%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2008-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
%%
-module(ssl_test_lib).
-include_lib("common_test/include/ct.hrl").
-include_lib("public_key/include/public_key.hrl").
%% Note: This directive should only be used in test suites.
-compile(export_all).
-record(sslsocket, { fd = nil, pid = nil}).
-define(SLEEP, 1000).
%% For now always run locally
run_where(_) ->
ClientNode = node(),
ServerNode = node(),
{ok, Host} = rpc:call(ServerNode, inet, gethostname, []),
{ClientNode, ServerNode, Host}.
run_where(_, ipv6) ->
ClientNode = node(),
ServerNode = node(),
{ok, Host} = rpc:call(ServerNode, inet, gethostname, []),
{ClientNode, ServerNode, Host}.
node_to_hostip(Node) ->
[_ , Host] = string:tokens(atom_to_list(Node), "@"),
{ok, Address} = inet:getaddr(Host, inet),
Address.
start_server(Args) ->
Result = spawn_link(?MODULE, run_server, [Args]),
receive
{listen, up} ->
Result
end.
run_server(Opts) ->
Node = proplists:get_value(node, Opts),
Port = proplists:get_value(port, Opts),
Options = proplists:get_value(options, Opts),
Pid = proplists:get_value(from, Opts),
Transport = proplists:get_value(transport, Opts, ssl),
ct:log("~p:~p~nssl:listen(~p, ~p)~n", [?MODULE,?LINE, Port, Options]),
{ok, ListenSocket} = rpc:call(Node, Transport, listen, [Port, Options]),
Pid ! {listen, up},
send_selected_port(Pid, Port, ListenSocket),
run_server(ListenSocket, Opts).
run_server(ListenSocket, Opts) ->
Accepters = proplists:get_value(accepters, Opts, 1),
run_server(ListenSocket, Opts, Accepters).
run_server(ListenSocket, Opts, 1) ->
do_run_server(ListenSocket, connect(ListenSocket, Opts), Opts);
run_server(ListenSocket, Opts, N) ->
Pid = proplists:get_value(from, Opts),
Server = spawn(?MODULE, run_server, [ListenSocket, Opts, 1]),
Pid ! {accepter, N, Server},
run_server(ListenSocket, Opts, N-1).
do_run_server(_, {error, timeout} = Result, Opts) ->
Pid = proplists:get_value(from, Opts),
Pid ! {self(), Result};
do_run_server(ListenSocket, AcceptSocket, Opts) ->
Node = proplists:get_value(node, Opts),
Pid = proplists:get_value(from, Opts),
Transport = proplists:get_value(transport, Opts, ssl),
{Module, Function, Args} = proplists:get_value(mfa, Opts),
ct:log("~p:~p~nServer: apply(~p,~p,~p)~n",
[?MODULE,?LINE, Module, Function, [AcceptSocket | Args]]),
case rpc:call(Node, Module, Function, [AcceptSocket | Args]) of
no_result_msg ->
ok;
Msg ->
ct:log("~p:~p~nServer Msg: ~p ~n", [?MODULE,?LINE, Msg]),
Pid ! {self(), Msg}
end,
receive
listen ->
run_server(ListenSocket, Opts);
{listen, MFA} ->
run_server(ListenSocket, [MFA | proplists:delete(mfa, Opts)]);
close ->
ct:log("~p:~p~nServer closing ~p ~n", [?MODULE,?LINE, self()]),
Result = rpc:call(Node, Transport, close, [AcceptSocket], 500),
Result1 = rpc:call(Node, Transport, close, [ListenSocket], 500),
ct:log("~p:~p~nResult ~p : ~p ~n", [?MODULE,?LINE, Result, Result1]);
{ssl_closed, _} ->
ok
end.
%%% To enable to test with s_client -reconnect
connect(#sslsocket{} = ListenSocket, Opts) ->
Node = proplists:get_value(node, Opts),
ReconnectTimes = proplists:get_value(reconnect_times, Opts, 0),
Timeout = proplists:get_value(timeout, Opts, infinity),
SslOpts = proplists:get_value(ssl_extra_opts, Opts, []),
AcceptSocket = connect(ListenSocket, Node, 1 + ReconnectTimes, dummy, Timeout, SslOpts),
case ReconnectTimes of
0 ->
AcceptSocket;
_ ->
remove_close_msg(ReconnectTimes),
AcceptSocket
end;
connect(ListenSocket, Opts) ->
Node = proplists:get_value(node, Opts),
ct:log("~p:~p~ngen_tcp:accept(~p)~n", [?MODULE,?LINE, ListenSocket]),
{ok, AcceptSocket} = rpc:call(Node, gen_tcp, accept,
[ListenSocket]),
AcceptSocket.
connect(_, _, 0, AcceptSocket, _, _) ->
AcceptSocket;
connect(ListenSocket, Node, N, _, Timeout, []) ->
ct:log("ssl:transport_accept(~p)~n", [ListenSocket]),
{ok, AcceptSocket} = rpc:call(Node, ssl, transport_accept,
[ListenSocket]),
ct:log("~p:~p~nssl:ssl_accept(~p, ~p)~n", [?MODULE,?LINE, AcceptSocket, Timeout]),
case rpc:call(Node, ssl, ssl_accept, [AcceptSocket, Timeout]) of
ok ->
connect(ListenSocket, Node, N-1, AcceptSocket, Timeout, []);
Result ->
ct:log("~p:~p~nssl:ssl_accept@~p ret ~p",[?MODULE,?LINE, Node,Result]),
Result
end;
connect(ListenSocket, Node, _, _, Timeout, Opts) ->
ct:log("ssl:transport_accept(~p)~n", [ListenSocket]),
{ok, AcceptSocket} = rpc:call(Node, ssl, transport_accept,
[ListenSocket]),
ct:log("ssl:ssl_accept(~p,~p, ~p)~n", [AcceptSocket, Opts, Timeout]),
rpc:call(Node, ssl, ssl_accept, [AcceptSocket, Opts, Timeout]),
AcceptSocket.
remove_close_msg(0) ->
ok;
remove_close_msg(ReconnectTimes) ->
receive
{ssl_closed, _} ->
remove_close_msg(ReconnectTimes -1)
end.
start_client(Args) ->
Result = spawn_link(?MODULE, run_client_init, [lists:delete(return_socket, Args)]),
receive
{connected, Socket} ->
case lists:member(return_socket, Args) of
true -> {Result, Socket};
false -> Result
end;
{connect_failed, Reason} ->
{connect_failed, Reason}
end.
run_client_init(Opts) ->
put(retries, 0),
run_client(Opts).
run_client(Opts) ->
Node = proplists:get_value(node, Opts),
Host = proplists:get_value(host, Opts),
Port = proplists:get_value(port, Opts),
Pid = proplists:get_value(from, Opts),
Transport = proplists:get_value(transport, Opts, ssl),
Options = proplists:get_value(options, Opts),
ct:log("~p:~p~n~p:connect(~p, ~p)@~p~n", [?MODULE,?LINE, Transport, Host, Port, Node]),
ct:log("SSLOpts: ~p", [Options]),
case rpc:call(Node, Transport, connect, [Host, Port, Options]) of
{ok, Socket} ->
Pid ! {connected, Socket},
ct:log("~p:~p~nClient: connected~n", [?MODULE,?LINE]),
%% In special cases we want to know the client port, it will
%% be indicated by sending {port, 0} in options list!
send_selected_port(Pid, proplists:get_value(port, Options), Socket),
{Module, Function, Args} = proplists:get_value(mfa, Opts),
ct:log("~p:~p~nClient: apply(~p,~p,~p)~n",
[?MODULE,?LINE, Module, Function, [Socket | Args]]),
case rpc:call(Node, Module, Function, [Socket | Args]) of
no_result_msg ->
ok;
Msg ->
ct:log("~p:~p~nClient Msg: ~p ~n", [?MODULE,?LINE, Msg]),
Pid ! {self(), Msg}
end,
receive
close ->
ct:log("~p:~p~nClient closing~n", [?MODULE,?LINE]),
rpc:call(Node, Transport, close, [Socket]);
{ssl_closed, Socket} ->
ok;
{gen_tcp, closed} ->
ok
end;
{error, econnrefused = Reason} ->
case get(retries) of
N when N < 5 ->
ct:log("~p:~p~neconnrefused retries=~p sleep ~p",[?MODULE,?LINE, N,?SLEEP]),
put(retries, N+1),
ct:sleep(?SLEEP),
run_client(Opts);
_ ->
ct:log("~p:~p~nClient faild several times: connection failed: ~p ~n", [?MODULE,?LINE, Reason]),
Pid ! {self(), {error, Reason}}
end;
{error, econnreset = Reason} ->
case get(retries) of
N when N < 5 ->
ct:log("~p:~p~neconnreset retries=~p sleep ~p",[?MODULE,?LINE, N,?SLEEP]),
put(retries, N+1),
ct:sleep(?SLEEP),
run_client(Opts);
_ ->
ct:log("~p:~p~nClient faild several times: connection failed: ~p ~n", [?MODULE,?LINE, Reason]),
Pid ! {self(), {error, Reason}}
end;
{error, Reason} ->
ct:log("~p:~p~nClient: connection failed: ~p ~n", [?MODULE,?LINE, Reason]),
Pid ! {connect_failed, Reason};
{badrpc,BadRPC} ->
ct:log("~p:~p~nBad rpc: ~p",[?MODULE,?LINE, BadRPC]),
Pid ! {connect_failed, {badrpc,BadRPC}}
end.
close(Pid) ->
ct:log("~p:~p~nClose ~p ~n", [?MODULE,?LINE, Pid]),
Monitor = erlang:monitor(process, Pid),
Pid ! close,
receive
{'DOWN', Monitor, process, Pid, Reason} ->
erlang:demonitor(Monitor),
ct:log("~p:~p~nPid: ~p down due to:~p ~n", [?MODULE,?LINE, Pid, Reason])
end.
close(Pid, Timeout) ->
ct:log("~p:~p~n Close ~p ~n", [?MODULE,?LINE, Pid]),
Monitor = erlang:monitor(process, Pid),
Pid ! close,
receive
{'DOWN', Monitor, process, Pid, Reason} ->
erlang:demonitor(Monitor),
ct:log("~p:~p~nPid: ~p down due to:~p ~n", [?MODULE,?LINE, Pid, Reason])
after
Timeout ->
exit(Pid, kill)
end.
check_result(Server, ServerMsg, Client, ClientMsg) ->
receive
{Server, ServerMsg} ->
check_result(Client, ClientMsg);
{Client, ClientMsg} ->
check_result(Server, ServerMsg);
{Port, {data,Debug}} when is_port(Port) ->
ct:log("~p:~p~nopenssl ~s~n",[?MODULE,?LINE, Debug]),
check_result(Server, ServerMsg, Client, ClientMsg);
Unexpected ->
Reason = {{expected, {Client, ClientMsg}},
{expected, {Server, ServerMsg}}, {got, Unexpected}},
ct:fail(Reason)
end.
check_result(Pid, Msg) ->
receive
{Pid, Msg} ->
ok;
{Port, {data,Debug}} when is_port(Port) ->
ct:log("~p:~p~nopenssl ~s~n",[?MODULE,?LINE, Debug]),
check_result(Pid,Msg);
%% {Port, {exit_status, Status}} when is_port(Port) ->
%% ct:log("~p:~p Exit status: ~p~n",[?MODULE,?LINE, Status]),
%% check_result(Pid, Msg);
Unexpected ->
Reason = {{expected, {Pid, Msg}},
{got, Unexpected}},
ct:fail(Reason)
end.
wait_for_result(Server, ServerMsg, Client, ClientMsg) ->
receive
{Server, ServerMsg} ->
receive
{Client, ClientMsg} ->
ok
%% Unexpected ->
%% Unexpected
end;
{Client, ClientMsg} ->
receive
{Server, ServerMsg} ->
ok
%% Unexpected ->
%% Unexpected
end;
{Port, {data,Debug}} when is_port(Port) ->
ct:log("~p:~p~nopenssl ~s~n",[?MODULE,?LINE, Debug]),
wait_for_result(Server, ServerMsg, Client, ClientMsg)
%% Unexpected ->
%% Unexpected
end.
check_ok([]) ->
ok;
check_ok(Pids) ->
receive
{Pid, ok} ->
check_ok(lists:delete(Pid, Pids));
Other ->
ct:fail({expected, {"pid()", ok}, got, Other})
end.
wait_for_result(Pid, Msg) ->
receive
{Pid, Msg} ->
ok;
{Port, {data,Debug}} when is_port(Port) ->
ct:log("~p:~p~nopenssl ~s~n",[?MODULE,?LINE, Debug]),
wait_for_result(Pid,Msg)
%% Unexpected ->
%% Unexpected
end.
user_lookup(psk, _Identity, UserState) ->
{ok, UserState};
user_lookup(srp, Username, _UserState) ->
Salt = ssl_cipher:random_bytes(16),
UserPassHash = crypto:hash(sha, [Salt, crypto:hash(sha, [Username, <<$:>>, <<"secret">>])]),
{ok, {srp_1024, Salt, UserPassHash}}.
cert_options(Config) ->
ClientCaCertFile = filename:join([?config(priv_dir, Config),
"client", "cacerts.pem"]),
ClientCertFile = filename:join([?config(priv_dir, Config),
"client", "cert.pem"]),
ClientCertFileDigitalSignatureOnly = filename:join([?config(priv_dir, Config),
"client", "digital_signature_only_cert.pem"]),
ServerCaCertFile = filename:join([?config(priv_dir, Config),
"server", "cacerts.pem"]),
ServerCertFile = filename:join([?config(priv_dir, Config),
"server", "cert.pem"]),
ServerKeyFile = filename:join([?config(priv_dir, Config),
"server", "key.pem"]),
ClientKeyFile = filename:join([?config(priv_dir, Config),
"client", "key.pem"]),
ServerKeyCertFile = filename:join([?config(priv_dir, Config),
"server", "keycert.pem"]),
ClientKeyCertFile = filename:join([?config(priv_dir, Config),
"client", "keycert.pem"]),
BadCaCertFile = filename:join([?config(priv_dir, Config),
"badcacert.pem"]),
BadCertFile = filename:join([?config(priv_dir, Config),
"badcert.pem"]),
BadKeyFile = filename:join([?config(priv_dir, Config),
"badkey.pem"]),
PskSharedSecret = <<1,2,3,4,5,6,7,8,9,10,11,12,13,14,15>>,
SNIServerACertFile = filename:join([?config(priv_dir, Config), "a.server", "cert.pem"]),
SNIServerAKeyFile = filename:join([?config(priv_dir, Config), "a.server", "key.pem"]),
SNIServerBCertFile = filename:join([?config(priv_dir, Config), "b.server", "cert.pem"]),
SNIServerBKeyFile = filename:join([?config(priv_dir, Config), "b.server", "key.pem"]),
[{client_opts, []},
{client_verification_opts, [{cacertfile, ServerCaCertFile},
{certfile, ClientCertFile},
{keyfile, ClientKeyFile},
{ssl_imp, new}]},
{client_verification_opts_digital_signature_only, [{cacertfile, ServerCaCertFile},
{certfile, ClientCertFileDigitalSignatureOnly},
{keyfile, ClientKeyFile},
{ssl_imp, new}]},
{server_opts, [{ssl_imp, new},{reuseaddr, true},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile}]},
{server_anon, [{ssl_imp, new},{reuseaddr, true}, {ciphers, anonymous_suites()}]},
{client_psk, [{ssl_imp, new},{reuseaddr, true},
{psk_identity, "Test-User"},
{user_lookup_fun, {fun user_lookup/3, PskSharedSecret}}]},
{server_psk, [{ssl_imp, new},{reuseaddr, true},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile},
{user_lookup_fun, {fun user_lookup/3, PskSharedSecret}},
{ciphers, psk_suites()}]},
{server_psk_hint, [{ssl_imp, new},{reuseaddr, true},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile},
{psk_identity, "HINT"},
{user_lookup_fun, {fun user_lookup/3, PskSharedSecret}},
{ciphers, psk_suites()}]},
{server_psk_anon, [{ssl_imp, new},{reuseaddr, true},
{user_lookup_fun, {fun user_lookup/3, PskSharedSecret}},
{ciphers, psk_anon_suites()}]},
{server_psk_anon_hint, [{ssl_imp, new},{reuseaddr, true},
{psk_identity, "HINT"},
{user_lookup_fun, {fun user_lookup/3, PskSharedSecret}},
{ciphers, psk_anon_suites()}]},
{client_srp, [{ssl_imp, new},{reuseaddr, true},
{srp_identity, {"Test-User", "secret"}}]},
{server_srp, [{ssl_imp, new},{reuseaddr, true},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile},
{user_lookup_fun, {fun user_lookup/3, undefined}},
{ciphers, srp_suites()}]},
{server_srp_anon, [{ssl_imp, new},{reuseaddr, true},
{user_lookup_fun, {fun user_lookup/3, undefined}},
{ciphers, srp_anon_suites()}]},
{server_verification_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ClientCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile}]},
{client_kc_opts, [{certfile, ClientKeyCertFile}, {ssl_imp, new}]},
{server_kc_opts, [{ssl_imp, new},{reuseaddr, true},
{certfile, ServerKeyCertFile}]},
{client_bad_ca, [{cacertfile, BadCaCertFile},
{certfile, ClientCertFile},
{keyfile, ClientKeyFile},
{ssl_imp, new}]},
{client_bad_cert, [{cacertfile, ClientCaCertFile},
{certfile, BadCertFile},
{keyfile, ClientKeyFile},
{ssl_imp, new}]},
{server_bad_ca, [{ssl_imp, new},{cacertfile, BadCaCertFile},
{certfile, ServerCertFile},
{keyfile, ServerKeyFile}]},
{server_bad_cert, [{ssl_imp, new},{cacertfile, ServerCaCertFile},
{certfile, BadCertFile}, {keyfile, ServerKeyFile}]},
{server_bad_key, [{ssl_imp, new},{cacertfile, ServerCaCertFile},
{certfile, ServerCertFile}, {keyfile, BadKeyFile}]},
{sni_server_opts, [{sni_hosts, [
{"a.server", [
{certfile, SNIServerACertFile},
{keyfile, SNIServerAKeyFile}
]},
{"b.server", [
{certfile, SNIServerBCertFile},
{keyfile, SNIServerBKeyFile}
]}
]}]}
| Config].
make_dsa_cert(Config) ->
{ServerCaCertFile, ServerCertFile, ServerKeyFile} = make_cert_files("server", Config, dsa, dsa, ""),
{ClientCaCertFile, ClientCertFile, ClientKeyFile} = make_cert_files("client", Config, dsa, dsa, ""),
[{server_dsa_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ServerCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile}]},
{server_dsa_verify_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ClientCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile},
{verify, verify_peer}]},
{client_dsa_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ClientCaCertFile},
{certfile, ClientCertFile}, {keyfile, ClientKeyFile}]},
{server_srp_dsa, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ServerCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile},
{user_lookup_fun, {fun user_lookup/3, undefined}},
{ciphers, srp_dss_suites()}]},
{client_srp_dsa, [{ssl_imp, new},{reuseaddr, true},
{srp_identity, {"Test-User", "secret"}},
{cacertfile, ClientCaCertFile},
{certfile, ClientCertFile}, {keyfile, ClientKeyFile}]}
| Config].
make_ecdsa_cert(Config) ->
CryptoSupport = crypto:supports(),
case proplists:get_bool(ecdsa, proplists:get_value(public_keys, CryptoSupport)) of
true ->
{ServerCaCertFile, ServerCertFile, ServerKeyFile} = make_cert_files("server", Config, ec, ec, ""),
{ClientCaCertFile, ClientCertFile, ClientKeyFile} = make_cert_files("client", Config, ec, ec, ""),
[{server_ecdsa_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ServerCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile}]},
{server_ecdsa_verify_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ServerCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile},
{verify, verify_peer}]},
{client_ecdsa_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ClientCaCertFile},
{certfile, ClientCertFile}, {keyfile, ClientKeyFile}]}
| Config];
_ ->
Config
end.
%% RFC 4492, Sect. 2.3. ECDH_RSA
%%
%% This key exchange algorithm is the same as ECDH_ECDSA except that the
%% server's certificate MUST be signed with RSA rather than ECDSA.
make_ecdh_rsa_cert(Config) ->
CryptoSupport = crypto:supports(),
case proplists:get_bool(ecdh, proplists:get_value(public_keys, CryptoSupport)) of
true ->
{ServerCaCertFile, ServerCertFile, ServerKeyFile} = make_cert_files("server", Config, rsa, ec, "rsa_"),
{ClientCaCertFile, ClientCertFile, ClientKeyFile} = make_cert_files("client", Config, rsa, ec, "rsa_"),
[{server_ecdh_rsa_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ServerCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile}]},
{server_ecdh_rsa_verify_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ServerCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile},
{verify, verify_peer}]},
{client_ecdh_rsa_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ClientCaCertFile},
{certfile, ClientCertFile}, {keyfile, ClientKeyFile}]}
| Config];
_ ->
Config
end.
make_mix_cert(Config) ->
{ServerCaCertFile, ServerCertFile, ServerKeyFile} = make_cert_files("server", Config, dsa,
rsa, "mix"),
{ClientCaCertFile, ClientCertFile, ClientKeyFile} = make_cert_files("client", Config, dsa,
rsa, "mix"),
[{server_mix_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ServerCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile}]},
{server_mix_verify_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ClientCaCertFile},
{certfile, ServerCertFile}, {keyfile, ServerKeyFile},
{verify, verify_peer}]},
{client_mix_opts, [{ssl_imp, new},{reuseaddr, true},
{cacertfile, ClientCaCertFile},
{certfile, ClientCertFile}, {keyfile, ClientKeyFile}]}
| Config].
make_cert_files(RoleStr, Config, Alg1, Alg2, Prefix) ->
Alg1Str = atom_to_list(Alg1),
Alg2Str = atom_to_list(Alg2),
CaInfo = {CaCert, _} = erl_make_certs:make_cert([{key, Alg1}]),
{Cert, CertKey} = erl_make_certs:make_cert([{key, Alg2}, {issuer, CaInfo}]),
CaCertFile = filename:join([?config(priv_dir, Config),
RoleStr, Prefix ++ Alg1Str ++ "_cacerts.pem"]),
CertFile = filename:join([?config(priv_dir, Config),
RoleStr, Prefix ++ Alg2Str ++ "_cert.pem"]),
KeyFile = filename:join([?config(priv_dir, Config),
RoleStr, Prefix ++ Alg2Str ++ "_key.pem"]),
der_to_pem(CaCertFile, [{'Certificate', CaCert, not_encrypted}]),
der_to_pem(CertFile, [{'Certificate', Cert, not_encrypted}]),
der_to_pem(KeyFile, [CertKey]),
{CaCertFile, CertFile, KeyFile}.
start_upgrade_server(Args) ->
Result = spawn_link(?MODULE, run_upgrade_server, [Args]),
receive
{listen, up} ->
Result
end.
run_upgrade_server(Opts) ->
Node = proplists:get_value(node, Opts),
Port = proplists:get_value(port, Opts),
TimeOut = proplists:get_value(timeout, Opts, infinity),
TcpOptions = proplists:get_value(tcp_options, Opts),
SslOptions = proplists:get_value(ssl_options, Opts),
Pid = proplists:get_value(from, Opts),
ct:log("~p:~p~ngen_tcp:listen(~p, ~p)~n", [?MODULE,?LINE, Port, TcpOptions]),
{ok, ListenSocket} = rpc:call(Node, gen_tcp, listen, [Port, TcpOptions]),
Pid ! {listen, up},
send_selected_port(Pid, Port, ListenSocket),
ct:log("~p:~p~ngen_tcp:accept(~p)~n", [?MODULE,?LINE, ListenSocket]),
{ok, AcceptSocket} = rpc:call(Node, gen_tcp, accept, [ListenSocket]),
try
{ok, SslAcceptSocket} = case TimeOut of
infinity ->
ct:log("~p:~p~nssl:ssl_accept(~p, ~p)~n",
[?MODULE,?LINE, AcceptSocket, SslOptions]),
rpc:call(Node, ssl, ssl_accept,
[AcceptSocket, SslOptions]);
_ ->
ct:log("~p:~p~nssl:ssl_accept(~p, ~p, ~p)~n",
[?MODULE,?LINE, AcceptSocket, SslOptions, TimeOut]),
rpc:call(Node, ssl, ssl_accept,
[AcceptSocket, SslOptions, TimeOut])
end,
{Module, Function, Args} = proplists:get_value(mfa, Opts),
Msg = rpc:call(Node, Module, Function, [SslAcceptSocket | Args]),
ct:log("~p:~p~nUpgrade Server Msg: ~p ~n", [?MODULE,?LINE, Msg]),
Pid ! {self(), Msg},
receive
close ->
ct:log("~p:~p~nUpgrade Server closing~n", [?MODULE,?LINE]),
rpc:call(Node, ssl, close, [SslAcceptSocket])
end
catch error:{badmatch, Error} ->
Pid ! {self(), Error}
end.
start_upgrade_client(Args) ->
spawn_link(?MODULE, run_upgrade_client, [Args]).
run_upgrade_client(Opts) ->
Node = proplists:get_value(node, Opts),
Host = proplists:get_value(host, Opts),
Port = proplists:get_value(port, Opts),
Pid = proplists:get_value(from, Opts),
TcpOptions = proplists:get_value(tcp_options, Opts),
SslOptions = proplists:get_value(ssl_options, Opts),
ct:log("~p:~p~ngen_tcp:connect(~p, ~p, ~p)~n",
[?MODULE,?LINE, Host, Port, TcpOptions]),
{ok, Socket} = rpc:call(Node, gen_tcp, connect, [Host, Port, TcpOptions]),
send_selected_port(Pid, Port, Socket),
ct:log("~p:~p~nssl:connect(~p, ~p)~n", [?MODULE,?LINE, Socket, SslOptions]),
{ok, SslSocket} = rpc:call(Node, ssl, connect, [Socket, SslOptions]),
{Module, Function, Args} = proplists:get_value(mfa, Opts),
ct:log("~p:~p~napply(~p, ~p, ~p)~n",
[?MODULE,?LINE, Module, Function, [SslSocket | Args]]),
Msg = rpc:call(Node, Module, Function, [SslSocket | Args]),
ct:log("~p:~p~nUpgrade Client Msg: ~p ~n", [?MODULE,?LINE, Msg]),
Pid ! {self(), Msg},
receive
close ->
ct:log("~p:~p~nUpgrade Client closing~n", [?MODULE,?LINE]),
rpc:call(Node, ssl, close, [SslSocket])
end.
start_upgrade_server_error(Args) ->
Result = spawn_link(?MODULE, run_upgrade_server_error, [Args]),
receive
{listen, up} ->
Result
end.
run_upgrade_server_error(Opts) ->
Node = proplists:get_value(node, Opts),
Port = proplists:get_value(port, Opts),
TimeOut = proplists:get_value(timeout, Opts, infinity),
TcpOptions = proplists:get_value(tcp_options, Opts),
SslOptions = proplists:get_value(ssl_options, Opts),
Pid = proplists:get_value(from, Opts),
ct:log("~p:~p~ngen_tcp:listen(~p, ~p)~n", [?MODULE,?LINE, Port, TcpOptions]),
{ok, ListenSocket} = rpc:call(Node, gen_tcp, listen, [Port, TcpOptions]),
Pid ! {listen, up},
send_selected_port(Pid, Port, ListenSocket),
ct:log("~p:~p~ngen_tcp:accept(~p)~n", [?MODULE,?LINE, ListenSocket]),
{ok, AcceptSocket} = rpc:call(Node, gen_tcp, accept, [ListenSocket]),
Error = case TimeOut of
infinity ->
ct:log("~p:~p~nssl:ssl_accept(~p, ~p)~n",
[?MODULE,?LINE, AcceptSocket, SslOptions]),
rpc:call(Node, ssl, ssl_accept,
[AcceptSocket, SslOptions]);
_ ->
ct:log("~p:~p~nssl:ssl_accept(~p, ~p, ~p)~n",
[?MODULE,?LINE, AcceptSocket, SslOptions, TimeOut]),
rpc:call(Node, ssl, ssl_accept,
[AcceptSocket, SslOptions, TimeOut])
end,
Pid ! {self(), Error}.
start_server_error(Args) ->
Result = spawn_link(?MODULE, run_server_error, [Args]),
receive
{listen, up} ->
Result
end.
run_server_error(Opts) ->
Node = proplists:get_value(node, Opts),
Port = proplists:get_value(port, Opts),
Options = proplists:get_value(options, Opts),
Pid = proplists:get_value(from, Opts),
Transport = proplists:get_value(transport, Opts, ssl),
ct:log("~p:~p~nssl:listen(~p, ~p)~n", [?MODULE,?LINE, Port, Options]),
case rpc:call(Node, Transport, listen, [Port, Options]) of
{ok, #sslsocket{} = ListenSocket} ->
%% To make sure error_client will
%% get {error, closed} and not {error, connection_refused}
Pid ! {listen, up},
send_selected_port(Pid, Port, ListenSocket),
ct:log("~p:~p~nssl:transport_accept(~p)~n", [?MODULE,?LINE, ListenSocket]),
case rpc:call(Node, Transport, transport_accept, [ListenSocket]) of
{error, _} = Error ->
Pid ! {self(), Error};
{ok, AcceptSocket} ->
ct:log("~p:~p~nssl:ssl_accept(~p)~n", [?MODULE,?LINE, AcceptSocket]),
Error = rpc:call(Node, ssl, ssl_accept, [AcceptSocket]),
Pid ! {self(), Error}
end;
{ok, ListenSocket} ->
Pid ! {listen, up},
send_selected_port(Pid, Port, ListenSocket),
ct:log("~p:~p~n~p:accept(~p)~n", [?MODULE,?LINE, Transport, ListenSocket]),
case rpc:call(Node, Transport, accept, [ListenSocket]) of
{error, _} = Error ->
Pid ! {self(), Error}
end;
Error ->
%% Not really true but as this is an error test
%% this is what we want.
Pid ! {listen, up},
Pid ! {self(), Error}
end.
start_client_error(Args) ->
spawn_link(?MODULE, run_client_error, [Args]).
run_client_error(Opts) ->
Node = proplists:get_value(node, Opts),
Host = proplists:get_value(host, Opts),
Port = proplists:get_value(port, Opts),
Pid = proplists:get_value(from, Opts),
Transport = proplists:get_value(transport, Opts, ssl),
Options = proplists:get_value(options, Opts),
ct:log("~p:~p~nssl:connect(~p, ~p, ~p)~n", [?MODULE,?LINE, Host, Port, Options]),
Error = rpc:call(Node, Transport, connect, [Host, Port, Options]),
Pid ! {self(), Error}.
accepters(N) ->
accepters([], N).
accepters(Acc, 0) ->
Acc;
accepters(Acc, N) ->
receive
{accepter, _, Server} ->
accepters([Server| Acc], N-1)
end.
inet_port(Pid) when is_pid(Pid)->
receive
{Pid, {port, Port}} ->
Port
end;
inet_port(Node) ->
{Port, Socket} = do_inet_port(Node),
rpc:call(Node, gen_tcp, close, [Socket]),
Port.
do_inet_port(Node) ->
{ok, Socket} = rpc:call(Node, gen_tcp, listen, [0, [{reuseaddr, true}]]),
{ok, Port} = rpc:call(Node, inet, port, [Socket]),
{Port, Socket}.
no_result(_) ->
no_result_msg.
trigger_renegotiate(Socket, [ErlData, N]) ->
[{session_id, Id} | _ ] = ssl:session_info(Socket),
trigger_renegotiate(Socket, ErlData, N, Id).
trigger_renegotiate(Socket, _, 0, Id) ->
ct:sleep(1000),
case ssl:session_info(Socket) of
[{session_id, Id} | _ ] ->
fail_session_not_renegotiated;
%% Tests that uses this function will not reuse
%% sessions so if we get a new session id the
%% renegotiation has succeeded.
[{session_id, _} | _ ] ->
ok;
{error, closed} ->
fail_session_fatal_alert_during_renegotiation;
{error, timeout} ->
fail_timeout
end;
trigger_renegotiate(Socket, ErlData, N, Id) ->
ssl:send(Socket, ErlData),
trigger_renegotiate(Socket, ErlData, N-1, Id).
send_selected_port(Pid, 0, #sslsocket{} = Socket) ->
{ok, {_, NewPort}} = ssl:sockname(Socket),
Pid ! {self(), {port, NewPort}};
send_selected_port(Pid, 0, Socket) ->
{ok, {_, NewPort}} = inet:sockname(Socket),
Pid ! {self(), {port, NewPort}};
send_selected_port(_,_,_) ->
ok.
rsa_suites(CounterPart) ->
ECC = is_sane_ecc(CounterPart),
FIPS = is_fips(CounterPart),
lists:filter(fun({rsa, des_cbc, sha}) when FIPS == true ->
false;
({dhe_rsa, des_cbc, sha}) when FIPS == true ->
false;
({rsa, _, _}) ->
true;
({dhe_rsa, _, _}) ->
true;
({ecdhe_rsa, _, _}) when ECC == true ->
true;
(_) ->
false
end,
common_ciphers(CounterPart)).
common_ciphers(crypto) ->
ssl:cipher_suites();
common_ciphers(openssl) ->
OpenSslSuites =
string:tokens(string:strip(os:cmd("openssl ciphers"), right, $\n), ":"),
[ssl_cipher:erl_suite_definition(S)
|| S <- ssl_cipher:suites(tls_record:highest_protocol_version([])),
lists:member(ssl_cipher:openssl_suite_name(S), OpenSslSuites)
].
rsa_non_signed_suites() ->
lists:filter(fun({rsa, _, _}) ->
true;
(_) ->
false
end,
ssl:cipher_suites()).
dsa_suites() ->
lists:filter(fun({dhe_dss, _, _}) ->
true;
(_) ->
false
end,
ssl:cipher_suites()).
ecdsa_suites() ->
lists:filter(fun({ecdhe_ecdsa, _, _}) ->
true;
(_) ->
false
end,
ssl:cipher_suites()).
ecdh_rsa_suites() ->
lists:filter(fun({ecdh_rsa, _, _}) ->
true;
(_) ->
false
end,
ssl:cipher_suites()).
openssl_rsa_suites(CounterPart) ->
Ciphers = ssl:cipher_suites(openssl),
Names = case is_sane_ecc(CounterPart) of
true ->
"DSS | ECDSA";
false ->
"DSS | ECDHE | ECDH"
end,
lists:filter(fun(Str) -> string_regex_filter(Str, Names)
end, Ciphers).
openssl_dsa_suites() ->
Ciphers = ssl:cipher_suites(openssl),
lists:filter(fun(Str) -> string_regex_filter(Str, "DSS")
end, Ciphers).
openssl_ecdsa_suites() ->
Ciphers = ssl:cipher_suites(openssl),
lists:filter(fun(Str) -> string_regex_filter(Str, "ECDHE-ECDSA")
end, Ciphers).
openssl_ecdh_rsa_suites() ->
Ciphers = ssl:cipher_suites(openssl),
lists:filter(fun(Str) -> string_regex_filter(Str, "ECDH-RSA")
end, Ciphers).
string_regex_filter(Str, Search) when is_list(Str) ->
case re:run(Str, Search, []) of
nomatch ->
false;
_ ->
true
end;
string_regex_filter(_Str, _Search) ->
false.
anonymous_suites() ->
Suites =
[{dh_anon, rc4_128, md5},
{dh_anon, des_cbc, sha},
{dh_anon, '3des_ede_cbc', sha},
{dh_anon, aes_128_cbc, sha},
{dh_anon, aes_256_cbc, sha},
{dh_anon, aes_128_gcm, null, sha256},
{dh_anon, aes_256_gcm, null, sha384},
{ecdh_anon,rc4_128,sha},
{ecdh_anon,'3des_ede_cbc',sha},
{ecdh_anon,aes_128_cbc,sha},
{ecdh_anon,aes_256_cbc,sha}],
ssl_cipher:filter_suites(Suites).
psk_suites() ->
Suites =
[{psk, rc4_128, sha},
{psk, '3des_ede_cbc', sha},
{psk, aes_128_cbc, sha},
{psk, aes_256_cbc, sha},
{psk, aes_128_cbc, sha256},
{psk, aes_256_cbc, sha384},
{dhe_psk, rc4_128, sha},
{dhe_psk, '3des_ede_cbc', sha},
{dhe_psk, aes_128_cbc, sha},
{dhe_psk, aes_256_cbc, sha},
{dhe_psk, aes_128_cbc, sha256},
{dhe_psk, aes_256_cbc, sha384},
{rsa_psk, rc4_128, sha},
{rsa_psk, '3des_ede_cbc', sha},
{rsa_psk, aes_128_cbc, sha},
{rsa_psk, aes_256_cbc, sha},
{rsa_psk, aes_128_cbc, sha256},
{rsa_psk, aes_256_cbc, sha384},
{psk, aes_128_gcm, null, sha256},
{psk, aes_256_gcm, null, sha384},
{dhe_psk, aes_128_gcm, null, sha256},
{dhe_psk, aes_256_gcm, null, sha384},
{rsa_psk, aes_128_gcm, null, sha256},
{rsa_psk, aes_256_gcm, null, sha384}],
ssl_cipher:filter_suites(Suites).
psk_anon_suites() ->
Suites =
[{psk, rc4_128, sha},
{psk, '3des_ede_cbc', sha},
{psk, aes_128_cbc, sha},
{psk, aes_256_cbc, sha},
{dhe_psk, rc4_128, sha},
{dhe_psk, '3des_ede_cbc', sha},
{dhe_psk, aes_128_cbc, sha},
{dhe_psk, aes_256_cbc, sha}],
ssl_cipher:filter_suites(Suites).
srp_suites() ->
Suites =
[{srp_anon, '3des_ede_cbc', sha},
{srp_rsa, '3des_ede_cbc', sha},
{srp_anon, aes_128_cbc, sha},
{srp_rsa, aes_128_cbc, sha},
{srp_anon, aes_256_cbc, sha},
{srp_rsa, aes_256_cbc, sha}],
ssl_cipher:filter_suites(Suites).
srp_anon_suites() ->
Suites =
[{srp_anon, '3des_ede_cbc', sha},
{srp_anon, aes_128_cbc, sha},
{srp_anon, aes_256_cbc, sha}],
ssl_cipher:filter_suites(Suites).
srp_dss_suites() ->
Suites =
[{srp_dss, '3des_ede_cbc', sha},
{srp_dss, aes_128_cbc, sha},
{srp_dss, aes_256_cbc, sha}],
ssl_cipher:filter_suites(Suites).
rc4_suites(Version) ->
Suites = ssl_cipher:rc4_suites(Version),
ssl_cipher:filter_suites(Suites).
des_suites(Version) ->
Suites = ssl_cipher:des_suites(Version),
ssl_cipher:filter_suites(Suites).
pem_to_der(File) ->
{ok, PemBin} = file:read_file(File),
public_key:pem_decode(PemBin).
der_to_pem(File, Entries) ->
PemBin = public_key:pem_encode(Entries),
file:write_file(File, PemBin).
cipher_result(Socket, Result) ->
{ok, Info} = ssl:connection_information(Socket),
Result = {ok, {proplists:get_value(protocol, Info), proplists:get_value(cipher_suite, Info)}},
ct:log("~p:~p~nSuccessfull connect: ~p~n", [?MODULE,?LINE, Result]),
%% Importante to send two packets here
%% to properly test "cipher state" handling
ssl:send(Socket, "Hello\n"),
receive
{ssl, Socket, "H"} ->
ssl:send(Socket, " world\n"),
receive_rizzo_duong_beast();
{ssl, Socket, "Hello\n"} ->
ssl:send(Socket, " world\n"),
receive
{ssl, Socket, " world\n"} ->
ok
end;
Other ->
{unexpected, Other}
end.
session_info_result(Socket) ->
ssl:session_info(Socket).
public_key(#'PrivateKeyInfo'{privateKeyAlgorithm =
#'PrivateKeyInfo_privateKeyAlgorithm'{algorithm = ?rsaEncryption},
privateKey = Key}) ->
public_key:der_decode('RSAPrivateKey', iolist_to_binary(Key));
public_key(#'PrivateKeyInfo'{privateKeyAlgorithm =
#'PrivateKeyInfo_privateKeyAlgorithm'{algorithm = ?'id-dsa'},
privateKey = Key}) ->
public_key:der_decode('DSAPrivateKey', iolist_to_binary(Key));
public_key(Key) ->
Key.
receive_rizzo_duong_beast() ->
receive
{ssl, _, "ello\n"} ->
receive
{ssl, _, " "} ->
receive
{ssl, _, "world\n"} ->
ok
end
end
end.
state([{data,[{"State", {_StateName, StateData}}]} | _]) -> %% gen_statem
StateData;
state([{data,[{"State", State}]} | _]) -> %% gen_server
State;
state([{data,[{"StateData", State}]} | _]) -> %% gen_fsm
State;
state([_ | Rest]) ->
state(Rest).
is_tls_version('tlsv1.2') ->
true;
is_tls_version('tlsv1.1') ->
true;
is_tls_version('tlsv1') ->
true;
is_tls_version('sslv3') ->
true;
is_tls_version(_) ->
false.
init_tls_version(Version) ->
ssl:stop(),
application:load(ssl),
application:set_env(ssl, protocol_version, Version),
ssl:start().
sufficient_crypto_support('tlsv1.2') ->
CryptoSupport = crypto:supports(),
proplists:get_bool(sha256, proplists:get_value(hashs, CryptoSupport));
sufficient_crypto_support(Group) when Group == ciphers_ec; %% From ssl_basic_SUITE
Group == erlang_server; %% From ssl_ECC_SUITE
Group == erlang_client; %% From ssl_ECC_SUITE
Group == erlang -> %% From ssl_ECC_SUITE
CryptoSupport = crypto:supports(),
proplists:get_bool(ecdh, proplists:get_value(public_keys, CryptoSupport));
sufficient_crypto_support(_) ->
true.
send_recv_result_active(Socket) ->
ssl:send(Socket, "Hello world"),
receive
{ssl, Socket, "H"} ->
receive
{ssl, Socket, "ello world"} ->
ok
end;
{ssl, Socket, "Hello world"} ->
ok
end.
send_recv_result(Socket) ->
ssl:send(Socket, "Hello world"),
{ok,"Hello world"} = ssl:recv(Socket, 11),
ok.
send_recv_result_active_once(Socket) ->
ssl:send(Socket, "Hello world"),
receive
{ssl, Socket, "H"} ->
ssl:setopts(Socket, [{active, once}]),
receive
{ssl, Socket, "ello world"} ->
ok
end;
{ssl, Socket, "Hello world"} ->
ok
end.
is_sane_ecc(openssl) ->
case os:cmd("openssl version") of
"OpenSSL 1.0.0a" ++ _ -> % Known bug in openssl
%% manifests as SSL_CHECK_SERVERHELLO_TLSEXT:tls invalid ecpointformat list
false;
"OpenSSL 1.0.0" ++ _ -> % Known bug in openssl
%% manifests as SSL_CHECK_SERVERHELLO_TLSEXT:tls invalid ecpointformat list
false;
"OpenSSL 1.0.1l" ++ _ ->
%% Breaks signature verification
false;
"OpenSSL 0.9.8" ++ _ -> % Does not support ECC
false;
"OpenSSL 0.9.7" ++ _ -> % Does not support ECC
false;
_ ->
true
end;
is_sane_ecc(crypto) ->
[{_,_, Bin}] = crypto:info_lib(),
case binary_to_list(Bin) of
"OpenSSL 0.9.8" ++ _ -> % Does not support ECC
false;
"OpenSSL 0.9.7" ++ _ -> % Does not support ECC
false;
_ ->
true
end;
is_sane_ecc(_) ->
true.
is_fips(openssl) ->
VersionStr = os:cmd("openssl version"),
case re:split(VersionStr, "fips") of
[_] ->
false;
_ ->
true
end;
is_fips(crypto) ->
[{_,_, Bin}] = crypto:info_lib(),
case re:split(Bin, <<"fips">>) of
[_] ->
false;
_ ->
true
end;
is_fips(_) ->
false.
cipher_restriction(Config0) ->
case is_sane_ecc(openssl) of
false ->
Opts = proplists:get_value(server_opts, Config0),
Config1 = proplists:delete(server_opts, Config0),
VerOpts = proplists:get_value(server_verification_opts, Config1),
Config = proplists:delete(server_verification_opts, Config1),
Restricted0 = ssl:cipher_suites() -- ecdsa_suites(),
Restricted = Restricted0 -- ecdh_rsa_suites(),
[{server_opts, [{ciphers, Restricted} | Opts]}, {server_verification_opts, [{ciphers, Restricted} | VerOpts] } | Config];
true ->
Config0
end.
check_sane_openssl_version(Version) ->
case supports_ssl_tls_version(Version) of
true ->
case {Version, os:cmd("openssl version")} of
{_, "OpenSSL 1.0.2" ++ _} ->
true;
{_, "OpenSSL 1.0.1" ++ _} ->
true;
{'tlsv1.2', "OpenSSL 1.0" ++ _} ->
false;
{'tlsv1.1', "OpenSSL 1.0" ++ _} ->
false;
{'tlsv1.2', "OpenSSL 0" ++ _} ->
false;
{'tlsv1.1', "OpenSSL 0" ++ _} ->
false;
{_, _} ->
true
end;
false ->
false
end.
enough_openssl_crl_support("OpenSSL 0." ++ _) -> false;
enough_openssl_crl_support(_) -> true.
wait_for_openssl_server(Port) ->
wait_for_openssl_server(Port, 10).
wait_for_openssl_server(_, 0) ->
exit(failed_to_connect_to_openssl);
wait_for_openssl_server(Port, N) ->
case gen_tcp:connect("localhost", Port, []) of
{ok, S} ->
gen_tcp:close(S);
_ ->
ct:sleep(?SLEEP),
wait_for_openssl_server(Port, N-1)
end.
version_flag(tlsv1) ->
"-tls1";
version_flag('tlsv1.1') ->
"-tls1_1";
version_flag('tlsv1.2') ->
"-tls1_2";
version_flag(sslv3) ->
"-ssl3";
version_flag(sslv2) ->
"-ssl2".
filter_suites(Ciphers0) ->
Version = tls_record:highest_protocol_version([]),
Supported0 = ssl_cipher:suites(Version)
++ ssl_cipher:anonymous_suites(Version)
++ ssl_cipher:psk_suites(Version)
++ ssl_cipher:srp_suites()
++ ssl_cipher:rc4_suites(Version),
Supported1 = ssl_cipher:filter_suites(Supported0),
Supported2 = [ssl_cipher:erl_suite_definition(S) || S <- Supported1],
[Cipher || Cipher <- Ciphers0, lists:member(Cipher, Supported2)].
-define(OPENSSL_QUIT, "Q\n").
close_port(Port) ->
catch port_command(Port, ?OPENSSL_QUIT),
close_loop(Port, 500, false).
close_loop(Port, Time, SentClose) ->
receive
{Port, {data,Debug}} when is_port(Port) ->
ct:log("openssl ~s~n",[Debug]),
close_loop(Port, Time, SentClose);
{ssl,_,Msg} ->
ct:log("ssl Msg ~s~n",[Msg]),
close_loop(Port, Time, SentClose);
{Port, closed} ->
ct:log("Port Closed~n",[]),
ok;
{'EXIT', Port, Reason} ->
ct:log("Port Closed ~p~n",[Reason]),
ok;
Msg ->
ct:log("Port Msg ~p~n",[Msg]),
close_loop(Port, Time, SentClose)
after Time ->
case SentClose of
false ->
ct:log("Closing port ~n",[]),
catch erlang:port_close(Port),
close_loop(Port, Time, true);
true ->
ct:log("Timeout~n",[])
end
end.
portable_open_port(Exe, Args) ->
AbsPath = os:find_executable(Exe),
ct:pal("open_port({spawn_executable, ~p}, [{args, ~p}, stderr_to_stdout]).", [AbsPath, Args]),
open_port({spawn_executable, AbsPath},
[{args, Args}, stderr_to_stdout]).
supports_ssl_tls_version(Version) ->
VersionFlag = version_flag(Version),
Exe = "openssl",
Args = ["s_client", VersionFlag],
Port = ssl_test_lib:portable_open_port(Exe, Args),
do_supports_ssl_tls_version(Port).
do_supports_ssl_tls_version(Port) ->
receive
{Port, {data, "unknown option" ++ _}} ->
false;
{Port, {data, Data}} ->
case lists:member("error", string:tokens(Data, ":")) of
true ->
false;
false ->
do_supports_ssl_tls_version(Port)
end
after 500 ->
true
end.