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|
%% The contents of this file are subject to the Mozilla Public License
%% Version 1.1 (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.mozilla.org/MPL/
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and
%% limitations under the License.
%%
%% The Original Code is RabbitMQ.
%%
%% The Initial Developer of the Original Code is VMware, Inc.
%% Copyright (c) 2007-2011 VMware, Inc. All rights reserved.
%%
-module(rabbit_networking).
-export([boot/0, start/0, start_tcp_listener/1, start_ssl_listener/2,
stop_tcp_listener/1, on_node_down/1, active_listeners/0,
node_listeners/1, connections/0, connection_info_keys/0,
connection_info/1, connection_info/2,
connection_info_all/0, connection_info_all/1,
close_connection/2]).
%%used by TCP-based transports, e.g. STOMP adapter
-export([check_tcp_listener_address/2]).
-export([tcp_listener_started/3, tcp_listener_stopped/3,
start_client/1, start_ssl_client/2]).
-include("rabbit.hrl").
-include_lib("kernel/include/inet.hrl").
-define(RABBIT_TCP_OPTS, [
binary,
{packet, raw}, % no packaging
{reuseaddr, true}, % allow rebind without waiting
{backlog, 128}, % use the maximum listen(2) backlog value
%% {nodelay, true}, % TCP_NODELAY - disable Nagle's alg.
%% {delay_send, true},
{exit_on_close, false}
]).
-define(SSL_TIMEOUT, 5). %% seconds
-define(FIRST_TEST_BIND_PORT, 10000).
%%----------------------------------------------------------------------------
-ifdef(use_specs).
-export_type([ip_port/0, hostname/0]).
-type(family() :: atom()).
-type(listener_config() :: ip_port() |
{hostname(), ip_port()} |
{hostname(), ip_port(), family()}).
-spec(start/0 :: () -> 'ok').
-spec(start_tcp_listener/1 :: (listener_config()) -> 'ok').
-spec(start_ssl_listener/2 ::
(listener_config(), rabbit_types:infos()) -> 'ok').
-spec(stop_tcp_listener/1 :: (listener_config()) -> 'ok').
-spec(active_listeners/0 :: () -> [rabbit_types:listener()]).
-spec(node_listeners/1 :: (node()) -> [rabbit_types:listener()]).
-spec(connections/0 :: () -> [rabbit_types:connection()]).
-spec(connection_info_keys/0 :: () -> rabbit_types:info_keys()).
-spec(connection_info/1 ::
(rabbit_types:connection()) -> rabbit_types:infos()).
-spec(connection_info/2 ::
(rabbit_types:connection(), rabbit_types:info_keys())
-> rabbit_types:infos()).
-spec(connection_info_all/0 :: () -> [rabbit_types:infos()]).
-spec(connection_info_all/1 ::
(rabbit_types:info_keys()) -> [rabbit_types:infos()]).
-spec(close_connection/2 :: (pid(), string()) -> 'ok').
-spec(on_node_down/1 :: (node()) -> 'ok').
-spec(check_tcp_listener_address/2 :: (atom(), listener_config())
-> [{inet:ip_address(), ip_port(), family(), atom()}]).
-endif.
%%----------------------------------------------------------------------------
boot() ->
ok = start(),
ok = boot_tcp(),
ok = boot_ssl().
boot_tcp() ->
{ok, TcpListeners} = application:get_env(tcp_listeners),
[ok = start_tcp_listener(Listener) || Listener <- TcpListeners],
ok.
boot_ssl() ->
case application:get_env(ssl_listeners) of
{ok, []} ->
ok;
{ok, SslListeners} ->
ok = rabbit_misc:start_applications([crypto, public_key, ssl]),
{ok, SslOptsConfig} = application:get_env(ssl_options),
% unknown_ca errors are silently ignored prior to R14B unless we
% supply this verify_fun - remove when at least R14B is required
SslOpts =
case proplists:get_value(verify, SslOptsConfig, verify_none) of
verify_none -> SslOptsConfig;
verify_peer -> [{verify_fun, fun([]) -> true;
([_|_]) -> false
end}
| SslOptsConfig]
end,
[start_ssl_listener(Listener, SslOpts) || Listener <- SslListeners],
ok
end.
start() ->
{ok,_} = supervisor2:start_child(
rabbit_sup,
{rabbit_tcp_client_sup,
{rabbit_client_sup, start_link,
[{local, rabbit_tcp_client_sup},
{rabbit_connection_sup,start_link,[]}]},
transient, infinity, supervisor, [rabbit_client_sup]}),
ok.
%% inet_parse:address takes care of ip string, like "0.0.0.0"
%% inet:getaddr returns immediately for ip tuple {0,0,0,0},
%% and runs 'inet_gethost' port process for dns lookups.
%% On Windows inet:getaddr runs dns resolver for ip string, which may fail.
getaddr(Host, Family) ->
case inet_parse:address(Host) of
{ok, IPAddress} -> [{IPAddress, resolve_family(IPAddress, Family)}];
{error, _} -> gethostaddr(Host, Family)
end.
gethostaddr(Host, auto) ->
Lookups = [{Family, inet:getaddr(Host, Family)} || Family <- [inet, inet6]],
case [{IP, Family} || {Family, {ok, IP}} <- Lookups] of
[] -> host_lookup_error(Host, Lookups);
IPs -> IPs
end;
gethostaddr(Host, Family) ->
case inet:getaddr(Host, Family) of
{ok, IPAddress} -> [{IPAddress, Family}];
{error, Reason} -> host_lookup_error(Host, Reason)
end.
host_lookup_error(Host, Reason) ->
error_logger:error_msg("invalid host ~p - ~p~n", [Host, Reason]),
throw({error, {invalid_host, Host, Reason}}).
resolve_family({_,_,_,_}, auto) -> inet;
resolve_family({_,_,_,_,_,_,_,_}, auto) -> inet6;
resolve_family(IP, auto) -> throw({error, {strange_family, IP}});
resolve_family(_, F) -> F.
check_tcp_listener_address(NamePrefix, Port) when is_integer(Port) ->
check_tcp_listener_address_auto(NamePrefix, Port);
check_tcp_listener_address(NamePrefix, {"auto", Port}) ->
%% Variant to prevent lots of hacking around in bash and batch files
check_tcp_listener_address_auto(NamePrefix, Port);
check_tcp_listener_address(NamePrefix, {Host, Port}) ->
%% auto: determine family IPv4 / IPv6 after converting to IP address
check_tcp_listener_address(NamePrefix, {Host, Port, auto});
check_tcp_listener_address(NamePrefix, {Host, Port, Family0}) ->
if is_integer(Port) andalso (Port >= 0) andalso (Port =< 65535) -> ok;
true -> error_logger:error_msg("invalid port ~p - not 0..65535~n",
[Port]),
throw({error, {invalid_port, Port}})
end,
[{IPAddress, Port, Family,
rabbit_misc:tcp_name(NamePrefix, IPAddress, Port)} ||
{IPAddress, Family} <- getaddr(Host, Family0)].
check_tcp_listener_address_auto(NamePrefix, Port) ->
lists:append([check_tcp_listener_address(NamePrefix, Listener) ||
Listener <- port_to_listeners(Port)]).
start_tcp_listener(Listener) ->
start_listener(Listener, amqp, "TCP Listener",
{?MODULE, start_client, []}).
start_ssl_listener(Listener, SslOpts) ->
start_listener(Listener, 'amqp/ssl', "SSL Listener",
{?MODULE, start_ssl_client, [SslOpts]}).
start_listener(Listener, Protocol, Label, OnConnect) ->
[start_listener0(Spec, Protocol, Label, OnConnect) ||
Spec <- check_tcp_listener_address(rabbit_tcp_listener_sup, Listener)],
ok.
start_listener0({IPAddress, Port, Family, Name}, Protocol, Label, OnConnect) ->
{ok,_} = supervisor:start_child(
rabbit_sup,
{Name,
{tcp_listener_sup, start_link,
[IPAddress, Port, [Family | ?RABBIT_TCP_OPTS],
{?MODULE, tcp_listener_started, [Protocol]},
{?MODULE, tcp_listener_stopped, [Protocol]},
OnConnect, Label]},
transient, infinity, supervisor, [tcp_listener_sup]}).
stop_tcp_listener(Listener) ->
[stop_tcp_listener0(Spec) ||
Spec <- check_tcp_listener_address(rabbit_tcp_listener_sup, Listener)],
ok.
stop_tcp_listener0({IPAddress, Port, _Family, Name}) ->
Name = rabbit_misc:tcp_name(rabbit_tcp_listener_sup, IPAddress, Port),
ok = supervisor:terminate_child(rabbit_sup, Name),
ok = supervisor:delete_child(rabbit_sup, Name).
tcp_listener_started(Protocol, IPAddress, Port) ->
%% We need the ip to distinguish e.g. 0.0.0.0 and 127.0.0.1
%% We need the host so we can distinguish multiple instances of the above
%% in a cluster.
ok = mnesia:dirty_write(
rabbit_listener,
#listener{node = node(),
protocol = Protocol,
host = tcp_host(IPAddress),
ip_address = IPAddress,
port = Port}).
tcp_listener_stopped(Protocol, IPAddress, Port) ->
ok = mnesia:dirty_delete_object(
rabbit_listener,
#listener{node = node(),
protocol = Protocol,
host = tcp_host(IPAddress),
ip_address = IPAddress,
port = Port}).
active_listeners() ->
rabbit_misc:dirty_read_all(rabbit_listener).
node_listeners(Node) ->
mnesia:dirty_read(rabbit_listener, Node).
on_node_down(Node) ->
ok = mnesia:dirty_delete(rabbit_listener, Node).
start_client(Sock, SockTransform) ->
{ok, _Child, Reader} = supervisor:start_child(rabbit_tcp_client_sup, []),
ok = rabbit_net:controlling_process(Sock, Reader),
Reader ! {go, Sock, SockTransform},
Reader.
start_client(Sock) ->
start_client(Sock, fun (S) -> {ok, S} end).
start_ssl_client(SslOpts, Sock) ->
start_client(
Sock,
fun (Sock1) ->
case catch ssl:ssl_accept(Sock1, SslOpts, ?SSL_TIMEOUT * 1000) of
{ok, SslSock} ->
rabbit_log:info("upgraded TCP connection ~p to SSL~n",
[self()]),
{ok, #ssl_socket{tcp = Sock1, ssl = SslSock}};
{error, Reason} ->
{error, {ssl_upgrade_error, Reason}};
{'EXIT', Reason} ->
{error, {ssl_upgrade_failure, Reason}}
end
end).
connections() ->
[rabbit_connection_sup:reader(ConnSup) ||
Node <- rabbit_mnesia:running_clustered_nodes(),
{_, ConnSup, supervisor, _}
<- supervisor:which_children({rabbit_tcp_client_sup, Node})].
connection_info_keys() -> rabbit_reader:info_keys().
connection_info(Pid) -> rabbit_reader:info(Pid).
connection_info(Pid, Items) -> rabbit_reader:info(Pid, Items).
connection_info_all() -> cmap(fun (Q) -> connection_info(Q) end).
connection_info_all(Items) -> cmap(fun (Q) -> connection_info(Q, Items) end).
close_connection(Pid, Explanation) ->
case lists:member(Pid, connections()) of
true -> rabbit_reader:shutdown(Pid, Explanation);
false -> throw({error, {not_a_connection_pid, Pid}})
end.
%%--------------------------------------------------------------------
tcp_host({0,0,0,0}) ->
hostname();
tcp_host({0,0,0,0,0,0,0,0}) ->
hostname();
tcp_host(IPAddress) ->
case inet:gethostbyaddr(IPAddress) of
{ok, #hostent{h_name = Name}} -> Name;
{error, _Reason} -> rabbit_misc:ntoa(IPAddress)
end.
hostname() ->
{ok, Hostname} = inet:gethostname(),
case inet:gethostbyname(Hostname) of
{ok, #hostent{h_name = Name}} -> Name;
{error, _Reason} -> Hostname
end.
cmap(F) -> rabbit_misc:filter_exit_map(F, connections()).
%%--------------------------------------------------------------------
%% There are three kinds of machine (for our purposes).
%%
%% * Those which treat IPv4 addresses as a special kind of IPv6 address
%% ("Single stack")
%% - Linux by default, Windows Vista and later
%% - We also treat any (hypothetical?) IPv6-only machine the same way
%% * Those which consider IPv6 and IPv4 to be completely separate things
%% ("Dual stack")
%% - OpenBSD, Windows XP / 2003, Linux if so configured
%% * Those which do not support IPv6.
%% - Ancient/weird OSes, Linux if so configured
%%
%% How to reconfigure Linux to test this:
%% Single stack (default):
%% echo 0 > /proc/sys/net/ipv6/bindv6only
%% Dual stack:
%% echo 1 > /proc/sys/net/ipv6/bindv6only
%% IPv4 only:
%% add ipv6.disable=1 to GRUB_CMDLINE_LINUX_DEFAULT in /etc/default/grub then
%% sudo update-grub && sudo reboot
%%
%% This matters in (and only in) the case where the sysadmin (or the
%% app descriptor) has only supplied a port and we wish to bind to
%% "all addresses". This means different things depending on whether
%% we're single or dual stack. On single stack binding to "::"
%% implicitly includes all IPv4 addresses, and subsequently attempting
%% to bind to "0.0.0.0" will fail. On dual stack, binding to "::" will
%% only bind to IPv6 addresses, and we need another listener bound to
%% "0.0.0.0" for IPv4. Finally, on IPv4-only systems we of course only
%% want to bind to "0.0.0.0".
%%
%% Unfortunately it seems there is no way to detect single vs dual stack
%% apart from attempting to bind to the port.
port_to_listeners(Port) ->
IPv4 = {"0.0.0.0", Port, inet},
IPv6 = {"::", Port, inet6},
case ipv6_status(?FIRST_TEST_BIND_PORT) of
single_stack -> [IPv6];
ipv6_only -> [IPv6];
dual_stack -> [IPv6, IPv4];
ipv4_only -> [IPv4]
end.
ipv6_status(TestPort) ->
IPv4 = [inet, {ip, {0,0,0,0}}],
IPv6 = [inet6, {ip, {0,0,0,0,0,0,0,0}}],
case gen_tcp:listen(TestPort, IPv6) of
{ok, LSock6} ->
case gen_tcp:listen(TestPort, IPv4) of
{ok, LSock4} ->
%% Dual stack
gen_tcp:close(LSock6),
gen_tcp:close(LSock4),
dual_stack;
%% Checking the error here would only let us
%% distinguish single stack IPv6 / IPv4 vs IPv6 only,
%% which we figure out below anyway.
{error, _} ->
gen_tcp:close(LSock6),
case gen_tcp:listen(TestPort, IPv4) of
%% Single stack
{ok, LSock4} -> gen_tcp:close(LSock4),
single_stack;
%% IPv6-only machine. Welcome to the future.
{error, eafnosupport} -> ipv6_only;
%% Dual stack machine with something already
%% on IPv4.
{error, _} -> ipv6_status(TestPort + 1)
end
end;
{error, eafnosupport} ->
%% IPv4-only machine. Welcome to the 90s.
ipv4_only;
{error, _} ->
%% Port in use
ipv6_status(TestPort + 1)
end.
|