%%--------------------------------------------------------------------
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2004-2010. 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%
%%
%%
%%-----------------------------------------------------------------
%% File: orber_env.erl
%%
%% Description:
%% Handling environment parameters for Orber.
%%
%% Creation date: 040723
%%
%%-----------------------------------------------------------------
-module(orber_env).
-behaviour(gen_server).
-include_lib("orber/include/corba.hrl").
-include_lib("orber/src/orber_iiop.hrl").
%%-----------------------------------------------------------------
%% External exports
%%-----------------------------------------------------------------
-export([start/1, configure/2, configure/3, configure_override/2,
multi_configure/1, get_env/1, set_env/2, get_keys/0, env/1,
info/0, info/1]).
-export([iiop_acl/0, iiop_port/0, nat_iiop_port/0, nat_iiop_port/1, iiop_out_ports/0,
domain/0, ip_address_variable_defined/0, nat_host/0, nat_host/1, host/0,
ip_address/0, ip_address/1, giop_version/0, iiop_timeout/0, iiop_out_ports_random/0,
iiop_connection_timeout/0, iiop_setup_connection_timeout/0, iiop_out_ports_attempts/0,
iiop_in_connection_timeout/0, iiop_max_fragments/0, iiop_max_in_requests/0,
iiop_max_in_connections/0, iiop_backlog/0, objectkeys_gc_time/0,
get_ORBInitRef/0, get_ORBDefaultInitRef/0, get_interceptors/0,
get_local_interceptors/0, get_cached_interceptors/0,
set_interceptors/1, is_lightweight/0, get_lightweight_nodes/0, secure/0,
iiop_ssl_backlog/0, iiop_ssl_port/0, nat_iiop_ssl_port/0, nat_iiop_ssl_port/1,
ssl_server_opts/0, ssl_client_opts/0, set_ssl_client_opts/1,
ssl_server_certfile/0, ssl_client_certfile/0, set_ssl_client_certfile/1,
ssl_server_verify/0, ssl_client_verify/0, set_ssl_client_verify/1,
ssl_server_depth/0, ssl_client_depth/0, set_ssl_client_depth/1,
ssl_server_cacertfile/0, ssl_client_cacertfile/0,
set_ssl_client_cacertfile/1, ssl_client_password/0,
ssl_server_password/0, ssl_client_keyfile/0, ssl_server_keyfile/0,
ssl_client_ciphers/0, ssl_server_ciphers/0, ssl_client_cachetimeout/0,
ssl_server_cachetimeout/0,
get_flags/0, typechecking/0,
exclude_codeset_ctx/0, exclude_codeset_component/0, partial_security/0,
use_CSIv2/0, use_FT/0, ip_version/0, light_ifr/0, bidir_context/0,
get_debug_level/0, getaddrstr/2, addr2str/1, iiop_packet_size/0,
iiop_ssl_ip_address_local/0, ip_address_local/0, iiop_in_keepalive/0,
iiop_out_keepalive/0, iiop_ssl_in_keepalive/0, iiop_ssl_out_keepalive/0,
iiop_ssl_accept_timeout/0, ssl_generation/0]).
%%-----------------------------------------------------------------
%% Internal exports
%%-----------------------------------------------------------------
-export([init/1, terminate/2, handle_call/3]).
-export([handle_cast/2, handle_info/2, code_change/3]).
%%-----------------------------------------------------------------
%% Record Definitions Etc.
%%-----------------------------------------------------------------
-define(DEBUG_LEVEL, 5).
-define(FORMAT(_F, _A), {error, lists:flatten(io_lib:format(_F, _A))}).
-define(EFORMAT(_F, _A), exit(lists:flatten(io_lib:format(_F, _A)))).
-define(ENV_DB, orber_env_db).
-define(ENV_KEYS,
[flags, iiop_port, nat_iiop_port, iiop_out_ports, domain, ip_address,
nat_ip_address, giop_version, iiop_timeout, iiop_connection_timeout,
iiop_setup_connection_timeout, iiop_in_connection_timeout, iiop_acl,
iiop_max_fragments, iiop_max_in_requests, iiop_max_in_connections,
iiop_backlog, objectkeys_gc_time, orbInitRef, orbDefaultInitRef,
interceptors, local_interceptors, lightweight, ip_address_local,
secure, iiop_ssl_ip_address_local, iiop_ssl_backlog,
iiop_ssl_port, nat_iiop_ssl_port, ssl_server_certfile,
ssl_client_certfile, ssl_server_verify, ssl_client_verify, ssl_server_depth,
ssl_client_depth, ssl_server_cacertfile, ssl_client_cacertfile,
ssl_client_password, ssl_server_password, ssl_client_keyfile,
ssl_server_keyfile, ssl_client_ciphers, ssl_server_ciphers,
ssl_client_cachetimeout, ssl_server_cachetimeout, orber_debug_level,
iiop_packet_size, iiop_in_keepalive, iiop_out_keepalive,
iiop_ssl_in_keepalive, iiop_ssl_out_keepalive, iiop_ssl_accept_timeout,
ssl_server_opts, ssl_client_opts]).
%% The 'flags' parameter must be first in the list.
%-define(ENV_KEYS,
% [{flags, ?ORB_ENV_INIT_FLAGS}, {iiop_port, 4001}, nat_iiop_port,
% {iiop_out_ports, 0}, {domain, "ORBER"}, ip_address, nat_ip_address,
% {giop_version, {1, 1}}, {iiop_timeout, infinity},
% {iiop_connection_timeout, infinity}, {iiop_setup_connection_timeout, infinity},
% {iiop_in_connection_timeout, infinity}, {iiop_acl, []},
% {iiop_max_fragments, infinity}, {iiop_max_in_requests, infinity},
% {iiop_max_in_connections, infinity}, {iiop_backlog, 5},
% {objectkeys_gc_time, infinity},
% {orbInitRef, undefined}, {orbDefaultInitRef, undefined},
% {interceptors, false}, {local_interceptors, false}, {lightweight, false},
% {secure, no}, {iiop_ssl_backlog, 5}, {iiop_ssl_port, 4002},
% nat_iiop_ssl_port, {ssl_server_certfile, []}, {ssl_client_certfile, []},
% {ssl_server_verify, 0}, {ssl_client_verify, 0}, {ssl_server_depth, 1},
% {ssl_client_depth, 1}, {ssl_server_cacertfile, []},
% {ssl_client_cacertfile, []}, {ssl_client_password, []},
% {ssl_server_password, []}, {ssl_client_keyfile, []},
% {ssl_server_keyfile, []}, {ssl_client_ciphers, []},
% {ssl_server_ciphers, []}, {ssl_client_cachetimeout, infinity},
% {ssl_server_cachetimeout, infinity}, {orber_debug_level, 0}]).
-record(parameters, {key, value, flags = 0}).
-record(env, {acl, parameters, flags = 0}).
%%-----------------------------------------------------------------
%% External functions
%%-----------------------------------------------------------------
%%-----------------------------------------------------------------
%% function :
%% Arguments:
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
start(Opts) ->
gen_server:start_link({local, orber_env}, ?MODULE, Opts, []).
%%-----------------------------------------------------------------
%% function : get_keys
%% Arguments:
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
get_keys() ->
?ENV_KEYS.
%%-----------------------------------------------------------------
%% function : get_env
%% Arguments:
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
get_env(Key) when is_atom(Key) ->
case catch ets:lookup(?ENV_DB, Key) of
[#parameters{value = Val}] ->
{ok, Val};
_ ->
undefined
end.
%%-----------------------------------------------------------------
%% function : get_env
%% Arguments:
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
set_env(Key, Value) when is_atom(Key) ->
case catch ets:insert(?ENV_DB, #parameters{key = Key, value = Value}) of
true ->
ok;
_ ->
undefined
end.
%%-----------------------------------------------------------------
%% function : info
%% Arguments: IoDervice - info_msg | string | io | {io, Dev}
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
info() ->
info(info_msg).
info(IoDevice) ->
Info =
case orber_tb:is_running() of
true ->
Info1 = create_main_info(),
Info2 = create_flag_info(Info1),
create_security_info(secure(), Info2);
_ ->
lists:flatten(
io_lib:format("======= Orber Execution Environment ======~n"
" *** Orber-~s is not running ***~n"
"==========================================~n",
[?ORBVSN]))
end,
case IoDevice of
info_msg ->
error_logger:info_msg(Info);
string ->
Info;
io ->
io:format("~s", [Info]);
{io, Dev} ->
io:format(Dev, "~s", [Info]);
_ ->
exit("Bad parameter")
end.
create_main_info() ->
{Major, Minor} = giop_version(),
[io_lib:format("======= Orber Execution Environment ======~n"
"Orber version.................: ~s~n"
"Orber domain..................: ~s~n"
"IIOP port number..............: ~p~n"
"IIOP NAT port number..........: ~p~n"
"Interface(s)..................: ~p~n"
"Interface(s) NAT..............: ~p~n"
"Local Interface (default).....: ~p~n"
"Nodes in domain...............: ~p~n"
"GIOP version (default)........: ~p.~p~n"
"IIOP out timeout..............: ~p msec~n"
"IIOP out connection timeout...: ~p msec~n"
"IIOP setup connection timeout.: ~p msec~n"
"IIOP out ports................: ~p~n"
"IIOP out ports attempts.......: ~p~n"
"IIOP out ports random.........: ~p~n"
"IIOP out connections..........: ~p~n"
"IIOP out connections (pending): ~p~n"
"IIOP out keepalive............: ~p~n"
"IIOP in connections...........: ~p~n"
"IIOP in connection timeout....: ~p msec~n"
"IIOP in keepalive.............: ~p~n"
"IIOP max fragments............: ~p~n"
"IIOP max in requests..........: ~p~n"
"IIOP max in connections.......: ~p~n"
"IIOP backlog..................: ~p~n"
"IIOP ACL......................: ~p~n"
"IIOP maximum packet size......: ~p~n"
"Object Keys GC interval.......: ~p~n"
"Using Interceptors............: ~p~n"
"Using Local Interceptors......: ~p~n"
"Debug Level...................: ~p~n"
"orbInitRef....................: ~p~n"
"orbDefaultInitRef.............: ~p~n",
[?ORBVSN, domain(), iiop_port(), nat_iiop_port(), host(),
nat_host(), ip_address_local(),
orber:orber_nodes(), Major, Minor,
iiop_timeout(), iiop_connection_timeout(),
iiop_setup_connection_timeout(), iiop_out_ports(),
iiop_out_ports_attempts(), iiop_out_ports_random(),
orber:iiop_connections(out), orber:iiop_connections_pending(),
iiop_out_keepalive(), orber:iiop_connections(in),
iiop_in_connection_timeout(), iiop_in_keepalive(),
iiop_max_fragments(), iiop_max_in_requests(),
iiop_max_in_connections(), iiop_backlog(), iiop_acl(),
iiop_packet_size(), objectkeys_gc_time(), get_interceptors(),
get_local_interceptors(), get_debug_level(), get_ORBInitRef(),
get_ORBDefaultInitRef()])].
create_flag_info(Info) ->
case get_flags() of
?ORB_ENV_INIT_FLAGS ->
[Info, "System Flags Set..............: -\n"];
Flags ->
FlagData = check_flags(?ORB_ENV_FLAGS, Flags, []),
[Info, "System Flags Set..............: \n", FlagData, "\n"]
end.
check_flags([], _, Acc) ->
Acc;
check_flags([{Flag, Txt}|T], Flags, Acc) when ?ORB_FLAG_TEST(Flags, Flag) ->
check_flags(T, Flags, [" - ", Txt, "\n"|Acc]);
check_flags([_|T], Flags, Acc) ->
check_flags(T, Flags, Acc).
create_security_info(no, Info) ->
lists:flatten([Info, "=========================================\n"]);
create_security_info(ssl, Info) ->
lists:flatten([Info,
io_lib:format("ORB security..................: ssl~n"
"SSL generation................: ~p~n"
"SSL IIOP in keepalive.........: ~p~n"
"SSL IIOP out keepalive........: ~p~n"
"SSL IIOP port number..........: ~p~n"
"SSL IIOP NAT port number......: ~p~n"
"SSL IIOP accept timeout.......: ~p~n"
"SSL IIOP backlog..............: ~p~n"
"SSL IIOP Local Interface......: ~p~n"
"SSL server certfile...........: ~p~n"
"SSL server verification type..: ~p~n"
"SSL server verification depth.: ~p~n"
"SSL server cacertfile.........: ~p~n"
"SSL server keyfile............: ~p~n"
"SSL server password...........: ~p~n"
"SSL server ciphers............: ~p~n"
"SSL server cachetimeout.......: ~p~n"
"SSL client certfile...........: ~p~n"
"SSL client verification type..: ~p~n"
"SSL client verification depth.: ~p~n"
"SSL client cacertfile.........: ~p~n"
"SSL client keyfile............: ~p~n"
"SSL client password...........: ~p~n"
"SSL client ciphers............: ~p~n"
"SSL client cachetimeout.......: ~p~n"
"=========================================~n",
[ssl_generation(), iiop_ssl_port(),
iiop_ssl_in_keepalive(), iiop_ssl_out_keepalive(),
nat_iiop_ssl_port(), iiop_ssl_accept_timeout(),
iiop_ssl_backlog(), iiop_ssl_ip_address_local(),
ssl_server_certfile(), ssl_server_verify(),
ssl_server_depth(), ssl_server_cacertfile(),
ssl_server_keyfile(), ssl_server_password(),
ssl_server_ciphers(), ssl_server_cachetimeout(),
ssl_client_certfile(), ssl_client_verify(),
ssl_client_depth(), ssl_client_cacertfile(),
ssl_client_keyfile(), ssl_client_password(),
ssl_client_ciphers(), ssl_client_cachetimeout()])]).
%%-----------------------------------------------------------------
%% function : iiop_acl
%% Arguments:
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
iiop_acl() ->
case application:get_env(orber, iiop_acl) of
{ok, ACL} when is_list(ACL) ->
ACL;
_ ->
[]
end.
iiop_packet_size() ->
case application:get_env(orber, iiop_packet_size) of
{ok, Max} when is_integer(Max) andalso Max > 0 ->
Max;
_ ->
infinity
end.
iiop_port() ->
case application:get_env(orber, iiop_port) of
{ok, Port} when is_integer(Port) andalso Port >= 0 ->
Port;
_ ->
4001
end.
nat_iiop_port() ->
case application:get_env(orber, nat_iiop_port) of
{ok, Port} when is_integer(Port) andalso Port > 0 ->
Port;
{ok, {local, Default, _NATList}} ->
Default;
_ ->
iiop_port()
end.
nat_iiop_port(LocalPort) ->
case application:get_env(orber, nat_iiop_port) of
{ok, Port} when is_integer(Port) andalso Port > 0 ->
Port;
{ok, {local, Default, NATList}} ->
orber_tb:keysearch(LocalPort, NATList, Default);
_ ->
iiop_port()
end.
iiop_out_ports() ->
case application:get_env(orber, iiop_out_ports) of
{ok, {Min, Max}} when is_integer(Min) andalso is_integer(Max) andalso Min =< Max ->
{Min, Max};
{ok, {Max, Min}} when is_integer(Min) andalso is_integer(Max) andalso Min < Max ->
{Min, Max};
_ ->
0
end.
iiop_out_ports_random() ->
case application:get_env(orber, iiop_out_ports_random) of
{ok, true} ->
true;
_ ->
false
end.
iiop_out_ports_attempts() ->
case application:get_env(orber, iiop_out_ports_attempts) of
{ok, No} when is_integer(No) andalso No > 0 ->
No;
_ ->
1
end.
domain() ->
case application:get_env(orber, domain) of
{ok, Domain} when is_list(Domain) ->
Domain;
{ok, Domain} when is_atom(Domain) ->
atom_to_list(Domain);
_ ->
"ORBER"
end.
ip_address_variable_defined() ->
case application:get_env(orber, ip_address) of
undefined ->
false;
{ok,{multiple, _}} ->
false;
_ ->
[Host] = host(),
Host
end.
nat_host() ->
case application:get_env(orber, nat_ip_address) of
{ok,I} when is_list(I) ->
[I];
{ok,{multiple, [I|_] = IList}} when is_list(I) ->
IList;
{ok,{local, Default, _NATList}} ->
[Default];
_ ->
host()
end.
nat_host([Host]) ->
case application:get_env(orber, nat_ip_address) of
{ok,I} when is_list(I) ->
[I];
{ok,{multiple, [I|_] = IList}} when is_list(I) ->
IList;
{ok,{local, Default, NATList}} ->
[orber_tb:keysearch(Host, NATList, Default)];
_ ->
host()
end.
host() ->
case application:get_env(orber, ip_address) of
{ok,I} when is_list(I) ->
[I];
{ok,{multiple, [I|_] = IList}} when is_list(I) ->
IList;
%% IPv4. For IPv6 we only accept a string, but we must support this format
%% for IPv4
{ok, {A1, A2, A3, A4}} when is_integer(A1+A2+A3+A4) ->
[integer_to_list(A1) ++ "." ++ integer_to_list(A2) ++ "." ++ integer_to_list(A3)
++ "." ++ integer_to_list(A4)];
_ ->
Flags = get_flags(),
case ?ORB_FLAG_TEST(Flags, ?ORB_ENV_HOSTNAME_IN_IOR) of
true ->
{ok, Hostname} = inet:gethostname(),
[Hostname];
_ ->
case ?ORB_FLAG_TEST(Flags, ?ORB_ENV_USE_IPV6) of
false ->
[ip_address(inet)];
true ->
[ip_address(inet6)]
end
end
end.
ip_address_local() ->
case application:get_env(orber, ip_address_local) of
{ok,I} when is_list(I) ->
[I];
_ ->
[]
end.
ip_address() ->
ip_address(ip_version()).
ip_address(inet) ->
{ok, Hostname} = inet:gethostname(),
{ok, {A1, A2, A3, A4}} = inet:getaddr(Hostname, inet),
integer_to_list(A1) ++ "." ++ integer_to_list(A2) ++ "." ++ integer_to_list(A3)
++ "." ++ integer_to_list(A4);
ip_address(inet6) ->
{ok, Hostname} = inet:gethostname(),
{ok, {A1, A2, A3, A4, A5, A6, A7, A8}} = inet:getaddr(Hostname, inet6),
int16_to_hex(A1) ++ ":" ++int16_to_hex(A2) ++ ":" ++
int16_to_hex(A3) ++ ":" ++ int16_to_hex(A4) ++ ":" ++
int16_to_hex(A5) ++ ":" ++ int16_to_hex(A6) ++ ":" ++
int16_to_hex(A7) ++ ":" ++ int16_to_hex(A8).
getaddrstr(Hostname, inet) ->
{ok, {A1, A2, A3, A4}} = inet:getaddr(Hostname, inet),
integer_to_list(A1) ++ "." ++ integer_to_list(A2) ++ "." ++ integer_to_list(A3)
++ "." ++ integer_to_list(A4);
getaddrstr(Hostname, inet6) ->
{ok, {A1, A2, A3, A4, A5, A6, A7, A8}} = inet:getaddr(Hostname, inet6),
int16_to_hex(A1) ++ ":" ++int16_to_hex(A2) ++ ":" ++
int16_to_hex(A3) ++ ":" ++ int16_to_hex(A4) ++ ":" ++
int16_to_hex(A5) ++ ":" ++ int16_to_hex(A6) ++ ":" ++
int16_to_hex(A7) ++ ":" ++ int16_to_hex(A8).
addr2str({A1, A2, A3, A4}) ->
integer_to_list(A1) ++ "." ++ integer_to_list(A2) ++ "." ++ integer_to_list(A3)
++ "." ++ integer_to_list(A4);
addr2str({A1, A2, A3, A4, A5, A6, A7, A8}) ->
int16_to_hex(A1) ++ ":" ++int16_to_hex(A2) ++ ":" ++
int16_to_hex(A3) ++ ":" ++ int16_to_hex(A4) ++ ":" ++
int16_to_hex(A5) ++ ":" ++ int16_to_hex(A6) ++ ":" ++
int16_to_hex(A7) ++ ":" ++ int16_to_hex(A8).
int16_to_hex(0) ->
[$0];
int16_to_hex(I) ->
N1 = ((I bsr 8) band 16#ff),
N2 = (I band 16#ff),
[code_character(N1 div 16), code_character(N1 rem 16),
code_character(N2 div 16), code_character(N2 rem 16)].
code_character(N) when N < 10 ->
$0 + N;
code_character(N) ->
$A + (N - 10).
giop_version() ->
case application:get_env(orber, giop_version) of
{ok, {Major, Minor}} ->
{Major, Minor};
_ ->
{1, 1}
end.
iiop_timeout() ->
case application:get_env(orber, iiop_timeout) of
{ok, Int} when is_integer(Int) ->
if
Int > 1000000 ->
error_logger:error_msg("Orber 'iiop_timeout' badly configured.~n"
"Time to large (>1000000 sec), swithed to 'infinity'~n"),
infinity;
true ->
%% Convert to msec.
Int*1000
end;
_ ->
infinity
end.
iiop_connection_timeout() ->
case application:get_env(orber, iiop_connection_timeout) of
{ok, Int} when is_integer(Int) ->
if
Int > 1000000 ->
error_logger:error_msg("Orber 'iiop_connection_timeout' badly configured.~n"
"Time to large (>1000000 sec), swithed to 'infinity'~n"),
infinity;
true ->
%% Convert to msec.
Int*1000
end;
_ ->
infinity
end.
iiop_setup_connection_timeout() ->
case application:get_env(orber, iiop_setup_connection_timeout) of
{ok, Int} when is_integer(Int) ->
%% Convert to msec.
Int*1000;
_ ->
infinity
end.
iiop_in_connection_timeout() ->
case application:get_env(orber, iiop_in_connection_timeout) of
{ok, Int} when is_integer(Int) ->
if
Int > 1000000 ->
error_logger:error_msg("Orber 'iiop_connection_timeout' badly configured.~n"
"Time to large (>1000000 sec), swithed to 'infinity'~n"),
infinity;
true ->
%% Convert to msec.
Int*1000
end;
_ ->
infinity
end.
iiop_max_fragments() ->
case application:get_env(orber, iiop_max_fragments) of
{ok, Max} when is_integer(Max) andalso Max > 0 ->
Max;
_ ->
infinity
end.
iiop_max_in_requests() ->
case application:get_env(orber, iiop_max_in_requests) of
{ok, Max} when is_integer(Max) andalso Max > 0 ->
Max;
_ ->
infinity
end.
iiop_max_in_connections() ->
case application:get_env(orber, iiop_max_in_connections) of
{ok, Max} when is_integer(Max) andalso Max > 0 ->
Max;
_ ->
infinity
end.
iiop_backlog() ->
case application:get_env(orber, iiop_backlog) of
{ok, Int} when is_integer(Int) andalso Int >= 0 ->
Int;
_ ->
5
end.
iiop_in_keepalive() ->
case application:get_env(orber, iiop_in_keepalive) of
{ok, true} ->
true;
_ ->
false
end.
iiop_out_keepalive() ->
case application:get_env(orber, iiop_out_keepalive) of
{ok, true} ->
true;
_ ->
false
end.
get_flags() ->
case get(oe_orber_flags) of
undefined ->
case application:get_env(orber, flags) of
undefined ->
put(oe_orber_flags, ?ORB_ENV_INIT_FLAGS),
?ORB_ENV_INIT_FLAGS;
{ok, Flags} ->
put(oe_orber_flags, Flags),
Flags
end;
Flags when is_integer(Flags) ->
Flags
end.
typechecking() ->
?ORB_FLAG_TEST(get_flags(), ?ORB_ENV_LOCAL_TYPECHECKING).
exclude_codeset_ctx() ->
?ORB_FLAG_TEST(get_flags(), ?ORB_ENV_EXCLUDE_CODESET_CTX).
exclude_codeset_component() ->
?ORB_FLAG_TEST(get_flags(), ?ORB_ENV_EXCLUDE_CODESET_COMPONENT).
partial_security() ->
?ORB_FLAG_TEST(get_flags(), ?ORB_ENV_PARTIAL_SECURITY).
use_CSIv2() ->
?ORB_FLAG_TEST(get_flags(), ?ORB_ENV_USE_CSIV2).
use_FT() ->
?ORB_FLAG_TEST(get_flags(), ?ORB_ENV_USE_FT).
ip_version() ->
case ?ORB_FLAG_TEST(get_flags(), ?ORB_ENV_USE_IPV6) of
false ->
inet;
true ->
inet6
end.
light_ifr() ->
?ORB_FLAG_TEST(get_flags(), ?ORB_ENV_LIGHT_IFR).
bidir_context() ->
Flags = get_flags(),
if
?ORB_FLAG_TEST(Flags, ?ORB_ENV_USE_BI_DIR_IIOP) ->
[#'IOP_ServiceContext'
{context_id=?IOP_BI_DIR_IIOP,
context_data =
#'IIOP_BiDirIIOPServiceContext'{listen_points =
[#'IIOP_ListenPoint'{host=host(),
port=iiop_port()}]}}];
true ->
[]
end.
objectkeys_gc_time() ->
case application:get_env(orber, objectkeys_gc_time) of
{ok, Int} when is_integer(Int) ->
if
Int > 1000000 ->
error_logger:error_msg("Orber 'objectkeys_gc_time' badly configured.~n"
"Time to large (>1000000 sec), swithed to 'infinity'~n"),
infinity;
true ->
Int
end;
_ ->
infinity
end.
get_ORBInitRef() ->
case application:get_env(orber, orbInitRef) of
{ok, Ref} when is_list(Ref) ->
Ref;
_ ->
undefined
end.
get_ORBDefaultInitRef() ->
case application:get_env(orber, orbDefaultInitRef) of
{ok, Ref} when is_list(Ref) ->
Ref;
_ ->
undefined
end.
get_debug_level() ->
case application:get_env(orber, orber_debug_level) of
{ok, Level} when is_integer(Level) ->
Level;
_ ->
0
end.
%%-----------------------------------------------------------------
%% Interceptor opertaions (see orber_pi.erl)
%%-----------------------------------------------------------------
get_interceptors() ->
case application:get_env(orber, interceptors) of
{ok, {native, PIs}} when is_list(PIs) ->
{native, PIs};
{ok, {portable, PIs}} when is_list(PIs) ->
{portable, PIs};
_ ->
false
end.
get_local_interceptors() ->
case application:get_env(orber, local_interceptors) of
{ok, {native, PIs}} when is_list(PIs) ->
{native, PIs};
{ok, {portable, PIs}} when is_list(PIs) ->
{portable, PIs};
_ ->
false
end.
get_cached_interceptors() ->
case get(oe_orber_interceptor_cache) of
undefined ->
PIs = case application:get_env(orber, local_interceptors) of
{ok, {native, LPIs}} when is_list(LPIs) ->
{native, LPIs};
{ok, {portable, LPIs}} when is_list(LPIs) ->
{portable, LPIs};
_ ->
get_interceptors()
end,
put(oe_orber_interceptor_cache, PIs),
PIs;
PIs ->
PIs
end.
set_interceptors({Type, InterceptorList}) when is_list(InterceptorList) ->
configure(interceptors, {Type, InterceptorList});
set_interceptors(_) ->
exit({error, "Usage: {Type, ModuleList}"}).
%%-----------------------------------------------------------------
%% Light weight Orber operations
%%-----------------------------------------------------------------
is_lightweight() ->
case application:get_env(orber, lightweight) of
{ok, L} when is_list(L) ->
true;
_ ->
false
end.
get_lightweight_nodes() ->
case application:get_env(orber, lightweight) of
{ok, L} when is_list(L) ->
L;
_ ->
false
end.
%%-----------------------------------------------------------------
%% Security access operations (SSL)
%%-----------------------------------------------------------------
secure() ->
case application:get_env(orber, secure) of
{ok, V} ->
V;
_ ->
no
end.
ssl_generation() ->
case application:get_env(orber, ssl_generation) of
{ok, V} ->
V;
_ ->
2
end.
iiop_ssl_ip_address_local() ->
case application:get_env(orber, iiop_ssl_ip_address_local) of
{ok,I} when is_list(I) ->
[I];
_ ->
[]
end.
iiop_ssl_backlog() ->
case application:get_env(orber, iiop_ssl_backlog) of
{ok, Int} when is_integer(Int), Int >= 0 ->
Int;
_ ->
5
end.
iiop_ssl_in_keepalive() ->
case application:get_env(orber, iiop_ssl_in_keepalive) of
{ok, true} ->
true;
_ ->
false
end.
iiop_ssl_out_keepalive() ->
case application:get_env(orber, iiop_ssl_out_keepalive) of
{ok, true} ->
true;
_ ->
false
end.
iiop_ssl_accept_timeout() ->
case application:get_env(orber, iiop_ssl_accept_timeout) of
{ok, N} when is_integer(N) ->
N * 1000;
_ ->
infinity
end.
iiop_ssl_port() ->
case application:get_env(orber, secure) of
{ok, ssl} ->
case application:get_env(orber, iiop_ssl_port) of
{ok, Port} when is_integer(Port) ->
Port;
_ ->
4002
end;
_ ->
-1
end.
nat_iiop_ssl_port() ->
case application:get_env(orber, secure) of
{ok, ssl} ->
case application:get_env(orber, nat_iiop_ssl_port) of
{ok, Port} when is_integer(Port) andalso Port > 0 ->
Port;
{ok, {local, Default, _NATList}} ->
Default;
_ ->
iiop_ssl_port()
end;
_ ->
-1
end.
nat_iiop_ssl_port(LocalPort) ->
case application:get_env(orber, secure) of
{ok, ssl} ->
case application:get_env(orber, nat_iiop_ssl_port) of
{ok, Port} when is_integer(Port) andalso Port > 0 ->
Port;
{ok, {local, Default, NATList}} ->
orber_tb:keysearch(LocalPort, NATList, Default);
_ ->
iiop_ssl_port()
end;
_ ->
-1
end.
ssl_server_opts() ->
case application:get_env(orber, ssl_server_opts) of
{ok, V1} when is_list(V1) ->
V1;
_ ->
[]
end.
ssl_client_opts() ->
case application:get_env(orber, ssl_client_opts) of
{ok, V1} when is_list(V1) ->
V1;
_ ->
[]
end.
check_ssl_opts(Value) ->
check_ssl_opts(Value, []).
check_ssl_opts([], []) ->
ok;
check_ssl_opts([], Acc) ->
{error, Acc};
check_ssl_opts([{active, _} |T], Acc) ->
check_ssl_opts(T, [active |Acc]);
check_ssl_opts([{packet, _} |T], Acc) ->
check_ssl_opts(T, [packet |Acc]);
check_ssl_opts([{mode, _} |T], Acc) ->
check_ssl_opts(T, [mode |Acc]);
check_ssl_opts([list |T], Acc) ->
check_ssl_opts(T, [list |Acc]);
check_ssl_opts([binary |T], Acc) ->
check_ssl_opts(T, [binary |Acc]);
check_ssl_opts([_ |T], Acc) ->
check_ssl_opts(T, Acc).
set_ssl_client_opts(Value) when is_list(Value) ->
case check_ssl_opts(Value) of
ok ->
ok;
{error, List} ->
exit(lists:flatten(
io_lib:format("TCP options ~p is not allowed in set_ssl_client_opts()",
[List])))
end,
put(ssl_client_opts, Value), ok.
ssl_server_certfile() ->
case application:get_env(orber, ssl_server_certfile) of
{ok, V1} when is_list(V1) ->
V1;
{ok, V2} when is_atom(V2) ->
atom_to_list(V2);
_ ->
[]
end.
ssl_client_certfile() ->
case get(ssl_client_certfile) of
undefined ->
case application:get_env(orber, ssl_client_certfile) of
{ok, V1} when is_list(V1) ->
V1;
{ok, V2} when is_atom(V2) ->
atom_to_list(V2);
_ ->
[]
end;
V ->
V
end.
set_ssl_client_certfile(Value) when is_list(Value) ->
put(ssl_client_certfile, Value).
ssl_server_verify() ->
Verify = case application:get_env(orber, ssl_server_verify) of
{ok, V} when is_integer(V) ->
V;
_ ->
0
end,
if
Verify =< 2, Verify >= 0 ->
Verify;
true ->
0
end.
ssl_client_verify() ->
Verify = case get(ssl_client_verify) of
undefined ->
case application:get_env(orber, ssl_client_verify) of
{ok, V1} when is_integer(V1) ->
V1;
_ ->
0
end;
V2 ->
V2
end,
if
Verify =< 2, Verify >= 0 ->
Verify;
true ->
0
end.
set_ssl_client_verify(Value) when is_integer(Value) andalso Value =< 2 andalso Value >= 0 ->
put(ssl_client_verify, Value), ok.
ssl_server_depth() ->
case application:get_env(orber, ssl_server_depth) of
{ok, V1} when is_integer(V1) ->
V1;
_ ->
1
end.
ssl_client_depth() ->
case get(ssl_client_depth) of
undefined ->
case application:get_env(orber, ssl_client_depth) of
{ok, V1} when is_integer(V1) ->
V1;
_ ->
1
end;
V2 ->
V2
end.
set_ssl_client_depth(Value) when is_integer(Value) ->
put(ssl_client_depth, Value), ok.
ssl_server_cacertfile() ->
case application:get_env(orber, ssl_server_cacertfile) of
{ok, V1} when is_list(V1) ->
V1;
{ok, V2} when is_atom(V2) ->
atom_to_list(V2);
_ ->
[]
end.
ssl_client_cacertfile() ->
case get(ssl_client_cacertfile) of
undefined ->
case application:get_env(orber, ssl_client_cacertfile) of
{ok, V1} when is_list(V1) ->
V1;
{ok, V2} when is_atom(V2) ->
atom_to_list(V2);
_ ->
[]
end;
V3 ->
V3
end.
set_ssl_client_cacertfile(Value) when is_list(Value) ->
put(ssl_client_cacertfile, Value), ok.
ssl_client_password() ->
case application:get_env(orber, ssl_client_password) of
{ok, V1} when is_list(V1) ->
V1;
_ ->
[]
end.
ssl_server_password() ->
case application:get_env(orber, ssl_server_password) of
{ok, V1} when is_list(V1) ->
V1;
_ ->
[]
end.
ssl_client_keyfile() ->
case application:get_env(orber, ssl_client_keyfile) of
{ok, V1} when is_list(V1) ->
V1;
_ ->
[]
end.
ssl_server_keyfile() ->
case application:get_env(orber, ssl_server_keyfile) of
{ok, V1} when is_list(V1) ->
V1;
_ ->
[]
end.
ssl_client_ciphers() ->
case application:get_env(orber, ssl_client_ciphers) of
{ok, V1} when is_list(V1) ->
V1;
_ ->
[]
end.
ssl_server_ciphers() ->
case application:get_env(orber, ssl_server_ciphers) of
{ok, V1} when is_list(V1) ->
V1;
_ ->
[]
end.
ssl_client_cachetimeout() ->
case application:get_env(orber, ssl_client_cachetimeout) of
{ok, V1} when is_integer(V1) ->
V1;
_ ->
infinity
end.
ssl_server_cachetimeout() ->
case application:get_env(orber, ssl_server_cachetimeout) of
{ok, V1} when is_integer(V1) ->
V1;
_ ->
infinity
end.
%%-----------------------------------------------------------------
%% function : configure
%% Arguments:
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
configure(Key, Value) when is_atom(Key) ->
configure(Key, Value, check);
configure(Key, _) ->
?EFORMAT("Given key (~p) not an atom.", [Key]).
configure_override(Key, Value) when is_atom(Key) ->
configure(Key, Value, loaded);
configure_override(Key, _) ->
?EFORMAT("Given key (~p) not an atom.", [Key]).
%%-----------------------------------------------------------------
%% function : multi_configure
%% Arguments:
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
multi_configure(KeyValueList) when is_list(KeyValueList) ->
case orber_tb:is_loaded() of
false ->
application:load(orber),
multi_configure_helper(KeyValueList, loaded);
true ->
case orber_tb:is_running() of
false ->
multi_configure_helper(KeyValueList, loaded);
true ->
multi_configure_helper(KeyValueList, running)
end
end;
multi_configure(KeyValueList) ->
?EFORMAT("Given configuration parameters not a Key-Value-pair list: ~p",
[KeyValueList]).
multi_configure_helper([], _) ->
ok;
multi_configure_helper([{Key, Value}|T], Status) ->
configure(Key, Value, Status),
multi_configure_helper(T, Status);
multi_configure_helper([What|_], _) ->
?EFORMAT("Incorrect configuration parameters supplied: ~p", [What]).
%%------ Keys we can update at any time -----
%% Initial Services References
configure(orbDefaultInitRef, String, Status) when is_list(String) ->
do_configure(orbDefaultInitRef, String, Status);
configure(orbDefaultInitRef, undefined, Status) ->
do_configure(orbDefaultInitRef, undefined, Status);
configure(orbInitRef, String, Status) when is_list(String) ->
do_configure(orbInitRef, String, Status);
configure(orbInitRef, undefined, Status) ->
do_configure(orbInitRef, undefined, Status);
%% IIOP-version
configure(giop_version, {1, 0}, Status) ->
do_configure(giop_version, {1, 0}, Status);
configure(giop_version, {1, 1}, Status) ->
do_configure(giop_version, {1, 1}, Status);
configure(giop_version, {1, 2}, Status) ->
do_configure(giop_version, {1, 2}, Status);
%% configure 'iiop_timout' will only have effect on new requests.
configure(iiop_timeout, infinity, Status) ->
do_configure(iiop_timeout, infinity, Status);
configure(iiop_timeout, Value, Status) when is_integer(Value) andalso Value =< 1000000 ->
do_configure(iiop_timeout, Value, Status);
%% Backlog
configure(iiop_backlog, Value, Status) when is_integer(Value) andalso Value >= 0 ->
do_configure(iiop_backlog, Value, Status);
%% configure 'iiop_in_keepalive' will only have effect on new connections.
configure(iiop_in_keepalive, true, Status) ->
do_configure(iiop_in_keepalive, true, Status);
configure(iiop_in_keepalive, false, Status) ->
do_configure(iiop_in_keepalive, false, Status);
%% configure 'iiop_out_keepalive' will only have effect on new connections.
configure(iiop_out_keepalive, true, Status) ->
do_configure(iiop_out_keepalive, true, Status);
configure(iiop_out_keepalive, false, Status) ->
do_configure(iiop_out_keepalive, false, Status);
%% configure 'iiop_connection_timout' will only have effect on new connections.
configure(iiop_connection_timeout, infinity, Status) ->
do_configure(iiop_connection_timeout, infinity, Status);
configure(iiop_connection_timeout, Value, Status) when is_integer(Value) andalso Value =< 1000000 ->
do_configure(iiop_connection_timeout, Value, Status);
%% configure 'iiop_in_connection_timout' will only have effect on new connections.
configure(iiop_in_connection_timeout, infinity, Status) ->
do_configure(iiop_in_connection_timeout, infinity, Status);
configure(iiop_in_connection_timeout, Value, Status) when is_integer(Value) andalso Value =< 1000000 ->
do_configure(iiop_in_connection_timeout, Value, Status);
%% configure 'iiop_setup_connection_timeout' will only have effect on new connections.
configure(iiop_setup_connection_timeout, infinity, Status) ->
do_configure(iiop_setup_connection_timeout, infinity, Status);
configure(iiop_setup_connection_timeout, Value, Status) when is_integer(Value) ->
do_configure(iiop_setup_connection_timeout, Value, Status);
%% configure 'iiop_max_fragments' will only have effect on new connections.
configure(iiop_max_fragments, infinity, Status) ->
do_configure(iiop_max_fragments, infinity, Status);
configure(iiop_max_fragments, Value, Status) when is_integer(Value) andalso Value > 0 ->
do_configure(iiop_max_fragments, Value, Status);
%% configure 'iiop_max_in_requests' will only have effect on new connections.
configure(iiop_max_in_requests, infinity, Status) ->
do_configure(iiop_max_in_requests, infinity, Status);
configure(iiop_max_in_requests, Value, Status) when is_integer(Value) andalso Value > 0 ->
do_configure(iiop_max_in_requests, Value, Status);
%% configure 'iiop_max_in_connections' will only have effect on new connections.
configure(iiop_max_in_connections, infinity, Status) ->
do_configure(iiop_max_in_connections, infinity, Status);
configure(iiop_max_in_connections, Value, Status) when is_integer(Value) andalso Value > 0 ->
do_configure(iiop_max_in_connections, Value, Status);
%% Garbage Collect the object keys DB.
configure(objectkeys_gc_time, infinity, Status) ->
do_configure(objectkeys_gc_time, infinity, Status);
configure(objectkeys_gc_time, Value, Status) when is_integer(Value) andalso Value =< 1000000 ->
do_configure(objectkeys_gc_time, Value, Status);
%% Orber debug printouts
configure(orber_debug_level, Value, Status) when is_integer(Value) ->
do_configure(orber_debug_level, Value, Status);
%%------ Keys we cannot change if Orber is running -----
%% Set the listen port
configure(iiop_port, Value, Status) when is_integer(Value) ->
do_safe_configure(iiop_port, Value, Status);
%% Set the NAT listen port
configure(nat_iiop_port, Value, Status) when is_integer(Value) andalso Value > 0 ->
do_safe_configure(nat_iiop_port, Value, Status);
configure(nat_iiop_port, {local, Value1, Value2}, Status) when is_integer(Value1) andalso
Value1 > 0 andalso
is_list(Value2) ->
do_safe_configure(nat_iiop_port, {local, Value1, Value2}, Status);
%% Set Maximum Packet Size
configure(iiop_packet_size, Max, Status) when is_integer(Max) andalso Max > 0 ->
do_safe_configure(iiop_packet_size, Max, Status);
%% IIOP interceptors
configure(interceptors, Value, Status) when is_tuple(Value) ->
do_safe_configure(interceptors, Value, Status);
%% Local interceptors
configure(local_interceptors, Value, Status) when is_tuple(Value) ->
do_safe_configure(local_interceptors, Value, Status);
%% Orber Domain
configure(domain, Value, Status) when is_list(Value) ->
do_safe_configure(domain, Value, Status);
%% Set the IP-address we should use
configure(ip_address, Value, Status) when is_list(Value) ->
do_safe_configure(ip_address, Value, Status);
configure(ip_address, {multiple, Value}, Status) when is_list(Value) ->
do_safe_configure(ip_address, {multiple, Value}, Status);
configure(ip_address_local, Value, Status) when is_list(Value) ->
do_safe_configure(ip_address_local, Value, Status);
%% Set the NAT IP-address we should use
configure(nat_ip_address, Value, Status) when is_list(Value) ->
do_safe_configure(nat_ip_address, Value, Status);
configure(nat_ip_address, {multiple, Value}, Status) when is_list(Value) ->
do_safe_configure(nat_ip_address, {multiple, Value}, Status);
configure(nat_ip_address, {local, Value1, Value2}, Status) when is_list(Value1) andalso
is_list(Value2) ->
do_safe_configure(nat_ip_address, {local, Value1, Value2}, Status);
%% Set the range of ports we may use on this machine when connecting to a server.
configure(iiop_out_ports, {Min, Max}, Status) when is_integer(Min) andalso is_integer(Max) ->
do_safe_configure(iiop_out_ports, {Min, Max}, Status);
configure(iiop_out_ports_attempts, Max, Status) when is_integer(Max) andalso Max > 0 ->
do_safe_configure(iiop_out_ports_attempts, Max, Status);
configure(iiop_out_ports_random, true, Status) ->
do_safe_configure(iiop_out_ports_random, true, Status);
configure(iiop_out_ports_random, false, Status) ->
do_safe_configure(iiop_out_ports_random, false, Status);
%% Set the lightweight option.
configure(lightweight, Value, Status) when is_list(Value) ->
do_safe_configure(lightweight, Value, Status);
%% Configre the System Flags
configure(flags, Value, Status) when is_integer(Value) ->
do_safe_configure(flags, Value, Status);
%% Configre the ACL
configure(iiop_acl, Value, Status) when is_list(Value) ->
do_safe_configure(iiop_acl, Value, Status);
%% SSL settings
%% configure 'iiop_in_keepalive' will only have effect on new connections.
configure(iiop_ssl_in_keepalive, true, Status) ->
do_configure(iiop_ssl_in_keepalive, true, Status);
configure(iiop_ssl_in_keepalive, false, Status) ->
do_configure(iiop_ssl_in_keepalive, false, Status);
%% configure 'iiop_ssl_out_keepalive' will only have effect on new connections.
configure(iiop_ssl_out_keepalive, true, Status) ->
do_configure(iiop_ssl_out_keepalive, true, Status);
configure(iiop_ssl_out_keepalive, false, Status) ->
do_configure(iiop_ssl_out_keepalive, false, Status);
configure(iiop_ssl_accept_timeout, infinity, Status) ->
do_configure(iiop_ssl_accept_timeout, infinity, Status);
configure(iiop_ssl_accept_timeout, Value, Status) when is_integer(Value) andalso Value >= 0 ->
do_configure(iiop_ssl_accept_timeout, Value, Status);
configure(ssl_generation, Generation, Status) when is_integer(Generation) andalso Generation >= 2 ->
do_safe_configure(ssl_generation, Generation, Status);
configure(secure, ssl, Status) ->
do_safe_configure(secure, ssl, Status);
configure(iiop_ssl_ip_address_local, Value, Status) when is_list(Value) ->
do_safe_configure(iiop_ssl_ip_address_local, Value, Status);
configure(iiop_ssl_backlog, Value, Status) when is_integer(Value) andalso Value >= 0 ->
do_safe_configure(iiop_ssl_backlog, Value, Status);
configure(nat_iiop_ssl_port, Value, Status) when is_integer(Value) andalso Value > 0 ->
do_safe_configure(nat_iiop_ssl_port, Value, Status);
configure(nat_iiop_ssl_port, {local, Value1, Value2}, Status) when is_integer(Value1) andalso
Value1 > 0 andalso
is_list(Value2) ->
do_safe_configure(nat_iiop_ssl_port, {local, Value1, Value2}, Status);
configure(iiop_ssl_port, Value, Status) when is_integer(Value) ->
do_safe_configure(iiop_ssl_port, Value, Status);
%% New SSL options
configure(ssl_server_opts, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_server_opts, Value, Status);
configure(ssl_client_opts, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_client_opts, Value, Status);
%% Old SSL options
configure(ssl_server_certfile, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_server_certfile, Value, Status);
configure(ssl_server_certfile, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_server_certfile, atom_to_list(Value), Status);
configure(ssl_client_certfile, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_client_certfile, Value, Status);
configure(ssl_client_certfile, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_client_certfile, atom_to_list(Value), Status);
configure(ssl_server_verify, Value, Status) when is_integer(Value) ->
do_safe_configure(ssl_server_verify, Value, Status);
configure(ssl_client_verify, Value, Status) when is_integer(Value) ->
do_safe_configure(ssl_client_verify, Value, Status);
configure(ssl_server_depth, Value, Status) when is_integer(Value) ->
do_safe_configure(ssl_server_depth, Value, Status);
configure(ssl_client_depth, Value, Status) when is_integer(Value) ->
do_safe_configure(ssl_client_depth, Value, Status);
configure(ssl_server_cacertfile, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_server_cacertfile, Value, Status);
configure(ssl_server_cacertfile, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_server_cacertfile, atom_to_list(Value), Status);
configure(ssl_client_cacertfile, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_client_cacertfile, Value, Status);
configure(ssl_client_cacertfile, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_client_cacertfile, atom_to_list(Value), Status);
configure(ssl_client_password, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_client_password, Value, Status);
configure(ssl_client_password, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_client_password, atom_to_list(Value), Status);
configure(ssl_client_keyfile, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_client_keyfile, Value, Status);
configure(ssl_client_keyfile, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_client_keyfile, atom_to_list(Value), Status);
configure(ssl_server_password, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_server_password, Value, Status);
configure(ssl_client_password, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_server_password, atom_to_list(Value), Status);
configure(ssl_server_keyfile, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_server_keyfile, Value, Status);
configure(ssl_server_keyfile, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_server_keyfile, atom_to_list(Value), Status);
configure(ssl_server_ciphers, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_server_ciphers, Value, Status);
configure(ssl_server_ciphers, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_server_ciphers, atom_to_list(Value), Status);
configure(ssl_client_ciphers, Value, Status) when is_list(Value) ->
do_safe_configure(ssl_client_ciphers, Value, Status);
configure(ssl_client_ciphers, Value, Status) when is_atom(Value) ->
do_safe_configure(ssl_client_ciphers, atom_to_list(Value), Status);
configure(ssl_client_cachetimeout, Value, Status) when is_integer(Value) andalso Value > 0 ->
do_safe_configure(ssl_client_cachetimeout, Value, Status);
configure(ssl_server_cachetimeout, Value, Status) when is_integer(Value) andalso Value > 0 ->
do_safe_configure(ssl_server_cachetimeout, Value, Status);
configure(Key, Value, _) ->
?EFORMAT("Bad configuration parameter: {~p, ~p}", [Key, Value]).
%% This function may be used as long as it is safe to change a value at any time.
do_configure(Key, Value, check) ->
case orber_tb:is_loaded() of
false ->
application:load(orber),
application:set_env(orber, Key, Value);
true ->
application:set_env(orber, Key, Value)
end;
do_configure(Key, Value, _) ->
application:set_env(orber, Key, Value).
%% This function MUST(!!) be used when we cannot change a value if Orber is running.
do_safe_configure(_, _, running) ->
exit("Orber already running, the given key may not be updated!");
do_safe_configure(Key, Value, check) ->
case orber_tb:is_loaded() of
false ->
application:load(orber),
application:set_env(orber, Key, Value);
true ->
case orber_tb:is_running() of
false ->
application:set_env(orber, Key, Value);
true ->
?EFORMAT("Orber already running. {~p, ~p} may not be updated!",
[Key, Value])
end
end;
do_safe_configure(Key, Value, loaded) ->
application:set_env(orber, Key, Value).
%%-----------------------------------------------------------------
%% Internal functions
%%-----------------------------------------------------------------
%%-----------------------------------------------------------------
%% Server functions
%%-----------------------------------------------------------------
init(_Opts) ->
{ok, #env{acl = orber_acl:init_acl(iiop_acl()),
parameters = init_env()}}.
terminate(_Reason, _State) ->
ok.
handle_call(_, _From, State) ->
{reply, ok, State}.
handle_cast(_, State) ->
{noreply, State}.
handle_info(_, State) ->
{noreply, State}.
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%-----------------------------------------------------------------
%% function : env
%% Arguments:
%% Returns :
%% Exception:
%% Effect : Used when Key always exists (Default Value)
%%-----------------------------------------------------------------
env(Key) ->
[#parameters{value = Val}] = ets:lookup(?ENV_DB, Key),
Val.
%%-----------------------------------------------------------------
%% function : init_env
%% Arguments:
%% Returns :
%% Exception:
%% Effect :
%%-----------------------------------------------------------------
init_env() ->
application:load(orber),
DB = ets:new(?ENV_DB, [set, public, named_table, {keypos, 2}]),
% init_env(?ENV_KEYS),
DB.
%init_env([{H,D}|T]) ->
% case application:get_env(orber, H) of
% {ok, V} ->
% ets:insert(?ENV_DB, #parameters{key = H, value = V, flags = 0}),
% init_env(T);
% _ ->
% ets:insert(?ENV_DB, #parameters{key = H, value = D, flags = 0}),
% init_env(T)
% end;
%init_env([H|T]) ->
% case application:get_env(orber, H) of
% {ok, V} ->
% ets:insert(?ENV_DB, #parameters{key = H, value = V, flags = 0}),
% init_env(T);
% _ ->
% ets:insert(?ENV_DB, #parameters{key = H, value = undefined, flags = 0}),
% init_env(T)
% end;
%init_env([]) ->
% ok.
%%-----------------------------------------------------------------
%%------------- END OF MODULE -------------------------------------
%%-----------------------------------------------------------------