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xmpp.chapril.org-ejabberd/src/ejabberd_s2s.erl

625 lines
21 KiB
Erlang

%%%----------------------------------------------------------------------
%%% File : ejabberd_s2s.erl
%%% Author : Alexey Shchepin <alexey@process-one.net>
%%% Purpose : S2S connections manager
%%% Created : 7 Dec 2002 by Alexey Shchepin <alexey@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2024 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_s2s).
-protocol({xep, 220, '1.1'}).
-author('alexey@process-one.net').
-behaviour(gen_server).
%% API
-export([start_link/0, stop/0, route/1, have_connection/1,
get_connections_pids/1,
start_connection/2, start_connection/3,
dirty_get_connections/0, allow_host/2,
incoming_s2s_number/0, outgoing_s2s_number/0,
stop_s2s_connections/0,
clean_temporarily_blocked_table/0,
list_temporarily_blocked_hosts/0,
external_host_overloaded/1, is_temporarly_blocked/1,
get_commands_spec/0, zlib_enabled/1, get_idle_timeout/1,
tls_required/1, tls_enabled/1, tls_options/3,
host_up/1, host_down/1, queue_type/1]).
%% gen_server callbacks
-export([init/1, handle_call/3, handle_cast/2,
handle_info/2, terminate/2, code_change/3]).
-export([get_info_s2s_connections/1]).
-include("logger.hrl").
-include_lib("xmpp/include/xmpp.hrl").
-include("ejabberd_commands.hrl").
-include_lib("stdlib/include/ms_transform.hrl").
-include("ejabberd_stacktrace.hrl").
-include("translate.hrl").
-define(DEFAULT_MAX_S2S_CONNECTIONS_NUMBER, 1).
-define(DEFAULT_MAX_S2S_CONNECTIONS_NUMBER_PER_NODE, 1).
-define(S2S_OVERLOAD_BLOCK_PERIOD, 60).
%% once a server is temporary blocked, it stay blocked for 60 seconds
-record(s2s, {fromto :: {binary(), binary()} | '_',
pid :: pid()}).
-record(state, {}).
-record(temporarily_blocked, {host :: binary(),
timestamp :: integer()}).
-type temporarily_blocked() :: #temporarily_blocked{}.
start_link() ->
gen_server:start_link({local, ?MODULE}, ?MODULE, [], []).
-spec stop() -> ok.
stop() ->
_ = supervisor:terminate_child(ejabberd_sup, ?MODULE),
_ = supervisor:delete_child(ejabberd_sup, ?MODULE),
ok.
clean_temporarily_blocked_table() ->
mnesia:clear_table(temporarily_blocked).
-spec list_temporarily_blocked_hosts() -> [temporarily_blocked()].
list_temporarily_blocked_hosts() ->
ets:tab2list(temporarily_blocked).
-spec external_host_overloaded(binary()) -> {aborted, any()} | {atomic, ok}.
external_host_overloaded(Host) ->
?INFO_MSG("Disabling s2s connections to ~ts for ~p seconds",
[Host, ?S2S_OVERLOAD_BLOCK_PERIOD]),
mnesia:transaction(fun () ->
Time = erlang:monotonic_time(),
mnesia:write(#temporarily_blocked{host = Host,
timestamp = Time})
end).
-spec is_temporarly_blocked(binary()) -> boolean().
is_temporarly_blocked(Host) ->
case mnesia:dirty_read(temporarily_blocked, Host) of
[] -> false;
[#temporarily_blocked{timestamp = T} = Entry] ->
Diff = erlang:monotonic_time() - T,
case erlang:convert_time_unit(Diff, native, microsecond) of
N when N > (?S2S_OVERLOAD_BLOCK_PERIOD) * 1000 * 1000 ->
mnesia:dirty_delete_object(Entry), false;
_ -> true
end
end.
-spec have_connection({binary(), binary()}) -> boolean().
have_connection(FromTo) ->
case catch mnesia:dirty_read(s2s, FromTo) of
[_] ->
true;
_ ->
false
end.
-spec get_connections_pids({binary(), binary()}) -> [pid()].
get_connections_pids(FromTo) ->
case catch mnesia:dirty_read(s2s, FromTo) of
L when is_list(L) ->
[Connection#s2s.pid || Connection <- L];
_ ->
[]
end.
-spec dirty_get_connections() -> [{binary(), binary()}].
dirty_get_connections() ->
mnesia:dirty_all_keys(s2s).
-spec tls_options(binary(), binary(), [proplists:property()]) -> [proplists:property()].
tls_options(LServer, ServerHost, DefaultOpts) ->
TLSOpts1 = case ejabberd_pkix:get_certfile(LServer) of
error -> DefaultOpts;
{ok, CertFile} ->
lists:keystore(certfile, 1, DefaultOpts,
{certfile, CertFile})
end,
TLSOpts2 = case ejabberd_option:s2s_ciphers(ServerHost) of
undefined -> TLSOpts1;
Ciphers -> lists:keystore(ciphers, 1, TLSOpts1,
{ciphers, Ciphers})
end,
TLSOpts3 = case ejabberd_option:s2s_protocol_options(ServerHost) of
undefined -> TLSOpts2;
ProtoOpts -> lists:keystore(protocol_options, 1, TLSOpts2,
{protocol_options, ProtoOpts})
end,
TLSOpts4 = case ejabberd_option:s2s_dhfile(ServerHost) of
undefined -> TLSOpts3;
DHFile -> lists:keystore(dhfile, 1, TLSOpts3,
{dhfile, DHFile})
end,
TLSOpts5 = case lists:keymember(cafile, 1, TLSOpts4) of
true -> TLSOpts4;
false -> [{cafile, get_cafile(ServerHost)}|TLSOpts4]
end,
case ejabberd_option:s2s_tls_compression(ServerHost) of
undefined -> TLSOpts5;
false -> [compression_none | TLSOpts5];
true -> lists:delete(compression_none, TLSOpts5)
end.
-spec tls_required(binary()) -> boolean().
tls_required(LServer) ->
TLS = use_starttls(LServer),
TLS == required.
-spec tls_enabled(binary()) -> boolean().
tls_enabled(LServer) ->
TLS = use_starttls(LServer),
TLS /= false.
-spec zlib_enabled(binary()) -> boolean().
zlib_enabled(LServer) ->
ejabberd_option:s2s_zlib(LServer).
-spec use_starttls(binary()) -> boolean() | optional | required.
use_starttls(LServer) ->
ejabberd_option:s2s_use_starttls(LServer).
-spec get_idle_timeout(binary()) -> non_neg_integer() | infinity.
get_idle_timeout(LServer) ->
ejabberd_option:s2s_timeout(LServer).
-spec queue_type(binary()) -> ram | file.
queue_type(LServer) ->
ejabberd_option:s2s_queue_type(LServer).
-spec get_cafile(binary()) -> file:filename_all() | undefined.
get_cafile(LServer) ->
case ejabberd_option:s2s_cafile(LServer) of
undefined ->
ejabberd_option:ca_file();
File ->
File
end.
%%====================================================================
%% gen_server callbacks
%%====================================================================
init([]) ->
update_tables(),
ejabberd_mnesia:create(?MODULE, s2s,
[{ram_copies, [node()]},
{type, bag},
{attributes, record_info(fields, s2s)}]),
case mnesia:subscribe(system) of
{ok, _} ->
ejabberd_commands:register_commands(get_commands_spec()),
ejabberd_mnesia:create(
?MODULE, temporarily_blocked,
[{ram_copies, [node()]},
{attributes, record_info(fields, temporarily_blocked)}]),
ejabberd_hooks:add(host_up, ?MODULE, host_up, 50),
ejabberd_hooks:add(host_down, ?MODULE, host_down, 60),
lists:foreach(fun host_up/1, ejabberd_option:hosts()),
{ok, #state{}};
{error, Reason} ->
{stop, Reason}
end.
handle_call({new_connection, Args}, _From, State) ->
{reply, erlang:apply(fun new_connection_int/7, Args), 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}.
handle_info({mnesia_system_event, {mnesia_down, Node}}, State) ->
?INFO_MSG("Node ~p has left our Mnesia S2S tables", [Node]),
clean_table_from_bad_node(Node),
{noreply, State};
handle_info({mnesia_system_event, {mnesia_up, Node}}, State) ->
?INFO_MSG("Node ~p joined our Mnesia S2S tables", [Node]),
{noreply, State};
handle_info({route, Packet}, State) ->
try route(Packet)
catch ?EX_RULE(Class, Reason, St) ->
StackTrace = ?EX_STACK(St),
?ERROR_MSG("Failed to route packet:~n~ts~n** ~ts",
[xmpp:pp(Packet),
misc:format_exception(2, Class, Reason, StackTrace)])
end,
{noreply, State};
handle_info({'DOWN', _Ref, process, Pid, _Reason}, State) ->
case mnesia:dirty_match_object(s2s, #s2s{fromto = '_', pid = Pid}) of
[#s2s{pid = Pid, fromto = {From, To}} = Obj] ->
F = fun() -> mnesia:delete_object(Obj) end,
case mnesia:transaction(F) of
{atomic, _} -> ok;
{aborted, Reason} ->
?ERROR_MSG("Failed to unregister s2s connection for pid ~p (~ts -> ~ts):"
"Mnesia failure: ~p",
[Pid, From, To, Reason])
end,
{noreply, State};
_ ->
{noreply, State}
end;
handle_info(Info, State) ->
?WARNING_MSG("Unexpected info: ~p", [Info]),
{noreply, State}.
terminate(_Reason, _State) ->
ejabberd_commands:unregister_commands(get_commands_spec()),
stop_s2s_connections(stream_error()),
lists:foreach(fun host_down/1, ejabberd_option:hosts()),
ejabberd_hooks:delete(host_up, ?MODULE, host_up, 50),
ejabberd_hooks:delete(host_down, ?MODULE, host_down, 60).
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%--------------------------------------------------------------------
%%% Internal functions
%%--------------------------------------------------------------------
-spec host_up(binary()) -> ok.
host_up(Host) ->
ejabberd_s2s_in:host_up(Host),
ejabberd_s2s_out:host_up(Host).
-spec host_down(binary()) -> ok.
host_down(Host) ->
Err = stream_error(),
lists:foreach(
fun(#s2s{fromto = {From, _}, pid = Pid}) when node(Pid) == node() ->
case ejabberd_router:host_of_route(From) of
Host ->
ejabberd_s2s_out:send(Pid, Err),
ejabberd_s2s_out:stop_async(Pid);
_ ->
ok
end;
(_) ->
ok
end, ets:tab2list(s2s)),
ejabberd_s2s_in:host_down(Host),
ejabberd_s2s_out:host_down(Host).
-spec clean_table_from_bad_node(node()) -> any().
clean_table_from_bad_node(Node) ->
F = fun() ->
Es = mnesia:select(
s2s,
ets:fun2ms(
fun(#s2s{pid = Pid} = E) when node(Pid) == Node ->
E
end)),
lists:foreach(fun mnesia:delete_object/1, Es)
end,
mnesia:async_dirty(F).
-spec route(stanza()) -> ok.
route(Packet) ->
?DEBUG("Local route:~n~ts", [xmpp:pp(Packet)]),
From = xmpp:get_from(Packet),
To = xmpp:get_to(Packet),
case start_connection(From, To) of
{ok, Pid} when is_pid(Pid) ->
?DEBUG("Sending to process ~p~n", [Pid]),
#jid{lserver = MyServer} = From,
case ejabberd_hooks:run_fold(s2s_send_packet, MyServer, Packet,
[]) of
drop -> ok;
Packet1 -> ejabberd_s2s_out:route(Pid, Packet1)
end;
{error, Reason} ->
Lang = xmpp:get_lang(Packet),
Err = case Reason of
forbidden ->
xmpp:err_forbidden(?T("Access denied by service policy"), Lang);
internal_server_error ->
xmpp:err_internal_server_error()
end,
ejabberd_router:route_error(Packet, Err)
end.
-spec start_connection(jid(), jid())
-> {ok, pid()} | {error, forbidden | internal_server_error}.
start_connection(From, To) ->
start_connection(From, To, []).
-spec start_connection(jid(), jid(), [proplists:property()])
-> {ok, pid()} | {error, forbidden | internal_server_error}.
start_connection(From, To, Opts) ->
#jid{lserver = MyServer} = From,
#jid{lserver = Server} = To,
FromTo = {MyServer, Server},
MaxS2SConnectionsNumber =
max_s2s_connections_number(FromTo),
MaxS2SConnectionsNumberPerNode =
max_s2s_connections_number_per_node(FromTo),
?DEBUG("Finding connection for ~p~n", [FromTo]),
case mnesia:dirty_read(s2s, FromTo) of
[] ->
%% We try to establish all the connections if the host is not a
%% service and if the s2s host is not blacklisted or
%% is in whitelist:
LServer = ejabberd_router:host_of_route(MyServer),
case allow_host(LServer, Server) of
true ->
NeededConnections = needed_connections_number(
[],
MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode),
open_several_connections(NeededConnections, MyServer,
Server, From, FromTo,
MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode, Opts);
false ->
{error, forbidden}
end;
L when is_list(L) ->
NeededConnections = needed_connections_number(L,
MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode),
if NeededConnections > 0 ->
%% We establish the missing connections for this pair.
open_several_connections(NeededConnections, MyServer,
Server, From, FromTo,
MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode, Opts);
true ->
%% We choose a connection from the pool of opened ones.
{ok, choose_connection(From, L)}
end
end.
-spec choose_connection(jid(), [#s2s{}]) -> pid().
choose_connection(From, Connections) ->
choose_pid(From, [C#s2s.pid || C <- Connections]).
-spec choose_pid(jid(), [pid()]) -> pid().
choose_pid(From, Pids) ->
Pids1 = case [P || P <- Pids, node(P) == node()] of
[] -> Pids;
Ps -> Ps
end,
Pid =
lists:nth(erlang:phash2(jid:remove_resource(From),
length(Pids1))+1,
Pids1),
?DEBUG("Using ejabberd_s2s_out ~p~n", [Pid]),
Pid.
-spec open_several_connections(pos_integer(), binary(), binary(),
jid(), {binary(), binary()},
integer(), integer(), [proplists:property()]) ->
{ok, pid()} | {error, internal_server_error}.
open_several_connections(N, MyServer, Server, From,
FromTo, MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode, Opts) ->
case lists:flatmap(
fun(_) ->
new_connection(MyServer, Server,
From, FromTo, MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode, Opts)
end, lists:seq(1, N)) of
[] ->
{error, internal_server_error};
PIDs ->
{ok, choose_pid(From, PIDs)}
end.
-spec new_connection(binary(), binary(), jid(), {binary(), binary()},
integer(), integer(), [proplists:property()]) -> [pid()].
new_connection(MyServer, Server, From, FromTo,
MaxS2SConnectionsNumber, MaxS2SConnectionsNumberPerNode, Opts) ->
case whereis(ejabberd_s2s) == self() of
true ->
new_connection_int(MyServer, Server, From, FromTo,
MaxS2SConnectionsNumber, MaxS2SConnectionsNumberPerNode, Opts);
false ->
gen_server:call(ejabberd_s2s, {new_connection, [MyServer, Server, From, FromTo,
MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode, Opts]})
end.
new_connection_int(MyServer, Server, From, FromTo,
MaxS2SConnectionsNumber, MaxS2SConnectionsNumberPerNode, Opts) ->
{ok, Pid} = ejabberd_s2s_out:start(MyServer, Server, Opts),
F = fun() ->
L = mnesia:read({s2s, FromTo}),
NeededConnections = needed_connections_number(L,
MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode),
if NeededConnections > 0 ->
mnesia:write(#s2s{fromto = FromTo, pid = Pid}),
Pid;
true -> choose_connection(From, L)
end
end,
TRes = mnesia:transaction(F),
case TRes of
{atomic, Pid1} ->
if Pid1 == Pid ->
erlang:monitor(process, Pid),
ejabberd_s2s_out:connect(Pid);
true ->
ejabberd_s2s_out:stop_async(Pid)
end,
[Pid1];
{aborted, Reason} ->
?ERROR_MSG("Failed to register s2s connection ~ts -> ~ts: "
"Mnesia failure: ~p",
[MyServer, Server, Reason]),
ejabberd_s2s_out:stop_async(Pid),
[]
end.
-spec max_s2s_connections_number({binary(), binary()}) -> pos_integer().
max_s2s_connections_number({From, To}) ->
case ejabberd_shaper:match(From, max_s2s_connections, jid:make(To)) of
Max when is_integer(Max) -> Max;
_ -> ?DEFAULT_MAX_S2S_CONNECTIONS_NUMBER
end.
-spec max_s2s_connections_number_per_node({binary(), binary()}) -> pos_integer().
max_s2s_connections_number_per_node({From, To}) ->
case ejabberd_shaper:match(From, max_s2s_connections_per_node, jid:make(To)) of
Max when is_integer(Max) -> Max;
_ -> ?DEFAULT_MAX_S2S_CONNECTIONS_NUMBER_PER_NODE
end.
-spec needed_connections_number([#s2s{}], integer(), integer()) -> integer().
needed_connections_number(Ls, MaxS2SConnectionsNumber,
MaxS2SConnectionsNumberPerNode) ->
LocalLs = [L || L <- Ls, node(L#s2s.pid) == node()],
lists:min([MaxS2SConnectionsNumber - length(Ls),
MaxS2SConnectionsNumberPerNode - length(LocalLs)]).
%%%----------------------------------------------------------------------
%%% ejabberd commands
get_commands_spec() ->
[#ejabberd_commands{
name = incoming_s2s_number, tags = [statistics, s2s],
desc = "Number of incoming s2s connections on the node",
policy = admin,
module = ?MODULE, function = incoming_s2s_number,
args = [], result = {s2s_incoming, integer}},
#ejabberd_commands{
name = outgoing_s2s_number, tags = [statistics, s2s],
desc = "Number of outgoing s2s connections on the node",
policy = admin,
module = ?MODULE, function = outgoing_s2s_number,
args = [], result = {s2s_outgoing, integer}},
#ejabberd_commands{
name = stop_s2s_connections, tags = [s2s],
desc = "Stop all s2s outgoing and incoming connections",
policy = admin,
module = ?MODULE, function = stop_s2s_connections,
args = [], result = {res, rescode}}].
%% TODO Move those stats commands to ejabberd stats command ?
incoming_s2s_number() ->
supervisor_count(ejabberd_s2s_in_sup).
outgoing_s2s_number() ->
supervisor_count(ejabberd_s2s_out_sup).
-spec supervisor_count(atom()) -> non_neg_integer().
supervisor_count(Supervisor) ->
try supervisor:count_children(Supervisor) of
Props ->
proplists:get_value(workers, Props, 0)
catch _:_ ->
0
end.
-spec stop_s2s_connections() -> ok.
stop_s2s_connections() ->
stop_s2s_connections(xmpp:serr_reset()).
-spec stop_s2s_connections(stream_error()) -> ok.
stop_s2s_connections(Err) ->
lists:foreach(
fun({_Id, Pid, _Type, _Module}) ->
ejabberd_s2s_in:send(Pid, Err),
ejabberd_s2s_in:stop_async(Pid),
supervisor:terminate_child(ejabberd_s2s_in_sup, Pid)
end, supervisor:which_children(ejabberd_s2s_in_sup)),
lists:foreach(
fun({_Id, Pid, _Type, _Module}) ->
ejabberd_s2s_out:send(Pid, Err),
ejabberd_s2s_out:stop_async(Pid),
supervisor:terminate_child(ejabberd_s2s_out_sup, Pid)
end, supervisor:which_children(ejabberd_s2s_out_sup)),
_ = mnesia:clear_table(s2s),
ok.
-spec stream_error() -> stream_error().
stream_error() ->
case ejabberd_cluster:get_nodes() of
[Node] when Node == node() -> xmpp:serr_system_shutdown();
_ -> xmpp:serr_reset()
end.
%%%----------------------------------------------------------------------
%%% Update Mnesia tables
update_tables() ->
_ = mnesia:delete_table(local_s2s),
ok.
%% Check if host is in blacklist or white list
-spec allow_host(binary(), binary()) -> boolean().
allow_host(MyServer, S2SHost) ->
allow_host1(MyServer, S2SHost) andalso
not is_temporarly_blocked(S2SHost).
-spec allow_host1(binary(), binary()) -> boolean().
allow_host1(MyHost, S2SHost) ->
Rule = ejabberd_option:s2s_access(MyHost),
JID = jid:make(S2SHost),
case acl:match_rule(MyHost, Rule, JID) of
deny -> false;
allow ->
case ejabberd_hooks:run_fold(s2s_allow_host, MyHost,
allow, [MyHost, S2SHost]) of
deny -> false;
allow -> true
end
end.
%% @doc Get information about S2S connections of the specified type.
-spec get_info_s2s_connections(Type::in | out) -> [[{InfoName::atom(), InfoValue::any()}]].
get_info_s2s_connections(Type) ->
ChildType = case Type of
in -> ejabberd_s2s_in_sup;
out -> ejabberd_s2s_out_sup
end,
Connections = supervisor:which_children(ChildType),
get_s2s_info(Connections, Type).
get_s2s_info(Connections, Type) ->
complete_s2s_info(Connections, Type, []).
complete_s2s_info([], _, Result) -> Result;
complete_s2s_info([Connection | T], Type, Result) ->
{_, PID, _, _} = Connection,
State = get_s2s_state(PID),
complete_s2s_info(T, Type, [State | Result]).
-spec get_s2s_state(pid()) -> [{status, open | closed | error} | {s2s_pid, pid()}].
get_s2s_state(S2sPid) ->
Infos = case p1_fsm:sync_send_all_state_event(S2sPid,
get_state_infos)
of
{state_infos, Is} -> [{status, open} | Is];
{noproc, _} -> [{status, closed}]; %% Connection closed
{badrpc, _} -> [{status, error}]
end,
[{s2s_pid, S2sPid} | Infos].