%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2011-2011. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% 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.
%%
%% %CopyrightEnd%
%%
-module(ssl_tls_dist_proxy).
-export([listen/1, accept/1, connect/2, get_tcp_address/1]).
-export([init/1, start_link/0, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3, ssl_options/2]).
-include_lib("kernel/include/net_address.hrl").
-record(state,
{listen,
accept_loop
}).
-define(PPRE, 4).
-define(PPOST, 4).
%%====================================================================
%% Internal application API
%%====================================================================
listen(Name) ->
gen_server:call(?MODULE, {listen, Name}, infinity).
accept(Listen) ->
gen_server:call(?MODULE, {accept, Listen}, infinity).
connect(Ip, Port) ->
gen_server:call(?MODULE, {connect, Ip, Port}, infinity).
%%====================================================================
%% gen_server callbacks
%%====================================================================
start_link() ->
gen_server:start_link({local, ?MODULE}, ?MODULE, [], []).
init([]) ->
process_flag(priority, max),
{ok, #state{}}.
handle_call({listen, Name}, _From, State) ->
case gen_tcp:listen(0, [{active, false}, {packet,?PPRE}]) of
{ok, Socket} ->
{ok, World} = gen_tcp:listen(0, [{active, false}, binary, {packet,?PPRE}]),
{ok, TcpAddress} = get_tcp_address(Socket),
{ok, WorldTcpAddress} = get_tcp_address(World),
{_,Port} = WorldTcpAddress#net_address.address,
{ok, Creation} = erl_epmd:register_node(Name, Port),
{reply, {ok, {Socket, TcpAddress, Creation}},
State#state{listen={Socket, World}}};
Error ->
{reply, Error, State}
end;
handle_call({accept, Listen}, {From, _}, State = #state{listen={_, World}}) ->
Self = self(),
ErtsPid = spawn_link(fun() -> accept_loop(Self, erts, Listen, From) end),
WorldPid = spawn_link(fun() -> accept_loop(Self, world, World, Listen) end),
{reply, ErtsPid, State#state{accept_loop={ErtsPid, WorldPid}}};
handle_call({connect, Ip, Port}, {From, _}, State) ->
Me = self(),
Pid = spawn_link(fun() -> setup_proxy(Ip, Port, Me) end),
receive
{Pid, go_ahead, LPort} ->
Res = {ok, Socket} = try_connect(LPort),
case gen_tcp:controlling_process(Socket, From) of
{error, badarg} = Error -> {reply, Error, State}; % From is dead anyway.
ok ->
flush_old_controller(From, Socket),
{reply, Res, State}
end;
{Pid, Error} ->
{reply, Error, State}
end;
handle_call(_What, _From, State) ->
{reply, ok, State}.
handle_cast(_What, State) ->
{noreply, State}.
handle_info(_What, State) ->
{noreply, State}.
terminate(_Reason, _St) ->
ok.
code_change(_OldVsn, St, _Extra) ->
{ok, St}.
%%--------------------------------------------------------------------
%%% Internal functions
%%--------------------------------------------------------------------
get_tcp_address(Socket) ->
case inet:sockname(Socket) of
{ok, Address} ->
{ok, Host} = inet:gethostname(),
NetAddress = #net_address{
address = Address,
host = Host,
protocol = proxy,
family = inet
},
{ok, NetAddress};
{error, _} = Error -> Error
end.
accept_loop(Proxy, erts = Type, Listen, Extra) ->
process_flag(priority, max),
case gen_tcp:accept(Listen) of
{ok, Socket} ->
Extra ! {accept,self(),Socket,inet,proxy},
receive
{_Kernel, controller, Pid} ->
ok = gen_tcp:controlling_process(Socket, Pid),
flush_old_controller(Pid, Socket),
Pid ! {self(), controller};
{_Kernel, unsupported_protocol} ->
exit(unsupported_protocol)
end;
Error ->
exit(Error)
end,
accept_loop(Proxy, Type, Listen, Extra);
accept_loop(Proxy, world = Type, Listen, Extra) ->
process_flag(priority, max),
case gen_tcp:accept(Listen) of
{ok, Socket} ->
Opts = get_ssl_options(server),
case ssl:ssl_accept(Socket, Opts) of
{ok, SslSocket} ->
PairHandler =
spawn_link(fun() ->
setup_connection(SslSocket, Extra)
end),
ok = ssl:controlling_process(SslSocket, PairHandler),
flush_old_controller(PairHandler, SslSocket);
_ ->
gen_tcp:close(Socket)
end;
Error ->
exit(Error)
end,
accept_loop(Proxy, Type, Listen, Extra).
try_connect(Port) ->
case gen_tcp:connect({127,0,0,1}, Port, [{active, false}, {packet,?PPRE}]) of
R = {ok, _S} ->
R;
{error, _R} ->
try_connect(Port)
end.
setup_proxy(Ip, Port, Parent) ->
process_flag(trap_exit, true),
Opts = get_ssl_options(client),
case ssl:connect(Ip, Port, [{active, true}, binary, {packet,?PPRE}] ++ Opts) of
{ok, World} ->
{ok, ErtsL} = gen_tcp:listen(0, [{active, true}, {ip, {127,0,0,1}}, binary, {packet,?PPRE}]),
{ok, #net_address{address={_,LPort}}} = get_tcp_address(ErtsL),
Parent ! {self(), go_ahead, LPort},
case gen_tcp:accept(ErtsL) of
{ok, Erts} ->
%% gen_tcp:close(ErtsL),
loop_conn_setup(World, Erts);
Err ->
Parent ! {self(), Err}
end;
Err ->
Parent ! {self(), Err}
end.
setup_connection(World, ErtsListen) ->
process_flag(trap_exit, true),
{ok, TcpAddress} = get_tcp_address(ErtsListen),
{_Addr,Port} = TcpAddress#net_address.address,
{ok, Erts} = gen_tcp:connect({127,0,0,1}, Port, [{active, true}, binary, {packet,?PPRE}]),
ssl:setopts(World, [{active,true}, {packet,?PPRE}]),
loop_conn_setup(World, Erts).
loop_conn_setup(World, Erts) ->
receive
{ssl, World, Data = <<$a, _/binary>>} ->
gen_tcp:send(Erts, Data),
ssl:setopts(World, [{packet,?PPOST}]),
inet:setopts(Erts, [{packet,?PPOST}]),
loop_conn(World, Erts);
{tcp, Erts, Data = <<$a, _/binary>>} ->
ssl:send(World, Data),
ssl:setopts(World, [{packet,?PPOST}]),
inet:setopts(Erts, [{packet,?PPOST}]),
loop_conn(World, Erts);
{ssl, World, Data = <<_, _/binary>>} ->
gen_tcp:send(Erts, Data),
loop_conn_setup(World, Erts);
{tcp, Erts, Data = <<_, _/binary>>} ->
ssl:send(World, Data),
loop_conn_setup(World, Erts);
{ssl, World, Data} ->
gen_tcp:send(Erts, Data),
loop_conn_setup(World, Erts);
{tcp, Erts, Data} ->
ssl:send(World, Data),
loop_conn_setup(World, Erts);
{tcp_closed, Erts} ->
ssl:close(World);
{ssl_closed, World} ->
gen_tcp:close(Erts)
end.
loop_conn(World, Erts) ->
receive
{ssl, World, Data} ->
gen_tcp:send(Erts, Data),
loop_conn(World, Erts);
{tcp, Erts, Data} ->
ssl:send(World, Data),
loop_conn(World, Erts);
{tcp_closed, Erts} ->
ssl:close(World);
{ssl_closed, World} ->
gen_tcp:close(Erts)
end.
get_ssl_options(Type) ->
case init:get_argument(ssl_dist_opt) of
{ok, Args} ->
[{erl_dist, true} | ssl_options(Type, lists:append(Args))];
_ ->
[{erl_dist, true}]
end.
ssl_options(_,[]) ->
[];
ssl_options(server, ["client_" ++ _, _Value |T]) ->
ssl_options(server,T);
ssl_options(client, ["server_" ++ _, _Value|T]) ->
ssl_options(client,T);
ssl_options(server, ["server_certfile", Value|T]) ->
[{certfile, Value} | ssl_options(server,T)];
ssl_options(client, ["client_certfile", Value | T]) ->
[{certfile, Value} | ssl_options(client,T)];
ssl_options(server, ["server_cacertfile", Value|T]) ->
[{cacertfile, Value} | ssl_options(server,T)];
ssl_options(client, ["client_cacertfile", Value|T]) ->
[{cacertfile, Value} | ssl_options(client,T)];
ssl_options(server, ["server_keyfile", Value|T]) ->
[{keyfile, Value} | ssl_options(server,T)];
ssl_options(client, ["client_keyfile", Value|T]) ->
[{keyfile, Value} | ssl_options(client,T)];
ssl_options(server, ["server_password", Value|T]) ->
[{password, Value} | ssl_options(server,T)];
ssl_options(client, ["client_password", Value|T]) ->
[{password, Value} | ssl_options(client,T)];
ssl_options(server, ["server_verify", Value|T]) ->
[{verify, atomize(Value)} | ssl_options(server,T)];
ssl_options(client, ["client_verify", Value|T]) ->
[{verify, atomize(Value)} | ssl_options(client,T)];
ssl_options(server, ["server_reuse_sessions", Value|T]) ->
[{reuse_sessions, atomize(Value)} | ssl_options(server,T)];
ssl_options(client, ["client_reuse_sessions", Value|T]) ->
[{reuse_sessions, atomize(Value)} | ssl_options(client,T)];
ssl_options(server, ["server_secure_renegotiate", Value|T]) ->
[{secure_renegotiate, atomize(Value)} | ssl_options(server,T)];
ssl_options(client, ["client_secure_renegotiate", Value|T]) ->
[{secure_renegotiate, atomize(Value)} | ssl_options(client,T)];
ssl_options(server, ["server_depth", Value|T]) ->
[{depth, list_to_integer(Value)} | ssl_options(server,T)];
ssl_options(client, ["client_depth", Value|T]) ->
[{depth, list_to_integer(Value)} | ssl_options(client,T)];
ssl_options(server, ["server_hibernate_after", Value|T]) ->
[{hibernate_after, list_to_integer(Value)} | ssl_options(server,T)];
ssl_options(client, ["client_hibernate_after", Value|T]) ->
[{hibernate_after, list_to_integer(Value)} | ssl_options(client,T)];
ssl_options(server, ["server_ciphers", Value|T]) ->
[{ciphers, Value} | ssl_options(server,T)];
ssl_options(client, ["client_ciphers", Value|T]) ->
[{ciphers, Value} | ssl_options(client,T)];
ssl_options(server, ["server_dhfile", Value|T]) ->
[{dhfile, Value} | ssl_options(server,T)];
ssl_options(server, ["server_fail_if_no_peer_cert", Value|T]) ->
[{fail_if_no_peer_cert, atomize(Value)} | ssl_options(server,T)];
ssl_options(_,_) ->
exit(malformed_ssl_dist_opt).
atomize(List) when is_list(List) ->
list_to_atom(List);
atomize(Atom) when is_atom(Atom) ->
Atom.
flush_old_controller(Pid, Socket) ->
receive
{tcp, Socket, Data} ->
Pid ! {tcp, Socket, Data},
flush_old_controller(Pid, Socket);
{tcp_closed, Socket} ->
Pid ! {tcp_closed, Socket},
flush_old_controller(Pid, Socket);
{ssl, Socket, Data} ->
Pid ! {ssl, Socket, Data},
flush_old_controller(Pid, Socket);
{ssl_closed, Socket} ->
Pid ! {ssl_closed, Socket},
flush_old_controller(Pid, Socket)
after 0 ->
ok
end.