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mirror of https://github.com/processone/ejabberd.git synced 2024-12-02 16:37:52 +01:00
xmpp.chapril.org-ejabberd/src/ejabberd_listener.erl

670 lines
21 KiB
Erlang

%%%----------------------------------------------------------------------
%%% File : ejabberd_listener.erl
%%% Author : Alexey Shchepin <alexey@process-one.net>
%%% Purpose : Manage socket listener
%%% Created : 16 Nov 2002 by Alexey Shchepin <alexey@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2019 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_listener).
-behaviour(supervisor).
-author('alexey@process-one.net').
-author('ekhramtsov@process-one.net').
-export([start_link/0, init/1, stop/0, start/3, init/3,
start_listeners/0, start_listener/3, stop_listeners/0,
add_listener/3, delete_listener/2,
config_reloaded/0]).
-export([listen_options/0, listen_opt_type/1, validator/0]).
-export([tls_listeners/0]).
-include("logger.hrl").
-type transport() :: tcp | udp.
-type endpoint() :: {inet:port_number(), inet:ip_address(), transport()}.
-type list_opts() :: [{atom(), term()}].
-type opts() :: #{atom() => term()}.
-type listener() :: {endpoint(), module(), opts()}.
-type sockmod() :: gen_tcp.
-type socket() :: inet:socket().
-type state() :: term().
-export_type([listener/0]).
-callback start(sockmod(), socket(), state()) ->
{ok, pid()} | {error, any()} | ignore.
-callback start_link(sockmod(), socket(), state()) ->
{ok, pid()} | {error, any()} | ignore.
-callback accept(pid()) -> any().
-callback listen_opt_type(atom()) -> econf:validator().
-callback listen_options() -> [{atom(), term()} | atom()].
-callback tcp_init(socket(), list_opts()) -> state().
-callback udp_init(socket(), list_opts()) -> state().
-optional_callbacks([listen_opt_type/1, tcp_init/2, udp_init/2]).
-define(TCP_SEND_TIMEOUT, 15000).
start_link() ->
supervisor:start_link({local, ?MODULE}, ?MODULE, []).
init(_) ->
_ = ets:new(?MODULE, [named_table, public]),
ejabberd_hooks:add(config_reloaded, ?MODULE, config_reloaded, 50),
Listeners = ejabberd_option:listen(),
{ok, {{one_for_one, 10, 1}, listeners_childspec(Listeners)}}.
stop() ->
ejabberd_hooks:delete(config_reloaded, ?MODULE, config_reloaded, 50),
stop_listeners(),
ejabberd_sup:stop_child(?MODULE).
-spec listeners_childspec([listener()]) -> [supervisor:child_spec()].
listeners_childspec(Listeners) ->
lists:map(
fun({EndPoint, Module, Opts}) ->
ets:insert(?MODULE, {EndPoint, Module, Opts}),
{EndPoint,
{?MODULE, start, [EndPoint, Module, Opts]},
transient, brutal_kill, worker, [?MODULE]}
end, Listeners).
-spec start_listeners() -> ok.
start_listeners() ->
Listeners = ejabberd_option:listen(),
lists:foreach(
fun(Spec) ->
supervisor:start_child(?MODULE, Spec)
end, listeners_childspec(Listeners)).
-spec start(endpoint(), module(), opts()) -> term().
start(EndPoint, Module, Opts) ->
proc_lib:start_link(?MODULE, init, [EndPoint, Module, Opts]).
-spec init(endpoint(), module(), opts()) -> ok.
init({_, _, Transport} = EndPoint, Module, AllOpts) ->
{ModuleOpts, SockOpts} = split_opts(Transport, AllOpts),
init(EndPoint, Module, ModuleOpts, SockOpts).
-spec init(endpoint(), module(), opts(), [gen_tcp:option()]) -> ok.
init({Port, _, udp} = EndPoint, Module, Opts, SockOpts) ->
case gen_udp:open(Port, [binary,
{active, false},
{reuseaddr, true} |
SockOpts]) of
{ok, Socket} ->
case inet:sockname(Socket) of
{ok, {Addr, Port1}} ->
proc_lib:init_ack({ok, self()}),
case application:ensure_started(ejabberd) of
ok ->
?INFO_MSG("Start accepting ~s connections at ~s for ~p",
[format_transport(udp, Opts),
format_endpoint({Port1, Addr, udp}), Module]),
Opts1 = opts_to_list(Module, Opts),
case erlang:function_exported(Module, udp_init, 2) of
false ->
udp_recv(Socket, Module, Opts1);
true ->
State = Module:udp_init(Socket, Opts1),
udp_recv(Socket, Module, State)
end;
{error, _} ->
ok
end;
{error, Reason} = Err ->
report_socket_error(Reason, EndPoint, Module),
proc_lib:init_ack(Err)
end;
{error, Reason} = Err ->
report_socket_error(Reason, EndPoint, Module),
proc_lib:init_ack(Err)
end;
init({Port, _, tcp} = EndPoint, Module, Opts, SockOpts) ->
case listen_tcp(Port, SockOpts) of
{ok, ListenSocket} ->
case inet:sockname(ListenSocket) of
{ok, {Addr, Port1}} ->
proc_lib:init_ack({ok, self()}),
case application:ensure_started(ejabberd) of
ok ->
Sup = start_module_sup(Module, Opts),
Interval = maps:get(accept_interval, Opts),
Proxy = maps:get(use_proxy_protocol, Opts),
?INFO_MSG("Start accepting ~s connections at ~s for ~p",
[format_transport(tcp, Opts),
format_endpoint({Port1, Addr, tcp}), Module]),
Opts1 = opts_to_list(Module, Opts),
case erlang:function_exported(Module, tcp_init, 2) of
false ->
accept(ListenSocket, Module, Opts1, Sup, Interval, Proxy);
true ->
State = Module:tcp_init(ListenSocket, Opts1),
accept(ListenSocket, Module, State, Sup, Interval, Proxy)
end;
{error, _} ->
ok
end;
{error, Reason} = Err ->
report_socket_error(Reason, EndPoint, Module),
proc_lib:init_ack(Err)
end;
{error, Reason} = Err ->
report_socket_error(Reason, EndPoint, Module),
proc_lib:init_ack(Err)
end.
-spec listen_tcp(inet:port_number(), [gen_tcp:option()]) ->
{ok, inet:socket()} | {error, system_limit | inet:posix()}.
listen_tcp(Port, SockOpts) ->
Res = gen_tcp:listen(Port, [binary,
{packet, 0},
{active, false},
{reuseaddr, true},
{nodelay, true},
{send_timeout, ?TCP_SEND_TIMEOUT},
{send_timeout_close, true},
{keepalive, true} |
SockOpts]),
case Res of
{ok, ListenSocket} ->
{ok, ListenSocket};
{error, _} = Err ->
Err
end.
-spec split_opts(transport(), opts()) -> {opts(), [gen_tcp:option()]}.
split_opts(Transport, Opts) ->
maps:fold(
fun(Opt, Val, {ModOpts, SockOpts}) ->
case OptVal = {Opt, Val} of
{ip, _} ->
{ModOpts, [OptVal|SockOpts]};
{backlog, _} when Transport == tcp ->
{ModOpts, [OptVal|SockOpts]};
{backlog, _} ->
{ModOpts, SockOpts};
_ ->
{ModOpts#{Opt => Val}, SockOpts}
end
end, {#{}, []}, Opts).
-spec accept(inet:socket(), module(), state(), atom(),
non_neg_integer(), boolean()) -> no_return().
accept(ListenSocket, Module, State, Sup, Interval, Proxy) ->
Arity = case erlang:function_exported(Module, start, 3) of
true -> 3;
false -> 2
end,
accept(ListenSocket, Module, State, Sup, Interval, Proxy, Arity).
-spec accept(inet:socket(), module(), state(), atom(),
non_neg_integer(), boolean(), 2|3) -> no_return().
accept(ListenSocket, Module, State, Sup, Interval, Proxy, Arity) ->
NewInterval = apply_rate_limit(Interval),
case gen_tcp:accept(ListenSocket) of
{ok, Socket} when Proxy ->
case proxy_protocol:decode(gen_tcp, Socket, 10000) of
{error, Err} ->
?ERROR_MSG("(~w) Proxy protocol parsing failed: ~s",
[ListenSocket, format_error(Err)]),
gen_tcp:close(Socket);
{{Addr, Port}, {PAddr, PPort}} = SP ->
%% THIS IS WRONG
State2 = [{sock_peer_name, SP} | State],
Receiver = case start_connection(Module, Arity, Socket, State2, Sup) of
{ok, RecvPid} ->
RecvPid;
_ ->
gen_tcp:close(Socket),
none
end,
?INFO_MSG("(~p) Accepted proxied connection ~s -> ~s",
[Receiver,
ejabberd_config:may_hide_data(
format_endpoint({PPort, PAddr, tcp})),
format_endpoint({Port, Addr, tcp})])
end,
accept(ListenSocket, Module, State, Sup, NewInterval, Proxy, Arity);
{ok, Socket} ->
case {inet:sockname(Socket), inet:peername(Socket)} of
{{ok, {Addr, Port}}, {ok, {PAddr, PPort}}} ->
Receiver = case start_connection(Module, Arity, Socket, State, Sup) of
{ok, RecvPid} ->
RecvPid;
_ ->
gen_tcp:close(Socket),
none
end,
?INFO_MSG("(~p) Accepted connection ~s -> ~s",
[Receiver,
ejabberd_config:may_hide_data(
format_endpoint({PPort, PAddr, tcp})),
format_endpoint({Port, Addr, tcp})]);
_ ->
gen_tcp:close(Socket)
end,
accept(ListenSocket, Module, State, Sup, NewInterval, Proxy, Arity);
{error, Reason} ->
?ERROR_MSG("(~w) Failed TCP accept: ~s",
[ListenSocket, format_error(Reason)]),
accept(ListenSocket, Module, State, Sup, NewInterval, Proxy, Arity)
end.
-spec udp_recv(inet:socket(), module(), state()) -> no_return().
udp_recv(Socket, Module, State) ->
case gen_udp:recv(Socket, 0) of
{ok, {Addr, Port, Packet}} ->
case catch Module:udp_recv(Socket, Addr, Port, Packet, State) of
{'EXIT', Reason} ->
?ERROR_MSG("Failed to process UDP packet:~n"
"** Source: {~p, ~p}~n"
"** Reason: ~p~n** Packet: ~p",
[Addr, Port, Reason, Packet]),
udp_recv(Socket, Module, State);
NewState ->
udp_recv(Socket, Module, NewState)
end;
{error, Reason} ->
?ERROR_MSG("Unexpected UDP error: ~s", [format_error(Reason)]),
throw({error, Reason})
end.
-spec start_connection(module(), 2|3, inet:socket(), state(), atom()) ->
{ok, pid()} | {error, any()} | ignore.
start_connection(Module, Arity, Socket, State, Sup) ->
Res = case Sup of
undefined when Arity == 3 ->
Module:start(gen_tcp, Socket, State);
undefined ->
Module:start({gen_tcp, Socket}, State);
_ when Arity == 3 ->
supervisor:start_child(Sup, [gen_tcp, Socket, State]);
_ ->
supervisor:start_child(Sup, [{gen_tcp, Socket}, State])
end,
case Res of
{ok, Pid} ->
case gen_tcp:controlling_process(Socket, Pid) of
ok ->
Module:accept(Pid),
{ok, Pid};
Err ->
exit(Pid, kill),
Err
end;
Err ->
Err
end.
-spec start_listener(endpoint(), module(), opts()) ->
{ok, pid()} | {error, any()}.
start_listener(EndPoint, Module, Opts) ->
%% It is only required to start the supervisor in some cases.
%% But it doesn't hurt to attempt to start it for any listener.
%% So, it's normal (and harmless) that in most cases this
%% call returns: {error, {already_started, pid()}}
case start_listener_sup(EndPoint, Module, Opts) of
{ok, _Pid} = R -> R;
{error, {{'EXIT', {undef, [{M, _F, _A}|_]}}, _} = Error} ->
?ERROR_MSG("Error starting the ejabberd listener: ~p.~n"
"It could not be loaded or is not an ejabberd listener.~n"
"Error: ~p~n", [Module, Error]),
{error, {module_not_available, M}};
{error, {already_started, Pid}} ->
{ok, Pid};
{error, Error} ->
{error, Error}
end.
-spec start_module_sup(module(), opts()) -> atom().
start_module_sup(Module, Opts) ->
case maps:get(supervisor, Opts) of
true ->
Proc = list_to_atom(atom_to_list(Module) ++ "_sup"),
ChildSpec = {Proc, {ejabberd_tmp_sup, start_link, [Proc, Module]},
permanent,
infinity,
supervisor,
[ejabberd_tmp_sup]},
case supervisor:start_child(ejabberd_sup, ChildSpec) of
{ok, _} -> Proc;
_ -> undefined
end;
false ->
undefined
end.
-spec start_listener_sup(endpoint(), module(), opts()) ->
{ok, pid()} | {error, any()}.
start_listener_sup(EndPoint, Module, Opts) ->
ChildSpec = {EndPoint,
{?MODULE, start, [EndPoint, Module, Opts]},
transient,
brutal_kill,
worker,
[?MODULE]},
supervisor:start_child(?MODULE, ChildSpec).
-spec stop_listeners() -> ok.
stop_listeners() ->
Ports = ejabberd_option:listen(),
lists:foreach(
fun({PortIpNetp, Module, _Opts}) ->
delete_listener(PortIpNetp, Module)
end,
Ports).
-spec stop_listener(endpoint(), module(), opts()) -> ok | {error, any()}.
stop_listener({_, _, Transport} = EndPoint, Module, Opts) ->
case supervisor:terminate_child(?MODULE, EndPoint) of
ok ->
?INFO_MSG("Stop accepting ~s connections at ~s for ~p",
[format_transport(Transport, Opts),
format_endpoint(EndPoint), Module]),
ets:delete(?MODULE, EndPoint),
supervisor:delete_child(?MODULE, EndPoint);
Err ->
Err
end.
-spec add_listener(endpoint(), module(), opts()) -> ok | {error, any()}.
add_listener(EndPoint, Module, Opts) ->
Opts1 = apply_defaults(Module, Opts),
case start_listener(EndPoint, Module, Opts1) of
{ok, _Pid} ->
ok;
{error, {already_started, _Pid}} ->
{error, {already_started, EndPoint}};
{error, Error} ->
{error, Error}
end.
-spec delete_listener(endpoint(), module()) -> ok | {error, any()}.
delete_listener(EndPoint, Module) ->
try ets:lookup_element(?MODULE, EndPoint, 3) of
Opts -> stop_listener(EndPoint, Module, Opts)
catch _:badarg ->
ok
end.
-spec tls_listeners() -> [module()].
tls_listeners() ->
lists:usort(
lists:filtermap(
fun({_, Module, #{tls := true}}) -> {true, Module};
({_, Module, #{starttls := true}}) -> {true, Module};
(_) -> false
end, ets:tab2list(?MODULE))).
-spec config_reloaded() -> ok.
config_reloaded() ->
New = ejabberd_option:listen(),
Old = ets:tab2list(?MODULE),
lists:foreach(
fun({EndPoint, Module, Opts}) ->
case lists:keyfind(EndPoint, 1, New) of
false ->
stop_listener(EndPoint, Module, Opts);
_ ->
ok
end
end, Old),
lists:foreach(
fun({EndPoint, Module, Opts}) ->
case lists:keyfind(EndPoint, 1, Old) of
{_, Module, Opts} ->
ok;
{_, OldModule, OldOpts} ->
_ = stop_listener(EndPoint, OldModule, OldOpts),
ets:insert(?MODULE, {EndPoint, Module, Opts}),
start_listener(EndPoint, Module, Opts);
false ->
ets:insert(?MODULE, {EndPoint, Module, Opts}),
start_listener(EndPoint, Module, Opts)
end
end, New).
-spec report_socket_error(inet:posix(), endpoint(), module()) -> ok.
report_socket_error(Reason, EndPoint, Module) ->
?ERROR_MSG("Failed to open socket at ~s for ~s: ~s",
[format_endpoint(EndPoint), Module, format_error(Reason)]).
-spec format_error(inet:posix() | atom()) -> string().
format_error(Reason) ->
case inet:format_error(Reason) of
"unknown POSIX error" ->
atom_to_list(Reason);
ReasonStr ->
ReasonStr
end.
-spec format_endpoint(endpoint()) -> string().
format_endpoint({Port, IP, _Transport}) ->
IPStr = case tuple_size(IP) of
4 -> inet:ntoa(IP);
8 -> "[" ++ inet:ntoa(IP) ++ "]"
end,
IPStr ++ ":" ++ integer_to_list(Port).
-spec format_transport(transport(), opts()) -> string().
format_transport(Transport, Opts) ->
case maps:get(tls, Opts, false) of
true when Transport == tcp -> "TLS";
true when Transport == udp -> "DTLS";
false when Transport == tcp -> "TCP";
false when Transport == udp -> "UDP"
end.
-spec apply_rate_limit(non_neg_integer()) -> non_neg_integer().
apply_rate_limit(Interval) ->
NewInterval = receive
{rate_limit, AcceptInterval} ->
AcceptInterval
after 0 ->
Interval
end,
case NewInterval of
0 -> ok;
Ms when is_integer(Ms) ->
timer:sleep(Ms);
{linear, I1, T1, T2, I2} ->
{MSec, Sec, _USec} = os:timestamp(),
TS = MSec * 1000000 + Sec,
I =
if
TS =< T1 -> I1;
TS >= T1 + T2 -> I2;
true ->
round((I2 - I1) * (TS - T1) / T2 + I1)
end,
timer:sleep(I)
end,
NewInterval.
-spec validator() -> econf:validator().
validator() ->
econf:and_then(
econf:list(
econf:and_then(
econf:options(
#{module => listen_opt_type(module),
transport => listen_opt_type(transport),
'_' => econf:any()},
[{required, [module]}]),
fun(Opts) ->
M = proplists:get_value(module, Opts),
T = proplists:get_value(transport, Opts, tcp),
(validator(M, T))(Opts)
end)),
fun prepare_opts/1).
-spec validator(module(), transport()) -> econf:validator().
validator(M, T) ->
Options = listen_options() ++ M:listen_options(),
Required = lists:usort([Opt || Opt <- Options, is_atom(Opt)]),
Disallowed = if T == udp ->
[backlog, use_proxy_protocol, accept_interval];
true ->
[]
end,
Validator = maps:from_list(
lists:map(
fun(Opt) ->
try {Opt, M:listen_opt_type(Opt)}
catch _:_ when M /= ?MODULE ->
{Opt, listen_opt_type(Opt)}
end
end, proplists:get_keys(Options))),
econf:options(
Validator,
[{required, Required}, {disallowed, Disallowed},
{return, map}, unique]).
-spec prepare_opts([opts()]) -> [listener()].
prepare_opts(Listeners) ->
check_overlapping_listeners(
lists:map(
fun(Opts1) ->
{Opts2, Opts3} = partition(
fun({port, _}) -> true;
({transport, _}) -> true;
({module, _}) -> true;
(_) -> false
end, Opts1),
Mod = maps:get(module, Opts2),
Port = maps:get(port, Opts2),
Transport = maps:get(transport, Opts2, tcp),
IP = maps:get(ip, Opts3, {0,0,0,0}),
Opts4 = apply_defaults(Mod, Opts3),
{{Port, IP, Transport}, Mod, Opts4}
end, Listeners)).
-spec check_overlapping_listeners([listener()]) -> [listener()].
check_overlapping_listeners(Listeners) ->
_ = lists:foldl(
fun({{Port, IP, Transport} = Key, _, _}, Acc) ->
case lists:member(Key, Acc) of
true ->
econf:fail({listener_dup, {IP, Port}});
false ->
ZeroIP = case size(IP) of
8 -> {0,0,0,0,0,0,0,0};
4 -> {0,0,0,0}
end,
Key1 = {Port, ZeroIP, Transport},
case lists:member(Key1, Acc) of
true ->
econf:fail({listener_conflict,
{IP, Port}, {ZeroIP, Port}});
false ->
[Key|Acc]
end
end
end, [], Listeners),
Listeners.
-spec apply_defaults(module(), opts()) -> opts().
apply_defaults(Mod, Opts) ->
lists:foldl(
fun({Opt, Default}, M) ->
case maps:is_key(Opt, M) of
true -> M;
false -> M#{Opt => Default}
end;
(_, M) ->
M
end, Opts, Mod:listen_options() ++ listen_options()).
%% Convert options to list with removing defaults
-spec opts_to_list(module(), opts()) -> list_opts().
opts_to_list(Mod, Opts) ->
Defaults = Mod:listen_options() ++ listen_options(),
maps:fold(
fun(Opt, Val, Acc) ->
case proplists:get_value(Opt, Defaults) of
Val -> Acc;
_ -> [{Opt, Val}|Acc]
end
end, [], Opts).
-spec partition(fun(({atom(), term()}) -> boolean()), opts()) -> {opts(), opts()}.
partition(Fun, Opts) ->
maps:fold(
fun(Opt, Val, {True, False}) ->
case Fun({Opt, Val}) of
true -> {True#{Opt => Val}, False};
false -> {True, False#{Opt => Val}}
end
end, {#{}, #{}}, Opts).
-spec listen_opt_type(atom()) -> econf:validator().
listen_opt_type(port) ->
econf:int(0, 65535);
listen_opt_type(module) ->
econf:beam([[{start, 3}, {start, 2}],
[{start_link, 3}, {start_link, 2}],
{accept, 1}, {listen_options, 0}]);
listen_opt_type(ip) ->
econf:ip();
listen_opt_type(transport) ->
econf:enum([tcp, udp]);
listen_opt_type(accept_interval) ->
econf:non_neg_int();
listen_opt_type(backlog) ->
econf:non_neg_int();
listen_opt_type(supervisor) ->
econf:bool();
listen_opt_type(ciphers) ->
econf:binary();
listen_opt_type(dhfile) ->
econf:file();
listen_opt_type(cafile) ->
econf:pem();
listen_opt_type(certfile) ->
econf:pem();
listen_opt_type(protocol_options) ->
econf:and_then(
econf:list(econf:binary()),
fun(Options) -> str:join(Options, <<"|">>) end);
listen_opt_type(tls_compression) ->
econf:bool();
listen_opt_type(tls) ->
econf:bool();
listen_opt_type(max_stanza_size) ->
econf:pos_int(infinity);
listen_opt_type(max_fsm_queue) ->
econf:pos_int();
listen_opt_type(shaper) ->
econf:shaper();
listen_opt_type(access) ->
econf:acl();
listen_opt_type(use_proxy_protocol) ->
econf:bool().
listen_options() ->
[module, port,
{transport, tcp},
{ip, {0,0,0,0}},
{accept_interval, 0},
{backlog, 5},
{use_proxy_protocol, false},
{supervisor, true}].