%%%---------------------------------------------------------------------- %%% File : tls.erl %%% Author : Alexey Shchepin %%% Purpose : Interface to openssl %%% Created : 24 Jul 2004 by Alexey Shchepin %%% Id : $Id$ %%%---------------------------------------------------------------------- -module(tls). -author('alexey@sevcom.net'). -vsn('$Revision$ '). -behaviour(gen_server). -export([start/0, start_link/0, tcp_to_tls/2, tls_to_tcp/1, send/2, recv/2, recv/3, recv_data/2, close/1, test/0]). %% Internal exports, call-back functions. -export([init/1, handle_call/3, handle_cast/2, handle_info/2, code_change/3, terminate/2]). -define(SET_CERTIFICATE_FILE_ACCEPT, 1). -define(SET_CERTIFICATE_FILE_CONNECT, 2). -define(SET_ENCRYPTED_INPUT, 3). -define(SET_DECRYPTED_OUTPUT, 4). -define(GET_ENCRYPTED_OUTPUT, 5). -define(GET_DECRYPTED_INPUT, 6). -record(tlssock, {tcpsock, tlsport}). start() -> gen_server:start({local, ?MODULE}, ?MODULE, [], []). start_link() -> gen_server:start_link({local, ?MODULE}, ?MODULE, [], []). init([]) -> ok = erl_ddll:load_driver(ejabberd:get_so_path(), tls_drv), Port = open_port({spawn, tls_drv}, [binary]), Res = port_control(Port, ?SET_CERTIFICATE_FILE_ACCEPT, "./ssl.pem" ++ [0]), case Res of <<0>> -> %ets:new(iconv_table, [set, public, named_table]), %ets:insert(iconv_table, {port, Port}), {ok, Port}; <<1, Error/binary>> -> {error, binary_to_list(Error)} end. %%% -------------------------------------------------------- %%% The call-back functions. %%% -------------------------------------------------------- handle_call(_, _, State) -> {noreply, State}. handle_cast(_, State) -> {noreply, State}. handle_info({'EXIT', Pid, Reason}, Port) -> {noreply, Port}; handle_info({'EXIT', Port, Reason}, Port) -> {stop, {port_died, Reason}, Port}; handle_info(_, State) -> {noreply, State}. code_change(OldVsn, State, Extra) -> {ok, State}. terminate(_Reason, Port) -> Port ! {self, close}, ok. tcp_to_tls(TCPSocket, Options) -> case lists:keysearch(certfile, 1, Options) of {value, {certfile, CertFile}} -> ok = erl_ddll:load_driver(ejabberd:get_so_path(), tls_drv), Port = open_port({spawn, tls_drv}, [binary]), Command = case lists:member(connect, Options) of true -> ?SET_CERTIFICATE_FILE_CONNECT; false -> ?SET_CERTIFICATE_FILE_ACCEPT end, case port_control(Port, Command, CertFile ++ [0]) of <<0>> -> {ok, #tlssock{tcpsock = TCPSocket, tlsport = Port}}; <<1, Error/binary>> -> {error, binary_to_list(Error)} end; false -> {error, no_certfile} end. tls_to_tcp(#tlssock{tcpsock = TCPSocket, tlsport = Port}) -> port_close(Port), TCPSocket. recv(Socket, Length) -> recv(Socket, Length, infinity). recv(#tlssock{tcpsock = TCPSocket, tlsport = Port} = TLSSock, Length, Timeout) -> case gen_tcp:recv(TCPSocket, Length, Timeout) of {ok, Packet} -> recv_data(TLSSock, Packet); {error, _Reason} = Error -> Error end. recv_data(#tlssock{tcpsock = TCPSocket, tlsport = Port}, Packet) -> case port_control(Port, ?SET_ENCRYPTED_INPUT, Packet) of <<0>> -> case port_control(Port, ?GET_DECRYPTED_INPUT, []) of <<0, In/binary>> -> case port_control(Port, ?GET_ENCRYPTED_OUTPUT, []) of <<0, Out/binary>> -> case gen_tcp:send(TCPSocket, Out) of ok -> {ok, In}; Error -> Error end; <<1, Error/binary>> -> {error, binary_to_list(Error)} end; <<1, Error/binary>> -> {error, binary_to_list(Error)} end; <<1, Error/binary>> -> {error, binary_to_list(Error)} end. send(#tlssock{tcpsock = TCPSocket, tlsport = Port}, Packet) -> case port_control(Port, ?SET_DECRYPTED_OUTPUT, Packet) of <<0>> -> case port_control(Port, ?GET_ENCRYPTED_OUTPUT, []) of <<0, Out/binary>> -> gen_tcp:send(TCPSocket, Out); <<1, Error/binary>> -> {error, binary_to_list(Error)} end; <<1, Error/binary>> -> {error, binary_to_list(Error)}; <<2>> -> % Dirty hack receive after 100 -> ok end, send(#tlssock{tcpsock = TCPSocket, tlsport = Port}, Packet) end. close(#tlssock{tcpsock = TCPSocket, tlsport = Port}) -> gen_tcp:close(TCPSocket), port_close(Port). test() -> ok = erl_ddll:load_driver(ejabberd:get_so_path(), tls_drv), Port = open_port({spawn, tls_drv}, [binary]), io:format("open_port: ~p~n", [Port]), PCRes = port_control(Port, ?SET_CERTIFICATE_FILE_ACCEPT, "./ssl.pem" ++ [0]), io:format("port_control: ~p~n", [PCRes]), {ok, ListenSocket} = gen_tcp:listen(1234, [binary, {packet, 0}, {active, true}, {reuseaddr, true}, {nodelay, true}]), io:format("listen: ~p~n", [ListenSocket]), {ok, Socket} = gen_tcp:accept(ListenSocket), io:format("accept: ~p~n", [Socket]), loop(Port, Socket). loop(Port, Socket) -> receive {tcp, Socket, Data} -> %io:format("read: ~p~n", [Data]), Res = port_control(Port, ?SET_ENCRYPTED_INPUT, Data), io:format("SET_ENCRYPTED_INPUT: ~p~n", [Res]), DIRes = port_control(Port, ?GET_DECRYPTED_INPUT, Data), io:format("GET_DECRYPTED_INPUT: ~p~n", [DIRes]), case DIRes of <<0, In/binary>> -> io:format("input: ~s~n", [binary_to_list(In)]); <<1, DIError/binary>> -> io:format("GET_DECRYPTED_INPUT error: ~p~n", [binary_to_list(DIError)]) end, EORes = port_control(Port, ?GET_ENCRYPTED_OUTPUT, Data), io:format("GET_ENCRYPTED_OUTPUT: ~p~n", [EORes]), case EORes of <<0, Out/binary>> -> gen_tcp:send(Socket, Out); <<1, EOError/binary>> -> io:format("GET_ENCRYPTED_OUTPUT error: ~p~n", [binary_to_list(EOError)]) end, loop(Port, Socket); Msg -> io:format("receive: ~p~n", [Msg]), loop(Port, Socket) end.