 'stream'} = El) ->
send_text(StateData, exmpp_stream:to_iolist(El));
send_element(StateData, El) ->
send_text(StateData, exmpp_stanza:to_iolist(El)).
send_queue(StateData, Q) ->
case queue:out(Q) of
{{value, El}, Q1} ->
send_element(StateData, El),
send_queue(StateData, Q1);
{empty, _Q1} ->
ok
end.
%% Bounce a single message (xmlel)
bounce_element(El, Condition) ->
case exmpp_stanza:get_type(El) of
<<"error">> -> ok;
<<"result">> -> ok;
_ ->
Err = exmpp_stanza:reply_with_error(El, Condition),
From = exmpp_jid:parse(exmpp_stanza:get_sender(El)),
To = exmpp_jid:parse(exmpp_stanza:get_recipient(El)),
% No namespace conversion (:server <-> :client) is done.
% This is handled by C2S and S2S send_element functions.
ejabberd_router:route(To, From, Err)
end.
bounce_queue(Q, Condition) ->
case queue:out(Q) of
{{value, El}, Q1} ->
bounce_element(El, Condition),
bounce_queue(Q1, Condition);
{empty, _} ->
ok
end.
new_id() ->
randoms:get_string().
cancel_timer(Timer) ->
erlang:cancel_timer(Timer),
receive
{timeout, Timer, _} ->
ok
after 0 ->
ok
end.
bounce_messages(Condition) ->
receive
{send_element, El} ->
bounce_element(El, Condition),
bounce_messages(Condition)
after 0 ->
ok
end.
send_db_request(StateData) ->
Server = StateData#state.server,
New = case StateData#state.new of
false ->
case ejabberd_s2s:try_register(
{StateData#state.myname, Server}) of
{key, Key} ->
Key;
false ->
false
end;
Key ->
Key
end,
case New of
false ->
ok;
Key1 ->
send_element(StateData, exmpp_dialback:key(
StateData#state.myname, Server, Key1))
end,
case StateData#state.verify of
false ->
ok;
{_Pid, Key2, SID} ->
send_element(StateData, exmpp_dialback:verify_request(
StateData#state.myname, StateData#state.server, SID, Key2))
end,
{next_state, wait_for_validation, StateData#state{new = New}, ?FSMTIMEOUT*6}.
is_verify_res(#xmlel{ns = ?NS_DIALBACK, name = 'result',
attrs = Attrs}) ->
{result,
exmpp_stanza:get_recipient_from_attrs(Attrs),
exmpp_stanza:get_sender_from_attrs(Attrs),
exmpp_stanza:get_id_from_attrs(Attrs),
binary_to_list(exmpp_stanza:get_type_from_attrs(Attrs))};
is_verify_res(#xmlel{ns = ?NS_DIALBACK, name = 'verify',
attrs = Attrs}) ->
{verify,
exmpp_stanza:get_recipient_from_attrs(Attrs),
exmpp_stanza:get_sender_from_attrs(Attrs),
exmpp_stanza:get_id_from_attrs(Attrs),
binary_to_list(exmpp_stanza:get_type_from_attrs(Attrs))};
is_verify_res(_) ->
false.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% SRV support
-include_lib("kernel/include/inet.hrl").
get_addr_port(Server) ->
Res = srv_lookup(Server),
case Res of
{error, Reason} ->
?DEBUG("srv lookup of '~s' failed: ~p~n", [Server, Reason]),
[{Server, outgoing_s2s_port()}];
{ok, HEnt} ->
?DEBUG("srv lookup of '~s': ~p~n",
[Server, HEnt#hostent.h_addr_list]),
case HEnt#hostent.h_addr_list of
[] ->
[{Server, outgoing_s2s_port()}];
AddrList ->
%% Probabilities are not exactly proportional to weights
%% for simplicity (higher weigths are overvalued)
{A1, A2, A3} = now(),
random:seed(A1, A2, A3),
case (catch lists:map(
fun({Priority, Weight, Port, Host}) ->
N = case Weight of
0 -> 0;
_ -> (Weight + 1) * random:uniform()
end,
{Priority * 65536 - N, Host, Port}
end, AddrList)) of
{'EXIT', _Reason} ->
[{Server, outgoing_s2s_port()}];
SortedList ->
List = lists:map(
fun({_, Host, Port}) ->
{Host, Port}
end, lists:keysort(1, SortedList)),
?DEBUG("srv lookup of '~s': ~p~n", [Server, List]),
List
end
end
end.
srv_lookup(Server) ->
Options = case ejabberd_config:get_local_option(s2s_dns_options) of
L when is_list(L) -> L;
_ -> []
end,
TimeoutMs = timer:seconds(proplists:get_value(timeout, Options, 10)),
Retries = proplists:get_value(retries, Options, 2),
srv_lookup(Server, TimeoutMs, Retries).
%% XXX - this behaviour is suboptimal in the case that the domain
%% has a "_xmpp-server._tcp." but not a "_jabber._tcp." record and
%% we don't get a DNS reply for the "_xmpp-server._tcp." lookup. In this
%% case we'll give up when we get the "_jabber._tcp." nxdomain reply.
srv_lookup(_Server, _Timeout, Retries) when Retries < 1 ->
{error, timeout};
srv_lookup(Server, Timeout, Retries) ->
case inet_res:getbyname("_xmpp-server._tcp." ++ Server, srv, Timeout) of
{error, _Reason} ->
case inet_res:getbyname("_jabber._tcp." ++ Server, srv, Timeout) of
{error, timeout} ->
?ERROR_MSG("The DNS servers~n ~p~ntimed out on request"
" for ~p IN SRV."
" You should check your DNS configuration.",
[inet_db:res_option(nameserver), Server]),
srv_lookup(Server, Timeout, Retries - 1);
R -> R
end;
{ok, _HEnt} = R -> R
end.
test_get_addr_port(Server) ->
lists:foldl(
fun(_, Acc) ->
[HostPort | _] = get_addr_port(Server),
case lists:keysearch(HostPort, 1, Acc) of
false ->
[{HostPort, 1} | Acc];
{value, {_, Num}} ->
lists:keyreplace(HostPort, 1, Acc, {HostPort, Num + 1})
end
end, [], lists:seq(1, 100000)).
get_addrs(Host, Family) ->
Type = case Family of
inet4 -> inet;
ipv4 -> inet;
inet6 -> inet6;
ipv6 -> inet6
end,
case inet:gethostbyname(Host, Type) of
{ok, #hostent{h_addr_list = Addrs}} ->
?DEBUG("~s of ~s resolved to: ~p~n", [Type, Host, Addrs]),
Addrs;
{error, Reason} ->
?DEBUG("~s lookup of '~s' failed: ~p~n", [Type, Host, Reason]),
[]
end.
outgoing_s2s_port() ->
case ejabberd_config:get_local_option(outgoing_s2s_port) of
Port when is_integer(Port) ->
Port;
undefined ->
5269
end.
outgoing_s2s_families() ->
case ejabberd_config:get_local_option(outgoing_s2s_options) of
{Families, _} when is_list(Families) ->
Families;
undefined ->
%% DISCUSSION: Why prefer IPv4 first?
%%
%% IPv4 connectivity will be available for everyone for
%% many years to come. So, there's absolutely no benefit
%% in preferring IPv6 connections which are flaky at best
%% nowadays.
%%
%% On the other hand content providers hesitate putting up
%% AAAA records for their sites due to the mentioned
%% quality of current IPv6 connectivity. Making IPv6 the a
%% `fallback' may avoid these problems elegantly.
[ipv4, ipv6]
end.
outgoing_s2s_timeout() ->
case ejabberd_config:get_local_option(outgoing_s2s_options) of
{_, Timeout} when is_integer(Timeout) ->
Timeout;
{_, infinity} ->
infinity;
undefined ->
%% 10 seconds
10000
end.
%% Human readable S2S logging: Log only new outgoing connections as INFO
%% Do not log dialback
log_s2s_out(false, _, _) -> ok;
%% Log new outgoing connections:
log_s2s_out(_, Myname, Server) ->
?INFO_MSG("Trying to open s2s connection: ~s -> ~s",[Myname, Server]).
%% Calculate timeout depending on which state we are in:
%% Can return integer > 0 | infinity
get_timeout_interval(StateName) ->
case StateName of
%% Validation implies dialback: Networking can take longer:
wait_for_validation ->
?FSMTIMEOUT*6;
%% When stream is established, we only rely on S2S Timeout timer:
stream_established ->
infinity;
_ ->
?FSMTIMEOUT
end.
%% This function is intended to be called at the end of a state
%% function that want to wait for a reconnect delay before stopping.
wait_before_reconnect(StateData) ->
%% bounce queue manage by process and Erlang message queue
bounce_queue(StateData#state.queue, 'remote-server-not-found'),
bounce_messages('remote-server-not-found'),
cancel_timer(StateData#state.timer),
Delay = case StateData#state.delay_to_retry of
undefined_delay ->
%% The initial delay is random between 1 and 15 seconds
%% Return a random integer between 1000 and 15000
{_, _, MicroSecs} = now(),
(MicroSecs rem 14000) + 1000;
D1 ->
%% Duplicate the delay with each successive failed
%% reconnection attempt, but don't exceed the max
lists:min([D1 * 2, get_max_retry_delay()])
end,
Timer = erlang:start_timer(Delay, self(), []),
{next_state, wait_before_retry, StateData#state{timer=Timer,
delay_to_retry = Delay,
queue = queue:new()}}.
%% @doc Get the maximum allowed delay for retry to reconnect (in miliseconds).
%% The default value is 5 minutes.
%% The option {s2s_max_retry_delay, Seconds} can be used (in seconds).
%% @spec () -> integer()
get_max_retry_delay() ->
case ejabberd_config:get_local_option(s2s_max_retry_delay) of
Seconds when is_integer(Seconds) ->
Seconds*1000;
_ ->
?MAX_RETRY_DELAY
end.
%% Terminate s2s_out connections that are in state wait_before_retry
terminate_if_waiting_delay(From, To) ->
FromTo = {From, To},
Pids = ejabberd_s2s:get_connections_pids(FromTo),
lists:foreach(
fun(Pid) ->
Pid ! terminate_if_waiting_before_retry
end,
Pids).
fsm_limit_opts() ->
case ejabberd_config:get_local_option(max_fsm_queue) of
N when is_integer(N) ->
[{max_queue, N}];
_ ->
[]
end.
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