%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2011-2018. 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(inet_tls_dist).
-export([childspecs/0]).
-export([listen/1, accept/1, accept_connection/5,
setup/5, close/1, select/1, is_node_name/1]).
%% Generalized dist API
-export([gen_listen/2, gen_accept/2, gen_accept_connection/6,
gen_setup/6, gen_close/2, gen_select/2]).
-export([nodelay/0]).
-export([verify_client/3, verify_server/3, cert_nodes/1]).
-export([dbg/0]). % Debug
-include_lib("kernel/include/net_address.hrl").
-include_lib("kernel/include/dist.hrl").
-include_lib("kernel/include/dist_util.hrl").
-include_lib("public_key/include/public_key.hrl").
-include("ssl_api.hrl").
%% -------------------------------------------------------------------------
childspecs() ->
{ok, [{ssl_dist_sup,{ssl_dist_sup, start_link, []},
permanent, infinity, supervisor, [ssl_dist_sup]}]}.
select(Node) ->
gen_select(inet_tcp, Node).
gen_select(Driver, Node) ->
case dist_util:split_node(Node) of
{node,_,Host} ->
case Driver:getaddr(Host) of
{ok, _} -> true;
_ -> false
end;
_ ->
false
end.
%% -------------------------------------------------------------------------
is_node_name(Node) ->
dist_util:is_node_name(Node).
%% -------------------------------------------------------------------------
hs_data_common(#sslsocket{pid = DistCtrl} = SslSocket) ->
#hs_data{
f_send =
fun (Ctrl, Packet) when Ctrl == DistCtrl ->
f_send(SslSocket, Packet)
end,
f_recv =
fun (Ctrl, Length, Timeout) when Ctrl == DistCtrl ->
f_recv(SslSocket, Length, Timeout)
end,
f_setopts_pre_nodeup =
fun (Ctrl) when Ctrl == DistCtrl ->
f_setopts_pre_nodeup(SslSocket)
end,
f_setopts_post_nodeup =
fun (Ctrl) when Ctrl == DistCtrl ->
%%% sys:trace(Ctrl, true),
f_setopts_post_nodeup(SslSocket)
end,
f_getll =
fun (Ctrl) when Ctrl == DistCtrl ->
f_getll(DistCtrl)
end,
f_address =
fun (Ctrl, Node) when Ctrl == DistCtrl ->
f_address(SslSocket, Node)
end,
mf_tick =
fun (Ctrl) when Ctrl == DistCtrl ->
mf_tick(DistCtrl)
end,
mf_getstat =
fun (Ctrl) when Ctrl == DistCtrl ->
mf_getstat(SslSocket)
end,
mf_setopts =
fun (Ctrl, Opts) when Ctrl == DistCtrl ->
mf_setopts(SslSocket, Opts)
end,
mf_getopts =
fun (Ctrl, Opts) when Ctrl == DistCtrl ->
mf_getopts(SslSocket, Opts)
end,
f_handshake_complete =
fun (Ctrl, Node, DHandle) when Ctrl == DistCtrl ->
f_handshake_complete(DistCtrl, Node, DHandle)
end}.
f_send(SslSocket, Packet) ->
ssl:send(SslSocket, Packet).
f_recv(SslSocket, Length, Timeout) ->
case ssl:recv(SslSocket, Length, Timeout) of
{ok, Bin} when is_binary(Bin) ->
{ok, binary_to_list(Bin)};
Other ->
Other
end.
f_setopts_pre_nodeup(_SslSocket) ->
ok.
f_setopts_post_nodeup(_SslSocket) ->
ok.
f_getll(DistCtrl) ->
{ok, DistCtrl}.
f_address(SslSocket, Node) ->
case ssl:peername(SslSocket) of
{ok, Address} ->
case dist_util:split_node(Node) of
{node,_,Host} ->
#net_address{
address=Address, host=Host,
protocol=tls, family=inet};
_ ->
{error, no_node}
end
end.
mf_tick(DistCtrl) ->
DistCtrl ! tick,
ok.
mf_getstat(SslSocket) ->
case ssl:getstat(
SslSocket, [recv_cnt, send_cnt, send_pend]) of
{ok, Stat} ->
split_stat(Stat,0,0,0);
Error ->
Error
end.
mf_setopts(SslSocket, Opts) ->
case setopts_filter(Opts) of
[] ->
ssl:setopts(SslSocket, Opts);
Opts1 ->
{error, {badopts,Opts1}}
end.
mf_getopts(SslSocket, Opts) ->
ssl:getopts(SslSocket, Opts).
f_handshake_complete(DistCtrl, Node, DHandle) ->
ssl_connection:handshake_complete(DistCtrl, Node, DHandle).
setopts_filter(Opts) ->
[Opt || {K,_} = Opt <- Opts,
K =:= active orelse K =:= deliver orelse K =:= packet].
split_stat([{recv_cnt, R}|Stat], _, W, P) ->
split_stat(Stat, R, W, P);
split_stat([{send_cnt, W}|Stat], R, _, P) ->
split_stat(Stat, R, W, P);
split_stat([{send_pend, P}|Stat], R, W, _) ->
split_stat(Stat, R, W, P);
split_stat([], R, W, P) ->
{ok, R, W, P}.
%% -------------------------------------------------------------------------
listen(Name) ->
gen_listen(inet_tcp, Name).
gen_listen(Driver, Name) ->
case inet_tcp_dist:gen_listen(Driver, Name) of
{ok, {Socket, Address, Creation}} ->
inet:setopts(Socket, [{packet, 4}]),
{ok, {Socket, Address#net_address{protocol=tls}, Creation}};
Other ->
Other
end.
%% -------------------------------------------------------------------------
accept(Listen) ->
gen_accept(inet_tcp, Listen).
gen_accept(Driver, Listen) ->
Kernel = self(),
monitor_pid(
spawn_opt(
fun () ->
accept_loop(Driver, Listen, Kernel)
end,
[link, {priority, max}])).
accept_loop(Driver, Listen, Kernel) ->
case Driver:accept(Listen) of
{ok, Socket} ->
case check_ip(Driver, Socket) of
true ->
accept_loop(Driver, Listen, Kernel, Socket);
{false,IP} ->
error_logger:error_msg(
"** Connection attempt from "
"disallowed IP ~w ** ~n", [IP]),
?shutdown2(no_node, trace({disallowed, IP}))
end;
Error ->
exit(trace(Error))
end.
accept_loop(Driver, Listen, Kernel, Socket) ->
{Opts,CertNodesFun} =
setup_verify_client(
Driver, Socket, get_ssl_options(server)),
wait_for_code_server(),
case
ssl:ssl_accept(
Socket,
trace([{active, false},{packet, 4}|Opts]),
net_kernel:connecttime())
of
{ok, #sslsocket{pid = DistCtrl} = SslSocket} ->
trace(
Kernel !
{accept, self(), DistCtrl,
Driver:family(), tls}),
receive
{Kernel, controller, Pid} ->
ok = ssl:controlling_process(SslSocket, Pid),
trace(
Pid ! {self(), controller, CertNodesFun});
{Kernel, unsupported_protocol} ->
exit(trace(unsupported_protocol))
end,
accept_loop(Driver, Listen, Kernel);
{error, {options, _}} = Error ->
%% Bad options: that's probably our fault.
%% Let's log that.
error_logger:error_msg(
"Cannot accept TLS distribution connection: ~s~n",
[ssl:format_error(Error)]),
gen_tcp:close(Socket),
exit(trace(Error));
Other ->
gen_tcp:close(Socket),
exit(trace(Other))
end.
%% {verify_fun,{fun ?MODULE:verify_client/3,_}} is used
%% as a configuration marker that verify_client/3 shall be used.
%%
%% Replace the State in the first occurence of
%% {verify_fun,{fun ?MODULE:verify_client/3,State}} and remove the rest.
%% The inserted state is not accesible from a configuration file
%% since it is dynamic and connection dependent.
%%
setup_verify_client(Driver, Socket, Opts) ->
setup_verify_client(Driver, Socket, Opts, undefined, []).
%%
setup_verify_client(_Driver, _Socket, [], CertNodesFun, OptsR) ->
{lists:reverse(OptsR),CertNodesFun};
setup_verify_client(Driver, Socket, [Opt|Opts], CertNodesFun, OptsR) ->
case Opt of
{verify_fun,{Fun,NewCertNodesFun}} ->
case Fun =:= fun ?MODULE:verify_client/3 of
true when is_function(NewCertNodesFun, 1) ->
if
CertNodesFun =:= undefined ->
case inet:peername(Socket) of
{ok,{PeerIP,_Port}} ->
setup_verify_client(
Driver, Socket, Opts, NewCertNodesFun,
[{verify_fun,
{Fun,
{NewCertNodesFun,Driver,PeerIP}}}
|OptsR]);
{error,Reason} ->
exit(trace({no_peername,Reason}))
end;
true ->
setup_verify_client(
Driver, Socket, Opts, CertNodesFun, OptsR)
end;
true ->
exit(
trace(
{verify_client_bad_argument,CertNodesFun}));
false ->
setup_verify_client(
Driver, Socket, Opts, CertNodesFun, [Opt|OptsR])
end;
_ ->
setup_verify_client(
Driver, Socket, Opts, CertNodesFun, [Opt|OptsR])
end.
%% Same as verify_peer but check cert host names for
%% peer IP address
verify_client(_, {bad_cert,_} = Reason, _) ->
{fail,Reason};
verify_client(_, {extension,_}, S) ->
{unknown,S};
verify_client(_, valid, S) ->
{valid,S};
verify_client(PeerCert, valid_peer, {CertNodesFun,Driver,PeerIP} = S) ->
%%
%% Parse out all node names from the peer's certificate
%%
case CertNodesFun(PeerCert) of
undefined ->
%% Certificate allows all nodes
{valid,S};
[] ->
%% Certificate allows no nodes
{fail,cert_missing_node_name};
CertNodes ->
%% Check if the IP address of one of the nodes
%% in the peer certificate has the peer's IP address
case filter_nodes_by_ip(CertNodes, Driver, PeerIP) of
[] ->
{fail,cert_no_host_with_peer_ip};
_ ->
{valid,S}
end
end.
%% Filter out the nodes that has got the given IP address
%%
filter_nodes_by_ip(Nodes, Driver, IP) ->
[Node ||
Node <- Nodes,
case dist_util:split_node(Node) of
{node,_,Host} ->
filter_host_by_ip(Host, Driver, IP);
{host,Host} ->
filter_host_by_ip(Host, Driver, IP);
{name,_Name} ->
true
end].
filter_host_by_ip(Host, Driver, IP) ->
case Driver:getaddr(Host) of
{ok,IP} ->
true;
_ ->
false
end.
wait_for_code_server() ->
%% This is an ugly hack. Upgrading a socket to TLS requires the
%% crypto module to be loaded. Loading the crypto module triggers
%% its on_load function, which calls code:priv_dir/1 to find the
%% directory where its NIF library is. However, distribution is
%% started earlier than the code server, so the code server is not
%% necessarily started yet, and code:priv_dir/1 might fail because
%% of that, if we receive an incoming connection on the
%% distribution port early enough.
%%
%% If the on_load function of a module fails, the module is
%% unloaded, and the function call that triggered loading it fails
%% with 'undef', which is rather confusing.
%%
%% Thus, the accept process will terminate, and be
%% restarted by ssl_dist_sup. However, it won't have any memory
%% of being asked by net_kernel to listen for incoming
%% connections. Hence, the node will believe that it's open for
%% distribution, but it actually isn't.
%%
%% So let's avoid that by waiting for the code server to start.
case whereis(code_server) of
undefined ->
timer:sleep(10),
wait_for_code_server();
Pid when is_pid(Pid) ->
ok
end.
%% -------------------------------------------------------------------------
accept_connection(AcceptPid, DistCtrl, MyNode, Allowed, SetupTime) ->
gen_accept_connection(
inet_tcp, AcceptPid, DistCtrl, MyNode, Allowed, SetupTime).
gen_accept_connection(
Driver, AcceptPid, DistCtrl, MyNode, Allowed, SetupTime) ->
Kernel = self(),
monitor_pid(
spawn_opt(
fun() ->
do_accept(
Driver, Kernel, AcceptPid, DistCtrl,
MyNode, Allowed, SetupTime)
end,
[link, {priority, max}])).
do_accept(Driver, Kernel, AcceptPid, DistCtrl, MyNode, Allowed, SetupTime) ->
SslSocket = ssl_connection:get_sslsocket(DistCtrl),
receive
{AcceptPid, controller, CertNodesFun} ->
Timer = dist_util:start_timer(SetupTime),
NewAllowed =
allowed_nodes(
Driver, CertNodesFun, SslSocket, Allowed),
HSData0 = hs_data_common(SslSocket),
HSData =
HSData0#hs_data{
kernel_pid = Kernel,
this_node = MyNode,
socket = DistCtrl,
timer = Timer,
this_flags = 0,
allowed = NewAllowed},
link(DistCtrl),
dist_util:handshake_other_started(trace(HSData))
end.
%% Return a list of allowed nodes according to
%% the given Allowed list that matches the peer certificate
%%
allowed_nodes(_Driver, undefined, _SslSocket, Allowed) ->
Allowed;
allowed_nodes(Driver, CertNodesFun, SslSocket, Allowed) ->
case ssl:peercert(SslSocket) of
{ok,PeerCertDER} ->
case ssl:peername(SslSocket) of
{ok,{PeerIP,_Port}} ->
PeerCert = public_key:pkix_decode_cert(PeerCertDER, otp),
%%
%% Parse out all node names from the peer's certificate
%%
case CertNodesFun(PeerCert) of
undefined ->
%% Certificate allows all nodes
Allowed;
[] ->
%% Certificate allows no nodes
?shutdown(cert_missing_node_name);
CertNodes ->
%% Filter out all nodes in the
%% allowed list that is in peer
%% certificate and that has got
%% the same IP address as the peer
allowed(
filter_nodes_by_ip(
CertNodes, Driver, PeerIP),
Allowed)
end;
Error1 ->
?shutdown2(no_peer_ip, trace(Error1))
end;
Error2 ->
?shutdown2(no_peer_cert, trace(Error2))
end.
allowed(CertNodes, []) ->
%% Empty allowed list means all allowed
%% -> allow only certificate nodes
CertNodes;
allowed(CertNodes, Allowed) ->
%% Find the intersection of the allowed list and certificate nodes
case
[CertNode ||
CertNode <- CertNodes,
dist_util:is_allowed(CertNode, Allowed)]
of
[] ->
error_logger:error_msg(
"** Connection attempt from "
"disallowed node(s) ~p ** ~n", [CertNodes]),
?shutdown2(CertNodes, trace({is_allowed, not_allowed}));
NewAllowed ->
NewAllowed
end.
setup(Node, Type, MyNode, LongOrShortNames, SetupTime) ->
gen_setup(inet_tcp, Node, Type, MyNode, LongOrShortNames, SetupTime).
gen_setup(Driver, Node, Type, MyNode, LongOrShortNames, SetupTime) ->
Kernel = self(),
monitor_pid(
spawn_opt(
fun() ->
do_setup(
Driver, Kernel, Node, Type,
MyNode, LongOrShortNames, SetupTime)
end,
[link, {priority, max}])).
do_setup(Driver, Kernel, Node, Type, MyNode, LongOrShortNames, SetupTime) ->
{Name, Address} = split_node(Driver, Node, LongOrShortNames),
ErlEpmd = net_kernel:epmd_module(),
{ARMod, ARFun} = get_address_resolver(ErlEpmd, Driver),
Timer = trace(dist_util:start_timer(SetupTime)),
case ARMod:ARFun(Address) of
{ok, Ip, TcpPort, Version} ->
do_setup_connect(Driver, Kernel, Node, Address, Ip, TcpPort, Version, Type, MyNode, Timer);
{ok, Ip} ->
case ErlEpmd:port_please(Name, Ip) of
{port, TcpPort, Version} ->
do_setup_connect(Driver, Kernel, Node, Address, Ip, TcpPort, Version, Type, MyNode, Timer);
Other ->
?shutdown2(
Node,
trace(
{port_please_failed, ErlEpmd, Name, Ip, Other}))
end;
Other ->
?shutdown2(
Node,
trace({getaddr_failed, Driver, Address, Other}))
end.
do_setup_connect(Driver, Kernel, Node, Address, Ip, TcpPort, Version, Type, MyNode, Timer) ->
Opts =
trace(
connect_options(
%%
%% Use verify_server/3 to verify that
%% the server's certificate is for Node
%%
setup_verify_server(
get_ssl_options(client), Node))),
dist_util:reset_timer(Timer),
case ssl:connect(
Address, TcpPort,
[binary, {active, false}, {packet, 4},
Driver:family(), nodelay()] ++ Opts,
net_kernel:connecttime()) of
{ok, #sslsocket{pid = DistCtrl} = SslSocket} ->
_ = monitor_pid(DistCtrl),
ok = ssl:controlling_process(SslSocket, self()),
HSData0 = hs_data_common(SslSocket),
HSData =
HSData0#hs_data{
kernel_pid = Kernel,
other_node = Node,
this_node = MyNode,
socket = DistCtrl,
timer = Timer,
this_flags = 0,
other_version = Version,
request_type = Type},
link(DistCtrl),
dist_util:handshake_we_started(trace(HSData));
Other ->
%% Other Node may have closed since
%% port_please !
?shutdown2(
Node,
trace(
{ssl_connect_failed, Ip, TcpPort, Other}))
end.
close(Socket) ->
gen_close(inet, Socket).
gen_close(Driver, Socket) ->
trace(Driver:close(Socket)).
%% {verify_fun,{fun ?MODULE:verify_server/3,_}} is used
%% as a configuration marker that verify_server/3 shall be used.
%%
%% Replace the State in the first occurence of
%% {verify_fun,{fun ?MODULE:verify_server/3,State}} and remove the rest.
%% The inserted state is not accesible from a configuration file
%% since it is dynamic and connection dependent.
%%
setup_verify_server(Opts, Node) ->
setup_verify_server(Opts, Node, true).
%%
setup_verify_server([], _Node, _) ->
[];
setup_verify_server([Opt|Opts], Node, Once) ->
case Opt of
{verify_fun,{Fun,CertNodesFun}} ->
case Fun =:= fun ?MODULE:verify_server/3 of
true when not is_function(CertNodesFun, 1) ->
?shutdown2(
Node,
{verify_server_bad_argument,CertNodesFun});
true when Once ->
[{verify_fun,{Fun,{CertNodesFun,Node}}}
|setup_verify_server(Opts, Node, false)];
true ->
setup_verify_server(Opts, Node, Once);
false ->
[Opt|setup_verify_server(Opts, Node, Once)]
end;
_ ->
[Opt|setup_verify_server(Opts, Node, Once)]
end.
verify_server(_, {bad_cert,_} = Reason, _) ->
{fail,Reason};
verify_server(_, {extension,_}, S) ->
{unknown,S};
verify_server(_, valid, S) ->
{valid,S};
verify_server(PeerCert, valid_peer, {CertNodesFun,Node} = S) ->
%%
%% Parse out all node names from the peer's certificate
%%
case CertNodesFun(PeerCert) of
undefined ->
%% Certificate allows all nodes
{valid,S};
[] ->
%% Certificate allows no nodes
{fail,cert_missing_node_name};
CertNodes ->
%% Check that the node we are connecting to
%% is in the peer certificate
case dist_util:is_allowed(Node, CertNodes) of
true ->
{valid,S};
false ->
{fail,wrong_nodes_in_cert}
end
end.
%% ------------------------------------------------------------
%% Determine if EPMD module supports address resolving. Default
%% is to use inet_tcp:getaddr/2.
%% ------------------------------------------------------------
get_address_resolver(EpmdModule, Driver) ->
case erlang:function_exported(EpmdModule, address_please, 3) of
true -> {EpmdModule, address_please};
_ -> {Driver, getaddr}
end.
%% ------------------------------------------------------------
%% Do only accept new connection attempts from nodes at our
%% own LAN, if the check_ip environment parameter is true.
%% ------------------------------------------------------------
check_ip(Driver, Socket) ->
case application:get_env(check_ip) of
{ok, true} ->
case get_ifs(Socket) of
{ok, IFs, IP} ->
check_ip(Driver, IFs, IP);
Other ->
?shutdown2(
no_node, trace({check_ip_failed, Socket, Other}))
end;
_ ->
true
end.
check_ip(Driver, [{OwnIP, _, Netmask}|IFs], PeerIP) ->
case {Driver:mask(Netmask, PeerIP), Driver:mask(Netmask, OwnIP)} of
{M, M} -> true;
_ -> check_ip(IFs, PeerIP)
end;
check_ip(_Driver, [], PeerIP) ->
{false, PeerIP}.
get_ifs(Socket) ->
case inet:peername(Socket) of
{ok, {IP, _}} ->
%% XXX this is seriously broken for IPv6
case inet:getif(Socket) of
{ok, IFs} -> {ok, IFs, IP};
Error -> Error
end;
Error ->
Error
end.
%% Look in Extensions, in all subjectAltName:s
%% to find node names in this certificate.
%% Host names are picked up as a subjectAltName containing
%% a dNSName, and the first subjectAltName containing
%% a commonName is the node name.
%%
cert_nodes(
#'OTPCertificate'{
tbsCertificate = #'OTPTBSCertificate'{extensions = Extensions}}) ->
parse_extensions(Extensions).
parse_extensions(Extensions) when is_list(Extensions) ->
parse_extensions(Extensions, [], []);
parse_extensions(asn1_NOVALUE) ->
undefined. % Allow all nodes
%%
parse_extensions([], [], []) ->
undefined; % Allow all nodes
parse_extensions([], Hosts, []) ->
lists:reverse(Hosts);
parse_extensions([], [], Names) ->
[Name ++ "@" || Name <- lists:reverse(Names)];
parse_extensions([], Hosts, Names) ->
[Name ++ "@" ++ Host ||
Host <- lists:reverse(Hosts),
Name <- lists:reverse(Names)];
parse_extensions(
[#'Extension'{
extnID = ?'id-ce-subjectAltName',
extnValue = AltNames}
|Extensions],
Hosts, Names) ->
case parse_subject_altname(AltNames) of
none ->
parse_extensions(Extensions, Hosts, Names);
{host,Host} ->
parse_extensions(Extensions, [Host|Hosts], Names);
{name,Name} ->
parse_extensions(Extensions, Hosts, [Name|Names])
end;
parse_extensions([_|Extensions], Hosts, Names) ->
parse_extensions(Extensions, Hosts, Names).
parse_subject_altname([]) ->
none;
parse_subject_altname([{dNSName,Host}|_AltNames]) ->
{host,Host};
parse_subject_altname(
[{directoryName,{rdnSequence,[Rdn|_]}}|AltNames]) ->
%%
%% XXX Why is rdnSequence a sequence?
%% Should we parse all members?
%%
case parse_rdn(Rdn) of
none ->
parse_subject_altname(AltNames);
Name ->
{name,Name}
end;
parse_subject_altname([_|AltNames]) ->
parse_subject_altname(AltNames).
parse_rdn([]) ->
none;
parse_rdn(
[#'AttributeTypeAndValue'{
type = ?'id-at-commonName',
value = {utf8String,CommonName}}|_]) ->
unicode:characters_to_list(CommonName);
parse_rdn([_|Rdn]) ->
parse_rdn(Rdn).
%% If Node is illegal terminate the connection setup!!
split_node(Driver, Node, LongOrShortNames) ->
case dist_util:split_node(Node) of
{node, Name, Host} ->
check_node(Driver, Node, Name, Host, LongOrShortNames);
{host, _} ->
error_logger:error_msg(
"** Nodename ~p illegal, no '@' character **~n",
[Node]),
?shutdown2(Node, trace({illegal_node_n@me, Node}));
_ ->
error_logger:error_msg(
"** Nodename ~p illegal **~n", [Node]),
?shutdown2(Node, trace({illegal_node_name, Node}))
end.
check_node(Driver, Node, Name, Host, LongOrShortNames) ->
case string:split(Host, ".", all) of
[_] when LongOrShortNames =:= longnames ->
case Driver:parse_address(Host) of
{ok, _} ->
{Name, Host};
_ ->
error_logger:error_msg(
"** System running to use "
"fully qualified hostnames **~n"
"** Hostname ~s is illegal **~n",
[Host]),
?shutdown2(Node, trace({not_longnames, Host}))
end;
[_,_|_] when LongOrShortNames =:= shortnames ->
error_logger:error_msg(
"** System NOT running to use "
"fully qualified hostnames **~n"
"** Hostname ~s is illegal **~n",
[Host]),
?shutdown2(Node, trace({not_shortnames, Host}));
_ ->
{Name, Host}
end.
%% -------------------------------------------------------------------------
connect_options(Opts) ->
case application:get_env(kernel, inet_dist_connect_options) of
{ok,ConnectOpts} ->
lists:ukeysort(1, ConnectOpts ++ Opts);
_ ->
Opts
end.
%% we may not always want the nodelay behaviour
%% for performance reasons
nodelay() ->
case application:get_env(kernel, dist_nodelay) of
undefined ->
{nodelay, true};
{ok, true} ->
{nodelay, true};
{ok, false} ->
{nodelay, false};
_ ->
{nodelay, true}
end.
get_ssl_options(Type) ->
try ets:lookup(ssl_dist_opts, Type) of
[{Type, Opts}] ->
[{erl_dist, true} | Opts];
_ ->
get_ssl_dist_arguments(Type)
catch
error:badarg ->
get_ssl_dist_arguments(Type)
end.
get_ssl_dist_arguments(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(_Type, []) ->
[];
ssl_options(client, ["client_" ++ Opt, Value | T] = Opts) ->
ssl_options(client, T, Opts, Opt, Value);
ssl_options(server, ["server_" ++ Opt, Value | T] = Opts) ->
ssl_options(server, T, Opts, Opt, Value);
ssl_options(Type, [_Opt, _Value | T]) ->
ssl_options(Type, T).
%%
ssl_options(Type, T, Opts, Opt, Value) ->
case ssl_option(Type, Opt) of
error ->
error(malformed_ssl_dist_opt, [Type, Opts]);
Fun ->
[{list_to_atom(Opt), Fun(Value)}|ssl_options(Type, T)]
end.
ssl_option(server, Opt) ->
case Opt of
"dhfile" -> fun listify/1;
"fail_if_no_peer_cert" -> fun atomize/1;
_ -> ssl_option(client, Opt)
end;
ssl_option(client, Opt) ->
case Opt of
"certfile" -> fun listify/1;
"cacertfile" -> fun listify/1;
"keyfile" -> fun listify/1;
"password" -> fun listify/1;
"verify" -> fun atomize/1;
"verify_fun" -> fun verify_fun/1;
"crl_check" -> fun atomize/1;
"crl_cache" -> fun termify/1;
"reuse_sessions" -> fun atomize/1;
"secure_renegotiate" -> fun atomize/1;
"depth" -> fun erlang:list_to_integer/1;
"hibernate_after" -> fun erlang:list_to_integer/1;
"ciphers" -> fun listify/1;
_ -> error
end.
listify(List) when is_list(List) ->
List.
atomize(List) when is_list(List) ->
list_to_atom(List);
atomize(Atom) when is_atom(Atom) ->
Atom.
termify(String) when is_list(String) ->
{ok, Tokens, _} = erl_scan:string(String ++ "."),
{ok, Term} = erl_parse:parse_term(Tokens),
Term.
verify_fun(Value) ->
case termify(Value) of
{Mod, Func, State} when is_atom(Mod), is_atom(Func) ->
Fun = fun Mod:Func/3,
{Fun, State};
_ ->
error(malformed_ssl_dist_opt, [Value])
end.
%% -------------------------------------------------------------------------
%% Trace point
trace(Term) -> Term.
%% Keep an eye on distribution Pid:s we know of
monitor_pid(Pid) ->
%%spawn(
%% fun () ->
%% MRef = erlang:monitor(process, Pid),
%% receive
%% {'DOWN', MRef, _, _, normal} ->
%% error_logger:error_report(
%% [dist_proc_died,
%% {reason, normal},
%% {pid, Pid}]);
%% {'DOWN', MRef, _, _, Reason} ->
%% error_logger:info_report(
%% [dist_proc_died,
%% {reason, Reason},
%% {pid, Pid}])
%% end
%% end),
Pid.
dbg() ->
dbg:stop(),
dbg:tracer(),
dbg:p(all, c),
dbg:tpl(?MODULE, cx),
dbg:tpl(erlang, dist_ctrl_get_data_notification, cx),
dbg:tpl(erlang, dist_ctrl_get_data, cx),
dbg:tpl(erlang, dist_ctrl_put_data, cx),
ok.