%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1999-2010. 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%
%%
%%
%%% Purpose : Main API module for SSL.
-module(ssl).
-export([start/0, start/1, stop/0, transport_accept/1,
transport_accept/2, ssl_accept/1, ssl_accept/2, ssl_accept/3,
ciphers/0, cipher_suites/0, cipher_suites/1, close/1, shutdown/2,
connect/3, connect/2, connect/4, connection_info/1,
controlling_process/2, listen/2, pid/1, peername/1, recv/2, recv/3,
send/2, getopts/2, setopts/2, seed/1, sockname/1, peercert/1,
peercert/2, version/0, versions/0, session_info/1, format_error/1,
renegotiate/1]).
%% Should be deprecated as soon as old ssl is removed
%%-deprecated({pid, 1, next_major_release}).
-include("ssl_int.hrl").
-include("ssl_internal.hrl").
-include("ssl_record.hrl").
-record(config, {ssl, %% SSL parameters
inet_user, %% User set inet options
emulated, %% #socket_option{} emulated
inet_ssl, %% inet options for internal ssl socket
cb %% Callback info
}).
%%--------------------------------------------------------------------
%% Function: start([, Type]) -> ok
%%
%% Type = permanent | transient | temporary
%% Vsns = [Vsn]
%% Vsn = ssl3 | tlsv1 | 'tlsv1.1'
%%
%% Description: Starts the ssl application. Default type
%% is temporary. see application(3)
%%--------------------------------------------------------------------
start() ->
application:start(ssl).
start(Type) ->
application:start(ssl, Type).
%%--------------------------------------------------------------------
%% Function: stop() -> ok
%%
%% Description: Stops the ssl application.
%%--------------------------------------------------------------------
stop() ->
application:stop(ssl).
%%--------------------------------------------------------------------
%% Function: connect(Address, Port, Options[, Timeout]) -> {ok, Socket}
%%
%% Description: Connect to a ssl server.
%%--------------------------------------------------------------------
connect(Socket, SslOptions) when is_port(Socket) ->
connect(Socket, SslOptions, infinity).
connect(Socket, SslOptions0, Timeout) when is_port(Socket) ->
EmulatedOptions = emulated_options(),
{ok, InetValues} = inet:getopts(Socket, EmulatedOptions),
inet:setopts(Socket, internal_inet_values()),
try handle_options(SslOptions0 ++ InetValues, client) of
{ok, #config{cb=CbInfo, ssl=SslOptions, emulated=EmOpts}} ->
case inet:peername(Socket) of
{ok, {Address, Port}} ->
ssl_connection:connect(Address, Port, Socket,
{SslOptions, EmOpts},
self(), CbInfo, Timeout);
{error, Error} ->
{error, Error}
end
catch
_:{error, Reason} ->
{error, Reason}
end;
connect(Address, Port, Options) ->
connect(Address, Port, Options, infinity).
connect(Address, Port, Options0, Timeout) ->
case proplists:get_value(ssl_imp, Options0, old) of
new ->
new_connect(Address, Port, Options0, Timeout);
old ->
%% Allow the option reuseaddr to be present
%% so that new and old ssl can be run by the same
%% code, however the option will be ignored by old ssl
%% that hardcodes reuseaddr to true in its portprogram.
Options1 = proplists:delete(reuseaddr, Options0),
Options = proplists:delete(ssl_imp, Options1),
old_connect(Address, Port, Options, Timeout);
Value ->
{error, {eoptions, {ssl_imp, Value}}}
end.
%%--------------------------------------------------------------------
%% Function: listen(Port, Options) -> {ok, ListenSock} | {error, Reason}
%%
%% Description: Creates a ssl listen socket.
%%--------------------------------------------------------------------
listen(_Port, []) ->
{error, enooptions};
listen(Port, Options0) ->
case proplists:get_value(ssl_imp, Options0, old) of
new ->
new_listen(Port, Options0);
old ->
%% Allow the option reuseaddr to be present
%% so that new and old ssl can be run by the same
%% code, however the option will be ignored by old ssl
%% that hardcodes reuseaddr to true in its portprogram.
Options1 = proplists:delete(reuseaddr, Options0),
Options = proplists:delete(ssl_imp, Options1),
old_listen(Port, Options);
Value ->
{error, {eoptions, {ssl_imp, Value}}}
end.
%%--------------------------------------------------------------------
%% Function: transport_accept(ListenSocket[, Timeout]) -> {ok, Socket}.
%%
%% Description: Performs transport accept on a ssl listen socket
%%--------------------------------------------------------------------
transport_accept(ListenSocket) ->
transport_accept(ListenSocket, infinity).
transport_accept(#sslsocket{pid = {ListenSocket, #config{cb=CbInfo, ssl=SslOpts}},
fd = new_ssl} = SslSocket, Timeout) ->
%% The setopt could have been invoked on the listen socket
%% and options should be inherited.
EmOptions = emulated_options(),
{ok, InetValues} = inet:getopts(ListenSocket, EmOptions),
{CbModule,_,_} = CbInfo,
case CbModule:accept(ListenSocket, Timeout) of
{ok, Socket} ->
inet:setopts(Socket, internal_inet_values()),
{ok, Port} = inet:port(Socket),
ConnArgs = [server, "localhost", Port, Socket,
{SslOpts, socket_options(InetValues)}, self(), CbInfo],
case ssl_connection_sup:start_child(ConnArgs) of
{ok, Pid} ->
CbModule:controlling_process(Socket, Pid),
{ok, SslSocket#sslsocket{pid = Pid}};
{error, Reason} ->
{error, Reason}
end;
{error, Reason} ->
{error, Reason}
end;
transport_accept(#sslsocket{} = ListenSocket, Timeout) ->
ensure_old_ssl_started(),
{ok, Pid} = ssl_broker:start_broker(acceptor),
ssl_broker:transport_accept(Pid, ListenSocket, Timeout).
%%--------------------------------------------------------------------
%% Function: ssl_accept(ListenSocket[, Timeout]) -> {ok, Socket} |
%% {error, Reason}
%%
%% Description: Performs accept on a ssl listen socket. e.i. performs
%% ssl handshake.
%%--------------------------------------------------------------------
ssl_accept(ListenSocket) ->
ssl_accept(ListenSocket, infinity).
ssl_accept(#sslsocket{pid = Pid, fd = new_ssl}, Timeout) ->
gen_fsm:send_event(Pid, socket_control),
try gen_fsm:sync_send_all_state_event(Pid, started, Timeout) of
connected ->
ok;
{error, _} = Error ->
Error
catch
exit:{noproc, _} ->
{error, closed};
exit:{timeout, _} ->
{error, timeout};
exit:{normal, _} ->
{error, closed}
end;
ssl_accept(ListenSocket, SslOptions) when is_port(ListenSocket) ->
ssl_accept(ListenSocket, SslOptions, infinity);
%% Old ssl
ssl_accept(#sslsocket{} = Socket, Timeout) ->
ensure_old_ssl_started(),
ssl_broker:ssl_accept(Socket, Timeout).
ssl_accept(Socket, SslOptions, Timeout) when is_port(Socket) ->
EmulatedOptions = emulated_options(),
{ok, InetValues} = inet:getopts(Socket, EmulatedOptions),
inet:setopts(Socket, internal_inet_values()),
try handle_options(SslOptions ++ InetValues, server) of
{ok, #config{cb=CbInfo,ssl=SslOpts, emulated=EmOpts}} ->
{ok, Port} = inet:port(Socket),
ssl_connection:accept(Port, Socket,
{SslOpts, EmOpts},
self(), CbInfo, Timeout)
catch
Error = {error, _Reason} -> Error
end.
%%--------------------------------------------------------------------
%% Function: close() -> ok
%%
%% Description: Close a ssl connection
%%--------------------------------------------------------------------
close(#sslsocket{pid = {ListenSocket, #config{cb={CbMod,_, _}}}, fd = new_ssl}) ->
CbMod:close(ListenSocket);
close(#sslsocket{pid = Pid, fd = new_ssl}) ->
ssl_connection:close(Pid);
close(Socket = #sslsocket{}) ->
ensure_old_ssl_started(),
ssl_broker:close(Socket).
%%--------------------------------------------------------------------
%% Function: send(Socket, Data) -> ok
%%
%% Description: Sends data over the ssl connection
%%--------------------------------------------------------------------
send(#sslsocket{pid = Pid, fd = new_ssl}, Data) ->
ssl_connection:send(Pid, Data);
send(#sslsocket{} = Socket, Data) ->
ensure_old_ssl_started(),
ssl_broker:send(Socket, Data).
%%--------------------------------------------------------------------
%% Function: recv(Socket, Length [,Timeout]) -> {ok, Data} | {error, reason}
%%
%% Description: Receives data when active = false
%%--------------------------------------------------------------------
recv(Socket, Length) ->
recv(Socket, Length, infinity).
recv(#sslsocket{pid = Pid, fd = new_ssl}, Length, Timeout) ->
ssl_connection:recv(Pid, Length, Timeout);
recv(Socket = #sslsocket{}, Length, Timeout) ->
ensure_old_ssl_started(),
ssl_broker:recv(Socket, Length, Timeout).
%%--------------------------------------------------------------------
%% Function: controlling_process(Socket, NewOwner) -> ok | {error, Reason}
%%
%% Description: Changes process that receives the messages when active = true
%% or once.
%%--------------------------------------------------------------------
controlling_process(#sslsocket{pid = Pid, fd = new_ssl}, NewOwner)
when is_pid(Pid) ->
ssl_connection:new_user(Pid, NewOwner);
controlling_process(Socket, NewOwner) when is_pid(NewOwner) ->
ensure_old_ssl_started(),
ssl_broker:controlling_process(Socket, NewOwner).
%%--------------------------------------------------------------------
%% Function: connection_info(Socket) -> {ok, {Protocol, CipherSuite}} |
%% {error, Reason}
%% Protocol = sslv3 | tlsv1 | tlsv1.1
%% CipherSuite = {KeyExchange, Chipher, Hash, Exportable}
%%
%%
%% Description: Returns ssl protocol and cipher used for the connection
%%--------------------------------------------------------------------
connection_info(#sslsocket{pid = Pid, fd = new_ssl}) ->
ssl_connection:info(Pid);
connection_info(#sslsocket{} = Socket) ->
ensure_old_ssl_started(),
ssl_broker:connection_info(Socket).
%%--------------------------------------------------------------------
%% Function: peercert(Socket[, Opts]) -> {ok, Cert} | {error, Reason}
%%
%% Description:
%%--------------------------------------------------------------------
peercert(Socket) ->
peercert(Socket, []).
peercert(#sslsocket{pid = Pid, fd = new_ssl}, Opts) ->
case ssl_connection:peer_certificate(Pid) of
{ok, undefined} ->
{error, no_peercert};
{ok, BinCert} ->
PKOpts = [case Opt of ssl -> otp; pkix -> plain end ||
Opt <- Opts, Opt =:= ssl orelse Opt =:= pkix],
case PKOpts of
[Opt] ->
public_key:pkix_decode_cert(BinCert, Opt);
[] ->
{ok, BinCert}
end;
{error, Reason} ->
{error, Reason}
end;
peercert(#sslsocket{} = Socket, Opts) ->
ensure_old_ssl_started(),
case ssl_broker:peercert(Socket) of
{ok, Bin} ->
ssl_pkix:decode_cert(Bin, Opts);
{error, Reason} ->
{error, Reason}
end.
%%--------------------------------------------------------------------
%% Function: peername(Socket) -> {ok, {Address, Port}} | {error, Reason}
%%
%% Description:
%%--------------------------------------------------------------------
peername(#sslsocket{fd = new_ssl, pid = Pid}) ->
ssl_connection:peername(Pid);
peername(#sslsocket{} = Socket) ->
ensure_old_ssl_started(),
ssl_broker:peername(Socket).
%%--------------------------------------------------------------------
%% Function: cipher_suites() ->
%%
%% Description:
%%--------------------------------------------------------------------
cipher_suites() ->
cipher_suites(erlang).
cipher_suites(erlang) ->
Version = ssl_record:highest_protocol_version([]),
[ssl_cipher:suite_definition(S) || S <- ssl_cipher:suites(Version)];
cipher_suites(openssl) ->
Version = ssl_record:highest_protocol_version([]),
[ssl_cipher:openssl_suite_name(S) || S <- ssl_cipher:suites(Version)].
%%--------------------------------------------------------------------
%% Function: getopts(Socket, OptTags) -> {ok, Options} | {error, Reason}
%%
%% Description:
%%--------------------------------------------------------------------
getopts(#sslsocket{fd = new_ssl, pid = Pid}, OptTags) when is_pid(Pid) ->
ssl_connection:get_opts(Pid, OptTags);
getopts(#sslsocket{fd = new_ssl, pid = {ListenSocket, _}}, OptTags) ->
inet:getopts(ListenSocket, OptTags);
getopts(#sslsocket{} = Socket, Options) ->
ensure_old_ssl_started(),
ssl_broker:getopts(Socket, Options).
%%--------------------------------------------------------------------
%% Function: setopts(Socket, Options) -> ok | {error, Reason}
%%
%% Description:
%%--------------------------------------------------------------------
setopts(#sslsocket{fd = new_ssl, pid = Pid}, Opts0) when is_pid(Pid) ->
Opts = proplists:expand([{binary, [{mode, binary}]},
{list, [{mode, list}]}], Opts0),
ssl_connection:set_opts(Pid, Opts);
setopts(#sslsocket{fd = new_ssl, pid = {ListenSocket, _}}, OptTags) ->
inet:setopts(ListenSocket, OptTags);
setopts(#sslsocket{} = Socket, Options) ->
ensure_old_ssl_started(),
ssl_broker:setopts(Socket, Options).
%%---------------------------------------------------------------
%% Function: shutdown(Socket, How) -> ok | {error, Reason}
%%
%% Description: Same as gen_tcp:shutdown/2
%%--------------------------------------------------------------------
shutdown(#sslsocket{pid = {ListenSocket, #config{cb={CbMod,_, _}}}, fd = new_ssl}, How) ->
CbMod:shutdown(ListenSocket, How);
shutdown(#sslsocket{pid = Pid, fd = new_ssl}, How) ->
ssl_connection:shutdown(Pid, How).
%%--------------------------------------------------------------------
%% Function: sockname(Socket) -> {ok, {Address, Port}} | {error, Reason}
%%
%% Description: Same as inet:sockname/1
%%--------------------------------------------------------------------
sockname(#sslsocket{fd = new_ssl, pid = {ListenSocket, _}}) ->
inet:sockname(ListenSocket);
sockname(#sslsocket{fd = new_ssl, pid = Pid}) ->
ssl_connection:sockname(Pid);
sockname(#sslsocket{} = Socket) ->
ensure_old_ssl_started(),
ssl_broker:sockname(Socket).
%%---------------------------------------------------------------
%% Function: seed(Data) -> ok | {error, edata}
%%
%% Description:
%%--------------------------------------------------------------------
%% TODO: crypto:seed ?
seed(Data) ->
ensure_old_ssl_started(),
ssl_server:seed(Data).
%%---------------------------------------------------------------
%% Function: session_id(Socket) -> {ok, PropList} | {error, Reason}
%%
%% Description:
%%--------------------------------------------------------------------
session_info(#sslsocket{pid = Pid, fd = new_ssl}) ->
ssl_connection:session_info(Pid).
%%---------------------------------------------------------------
%% Function: versions() -> [{SslAppVer, SupportedSslVer, AvailableSslVsn}]
%%
%% SslAppVer = string() - t.ex: ssl-4.0
%% SupportedSslVer = [SslVer]
%% AvailableSslVsn = [SSLVer]
%% SSLVer = sslv3 | tlsv1 | 'tlsv1.1'
%%
%% Description: Returns a list of relevant versions.
%%--------------------------------------------------------------------
versions() ->
Vsns = ssl_record:supported_protocol_versions(),
SupportedVsns = [ssl_record:protocol_version(Vsn) || Vsn <- Vsns],
AvailableVsns = ?DEFAULT_SUPPORTED_VERSIONS,
[{ssl_app, ?VSN}, {supported, SupportedVsns}, {available, AvailableVsns}].
renegotiate(#sslsocket{pid = Pid, fd = new_ssl}) ->
ssl_connection:renegotiation(Pid).
%%%--------------------------------------------------------------
%%% Internal functions
%%%--------------------------------------------------------------------
new_connect(Address, Port, Options, Timeout) when is_list(Options) ->
try handle_options(Options, client) of
{ok, Config} ->
do_new_connect(Address,Port,Config,Timeout)
catch
throw:Error ->
Error
end.
do_new_connect(Address, Port,
#config{cb=CbInfo, inet_user=UserOpts, ssl=SslOpts,
emulated=EmOpts,inet_ssl=SocketOpts},
Timeout) ->
{CbModule, _, _} = CbInfo,
try CbModule:connect(Address, Port, SocketOpts, Timeout) of
{ok, Socket} ->
ssl_connection:connect(Address, Port, Socket, {SslOpts,EmOpts},
self(), CbInfo, Timeout);
{error, Reason} ->
{error, Reason}
catch
exit:{function_clause, _} ->
{error, {eoptions, {cb_info, CbInfo}}};
exit:{badarg, _} ->
{error,{eoptions, {inet_options, UserOpts}}}
end.
old_connect(Address, Port, Options, Timeout) ->
ensure_old_ssl_started(),
{ok, Pid} = ssl_broker:start_broker(connector),
ssl_broker:connect(Pid, Address, Port, Options, Timeout).
new_listen(Port, Options0) ->
try
{ok, Config} = handle_options(Options0, server),
#config{cb={CbModule, _, _},inet_user=Options} = Config,
case CbModule:listen(Port, Options) of
{ok, ListenSocket} ->
{ok, #sslsocket{pid = {ListenSocket, Config}, fd = new_ssl}};
Err = {error, _} ->
Err
end
catch
Error = {error, _} ->
Error
end.
old_listen(Port, Options) ->
ensure_old_ssl_started(),
{ok, Pid} = ssl_broker:start_broker(listener),
ssl_broker:listen(Pid, Port, Options).
handle_options(Opts0, Role) ->
Opts = proplists:expand([{binary, [{mode, binary}]},
{list, [{mode, list}]}], Opts0),
ReuseSessionFun = fun(_, _, _, _) -> true end,
AcceptBadCa = fun({bad_cert,unknown_ca}, Acc) -> Acc;
(Other, Acc) -> [Other | Acc]
end,
VerifyFun =
fun(ErrorList) ->
case lists:foldl(AcceptBadCa, [], ErrorList) of
[] -> true;
[_|_] -> false
end
end,
{Verify, FailIfNoPeerCert, CaCertDefault} =
%% Handle 0, 1, 2 for backwards compatibility
case proplists:get_value(verify, Opts, verify_none) of
0 ->
{verify_none, false, ca_cert_default(verify_none, Role)};
1 ->
{verify_peer, false, ca_cert_default(verify_peer, Role)};
2 ->
{verify_peer, true, ca_cert_default(verify_peer, Role)};
verify_none ->
{verify_none, false, ca_cert_default(verify_none, Role)};
verify_peer ->
{verify_peer, proplists:get_value(fail_if_no_peer_cert,
Opts, false),
ca_cert_default(verify_peer, Role)};
Value ->
throw({error, {eoptions, {verify, Value}}})
end,
CertFile = handle_option(certfile, Opts, ""),
SSLOptions = #ssl_options{
versions = handle_option(versions, Opts, []),
verify = validate_option(verify, Verify),
verify_fun = handle_option(verify_fun, Opts, VerifyFun),
fail_if_no_peer_cert = validate_option(fail_if_no_peer_cert,
FailIfNoPeerCert),
verify_client_once = handle_option(verify_client_once, Opts, false),
validate_extensions_fun = handle_option(validate_extensions_fun, Opts, undefined),
depth = handle_option(depth, Opts, 1),
certfile = CertFile,
keyfile = handle_option(keyfile, Opts, CertFile),
key = handle_option(key, Opts, undefined),
password = handle_option(password, Opts, ""),
cacertfile = handle_option(cacertfile, Opts, CaCertDefault),
dhfile = handle_option(dhfile, Opts, undefined),
ciphers = handle_option(ciphers, Opts, []),
%% Server side option
reuse_session = handle_option(reuse_session, Opts, ReuseSessionFun),
reuse_sessions = handle_option(reuse_sessions, Opts, true),
renegotiate_at = handle_option(renegotiate_at, Opts, ?DEFAULT_RENEGOTIATE_AT),
debug = handle_option(debug, Opts, [])
},
CbInfo = proplists:get_value(cb_info, Opts, {gen_tcp, tcp, tcp_closed}),
SslOptions = [versions, verify, verify_fun, validate_extensions_fun,
fail_if_no_peer_cert, verify_client_once,
depth, certfile, keyfile,
key, password, cacertfile, dhfile, ciphers,
debug, reuse_session, reuse_sessions, ssl_imp,
cb_info, renegotiate_at],
SockOpts = lists:foldl(fun(Key, PropList) ->
proplists:delete(Key, PropList)
end, Opts, SslOptions),
{SSLsock, Emulated} = emulated_options(SockOpts),
{ok, #config{ssl=SSLOptions, emulated=Emulated, inet_ssl=SSLsock,
inet_user=SockOpts, cb=CbInfo}}.
handle_option(OptionName, Opts, Default) ->
validate_option(OptionName,
proplists:get_value(OptionName, Opts, Default)).
validate_option(versions, Versions) ->
validate_versions(Versions, Versions);
validate_option(ssl_imp, Value) when Value == new; Value == old ->
Value;
validate_option(verify, Value)
when Value == verify_none; Value == verify_peer ->
Value;
validate_option(verify_fun, Value) when is_function(Value) ->
Value;
validate_option(fail_if_no_peer_cert, Value)
when Value == true; Value == false ->
Value;
validate_option(verify_client_once, Value)
when Value == true; Value == false ->
Value;
validate_option(validate_extensions_fun, Value) when Value == undefined; is_function(Value) ->
Value;
validate_option(depth, Value) when is_integer(Value),
Value >= 0, Value =< 255->
Value;
validate_option(certfile, Value) when is_list(Value) ->
Value;
validate_option(keyfile, Value) when is_list(Value) ->
Value;
validate_option(key, Value) when Value == undefined;
is_tuple(Value) ->
%% element(1, Value)=='RSAPrivateKey' ->
Value;
validate_option(password, Value) when is_list(Value) ->
Value;
%% certfile must be present in some cases otherwhise it can be set
%% to the empty string.
validate_option(cacertfile, undefined) ->
"";
validate_option(cacertfile, Value) when is_list(Value), Value =/= "" ->
Value;
validate_option(dhfile, undefined = Value) ->
Value;
validate_option(dhfile, Value) when is_list(Value), Value =/= "" ->
Value;
validate_option(ciphers, Value) when is_list(Value) ->
Version = ssl_record:highest_protocol_version([]),
try cipher_suites(Version, Value)
catch
exit:_ ->
throw({error, {eoptions, {ciphers, Value}}})
end;
validate_option(reuse_session, Value) when is_function(Value) ->
Value;
validate_option(reuse_sessions, Value) when Value == true;
Value == false ->
Value;
validate_option(renegotiate_at, Value) when is_integer(Value) ->
min(Value, ?DEFAULT_RENEGOTIATE_AT);
validate_option(debug, Value) when is_list(Value); Value == true ->
Value;
validate_option(Opt, Value) ->
throw({error, {eoptions, {Opt, Value}}}).
validate_versions([], Versions) ->
Versions;
validate_versions([Version | Rest], Versions) when Version == 'tlsv1.1';
Version == tlsv1;
Version == sslv3 ->
validate_versions(Rest, Versions);
validate_versions(Ver, Versions) ->
throw({error, {eoptions, {Ver, {versions, Versions}}}}).
validate_inet_option(mode, Value)
when Value =/= list, Value =/= binary ->
throw({error, {eoptions, {mode,Value}}});
validate_inet_option(packet, Value)
when not (is_atom(Value) orelse is_integer(Value)) ->
throw({error, {eoptions, {packet,Value}}});
validate_inet_option(packet_size, Value)
when not is_integer(Value) ->
throw({error, {eoptions, {packet_size,Value}}});
validate_inet_option(header, Value)
when not is_integer(Value) ->
throw({error, {eoptions, {header,Value}}});
validate_inet_option(active, Value)
when Value =/= true, Value =/= false, Value =/= once ->
throw({error, {eoptions, {active,Value}}});
validate_inet_option(_, _) ->
ok.
ca_cert_default(verify_none, _) ->
undefined;
%% Client may leave verification up to the user
ca_cert_default(verify_peer, client) ->
undefined;
%% Server that wants to verify_peer must have
%% some trusted certs.
ca_cert_default(verify_peer, server) ->
"".
emulated_options() ->
[mode, packet, active, header, packet_size].
internal_inet_values() ->
[{packet_size,0},{packet, 0},{header, 0},{active, false},{mode,binary}].
%%[{packet, ssl},{header, 0},{active, false},{mode,binary}].
socket_options(InetValues) ->
#socket_options{
mode = proplists:get_value(mode, InetValues),
header = proplists:get_value(header, InetValues),
active = proplists:get_value(active, InetValues),
packet = proplists:get_value(packet, InetValues),
packet_size = proplists:get_value(packet_size, InetValues)
}.
emulated_options(Opts) ->
emulated_options(Opts, internal_inet_values(), #socket_options{}).
emulated_options([{mode,Opt}|Opts], Inet, Emulated) ->
validate_inet_option(mode,Opt),
emulated_options(Opts, Inet, Emulated#socket_options{mode=Opt});
emulated_options([{header,Opt}|Opts], Inet, Emulated) ->
validate_inet_option(header,Opt),
emulated_options(Opts, Inet, Emulated#socket_options{header=Opt});
emulated_options([{active,Opt}|Opts], Inet, Emulated) ->
validate_inet_option(active,Opt),
emulated_options(Opts, Inet, Emulated#socket_options{active=Opt});
emulated_options([{packet,Opt}|Opts], Inet, Emulated) ->
validate_inet_option(packet,Opt),
emulated_options(Opts, Inet, Emulated#socket_options{packet=Opt});
emulated_options([{packet_size,Opt}|Opts], Inet, Emulated) ->
validate_inet_option(packet_size,Opt),
emulated_options(Opts, Inet, Emulated#socket_options{packet_size=Opt});
emulated_options([Opt|Opts], Inet, Emulated) ->
emulated_options(Opts, [Opt|Inet], Emulated);
emulated_options([], Inet,Emulated) ->
{Inet, Emulated}.
cipher_suites(Version, []) ->
ssl_cipher:suites(Version);
cipher_suites(Version, [{_,_,_,_}| _] = Ciphers0) ->
Ciphers = [ssl_cipher:suite(C) || C <- Ciphers0],
cipher_suites(Version, Ciphers);
cipher_suites(Version, [Cipher0 | _] = Ciphers0) when is_binary(Cipher0) ->
Supported = ssl_cipher:suites(Version),
case [Cipher || Cipher <- Ciphers0, lists:member(Cipher, Supported)] of
[] ->
Supported;
Ciphers ->
Ciphers
end;
cipher_suites(Version, [Head | _] = Ciphers0) when is_list(Head) ->
%% Format: ["RC4-SHA","RC4-MD5"]
Ciphers = [ssl_cipher:openssl_suite(C) || C <- Ciphers0],
cipher_suites(Version, Ciphers);
cipher_suites(Version, Ciphers0) ->
%% Format: "RC4-SHA:RC4-MD5"
Ciphers = [ssl_cipher:openssl_suite(C) || C <- string:tokens(Ciphers0, ":")],
cipher_suites(Version, Ciphers).
format_error({error, Reason}) ->
format_error(Reason);
format_error(closed) ->
"Connection closed for the operation in question.";
format_error(ebadsocket) ->
"Connection not found (internal error).";
format_error(ebadstate) ->
"Connection not in connect state (internal error).";
format_error(ebrokertype) ->
"Wrong broker type (internal error).";
format_error(ecacertfile) ->
"Own CA certificate file is invalid.";
format_error(ecertfile) ->
"Own certificate file is invalid.";
format_error(echaintoolong) ->
"The chain of certificates provided by peer is too long.";
format_error(ecipher) ->
"Own list of specified ciphers is invalid.";
format_error(ekeyfile) ->
"Own private key file is invalid.";
format_error(ekeymismatch) ->
"Own private key does not match own certificate.";
format_error(enoissuercert) ->
"Cannot find certificate of issuer of certificate provided by peer.";
format_error(enoservercert) ->
"Attempt to do accept without having set own certificate.";
format_error(enotlistener) ->
"Attempt to accept on a non-listening socket.";
format_error(enoproxysocket) ->
"No proxy socket found (internal error or max number of file "
"descriptors exceeded).";
format_error(enooptions) ->
"List of options is empty.";
format_error(enotstarted) ->
"The SSL application has not been started.";
format_error(eoptions) ->
"Invalid list of options.";
format_error(epeercert) ->
"Certificate provided by peer is in error.";
format_error(epeercertexpired) ->
"Certificate provided by peer has expired.";
format_error(epeercertinvalid) ->
"Certificate provided by peer is invalid.";
format_error(eselfsignedcert) ->
"Certificate provided by peer is self signed.";
format_error(esslaccept) ->
"Server SSL handshake procedure between client and server failed.";
format_error(esslconnect) ->
"Client SSL handshake procedure between client and server failed.";
format_error(esslerrssl) ->
"SSL protocol failure. Typically because of a fatal alert from peer.";
format_error(ewantconnect) ->
"Protocol wants to connect, which is not supported in this "
"version of the SSL application.";
format_error(ex509lookup) ->
"Protocol wants X.509 lookup, which is not supported in this "
"version of the SSL application.";
format_error({badcall, _Call}) ->
"Call not recognized for current mode (active or passive) and state "
"of socket.";
format_error({badcast, _Cast}) ->
"Call not recognized for current mode (active or passive) and state "
"of socket.";
format_error({badinfo, _Info}) ->
"Call not recognized for current mode (active or passive) and state "
"of socket.";
format_error(Error) ->
case (catch inet:format_error(Error)) of
"unkknown POSIX" ++ _ ->
no_format(Error);
{'EXIT', _} ->
no_format(Error);
Other ->
Other
end.
no_format(Error) ->
io_lib:format("No format string for error: \"~p\" available.", [Error]).
%% Start old ssl port program if needed.
ensure_old_ssl_started() ->
case whereis(ssl_server) of
undefined ->
(catch supervisor:start_child(ssl_sup,
{ssl_server, {ssl_server, start_link, []},
permanent, 2000, worker, [ssl_server]}));
_ ->
ok
end.
%%%%%%%%%%%%%%%% Deprecated %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
ciphers() ->
ensure_old_ssl_started(),
case (catch ssl_server:ciphers()) of
{'EXIT', _} ->
{error, enotstarted};
Res = {ok, _} ->
Res
end.
version() ->
ensure_old_ssl_started(),
SSLVsn = ?VSN,
{CompVsn, LibVsn} = case (catch ssl_server:version()) of
{'EXIT', _} ->
{"", ""};
{ok, Vsns} ->
Vsns
end,
{ok, {SSLVsn, CompVsn, LibVsn}}.
min(N,M) when N < M ->
N;
min(_, M) ->
M.
%% Only used to remove exit messages from old ssl
%% First is a nonsense clause to provide some
%% backward compability for orber that uses this
%% function in a none recommended way, but will
%% work correctly if a valid pid is returned.
pid(#sslsocket{fd = new_ssl}) ->
whereis(ssl_connection_sup);
pid(#sslsocket{pid = Pid}) ->
Pid.