%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2003-2010. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% %CopyrightEnd%
%%
%%
%%----------------------------------------------------------------------
%% Purpose: Test encoding/decoding (codec) module of Megaco/H.248 v1
%%----------------------------------------------------------------------
-module(megaco_codec_v1_test).
%% ----
-include_lib("megaco/include/megaco.hrl").
-include_lib("megaco/include/megaco_message_v1.hrl").
-include("megaco_test_lib.hrl").
%% ----
%% -export([msg/0]).
-export([msgs/0]).
-export([rfc3525_msgs_display/0, rfc3525_msgs_test/0]).
-export([t/0, t/1]).
-export([all/1,
text/1,
pretty/1,
pretty_test_msgs/1,
compact/1,
compact_test_msgs/1,
flex_pretty/1,
flex_pretty_init/1,
flex_pretty_finish/1,
flex_pretty_test_msgs/1,
flex_compact/1,
flex_compact_init/1,
flex_compact_finish/1,
flex_compact_test_msgs/1,
flex_compact_dm_timers1/1,
flex_compact_dm_timers2/1,
flex_compact_dm_timers3/1,
flex_compact_dm_timers4/1,
flex_compact_dm_timers5/1,
flex_compact_dm_timers6/1,
binary/1,
bin/1,
bin_test_msgs/1,
ber/1,
ber_test_msgs/1,
ber_bin/1,
ber_bin_test_msgs/1,
per/1,
per_test_msgs/1,
per_bin/1,
per_bin_test_msgs/1,
erl_dist/1,
erl_dist_m/1,
erl_dist_m_test_msgs/1,
tickets/0,
tickets/1,
compact_tickets/1,
compact_otp4011_msg1/1,
compact_otp4011_msg2/1,
compact_otp4011_msg3/1,
compact_otp4013_msg1/1,
compact_otp4085_msg1/1,
compact_otp4085_msg2/1,
compact_otp4280_msg1/1,
compact_otp4299_msg1/1,
compact_otp4299_msg2/1,
compact_otp4359_msg1/1,
compact_otp4920_msg0/1,
compact_otp4920_msg1/1,
compact_otp4920_msg2/1,
compact_otp4920_msg3/1,
compact_otp4920_msg4/1,
compact_otp4920_msg5/1,
compact_otp4920_msg6/1,
compact_otp4920_msg7/1,
compact_otp4920_msg8/1,
compact_otp4920_msg9/1,
compact_otp4920_msg10/1,
compact_otp4920_msg11/1,
compact_otp4920_msg12/1,
compact_otp4920_msg20/1,
compact_otp4920_msg21/1,
compact_otp4920_msg22/1,
compact_otp4920_msg23/1,
compact_otp4920_msg24/1,
compact_otp4920_msg25/1,
compact_otp5186_msg01/1,
compact_otp5186_msg02/1,
compact_otp5186_msg03/1,
compact_otp5186_msg04/1,
compact_otp5186_msg05/1,
compact_otp5186_msg06/1,
compact_otp5793_msg01/1,
compact_otp5993_msg01/1,
compact_otp5993_msg02/1,
compact_otp5993_msg03/1,
compact_otp6017_msg01/1,
compact_otp6017_msg02/1,
compact_otp6017_msg03/1,
flex_compact_tickets/1,
flex_compact_otp7431_msg01a/1,
flex_compact_otp7431_msg01b/1,
flex_compact_otp7431_msg02/1,
flex_compact_otp7431_msg03/1,
flex_compact_otp7431_msg04/1,
flex_compact_otp7431_msg05/1,
flex_compact_otp7431_msg06/1,
flex_compact_otp7431_msg07/1,
pretty_tickets/1,
pretty_otp4632_msg1/1,
pretty_otp4632_msg2/1,
pretty_otp4632_msg3/1,
pretty_otp4632_msg4/1,
pretty_otp4710_msg1/1,
pretty_otp4710_msg2/1,
pretty_otp4945_msg1/1,
pretty_otp4945_msg2/1,
pretty_otp4945_msg3/1,
pretty_otp4945_msg4/1,
pretty_otp4945_msg5/1,
pretty_otp4945_msg6/1,
pretty_otp4949_msg1/1,
pretty_otp4949_msg2/1,
pretty_otp4949_msg3/1,
pretty_otp5042_msg1/1,
pretty_otp5068_msg1/1,
pretty_otp5085_msg1/1,
pretty_otp5085_msg2/1,
pretty_otp5085_msg3/1,
pretty_otp5085_msg4/1,
pretty_otp5085_msg5/1,
pretty_otp5085_msg6/1,
pretty_otp5085_msg7/1,
pretty_otp5600_msg1/1,
pretty_otp5600_msg2/1,
pretty_otp5601_msg1/1,
pretty_otp5793_msg01/1,
pretty_otp5882_msg01/1,
pretty_otp6490_msg01/1,
pretty_otp6490_msg02/1,
pretty_otp6490_msg03/1,
pretty_otp6490_msg04/1,
pretty_otp6490_msg05/1,
pretty_otp6490_msg06/1,
pretty_otp7671_msg01/1,
pretty_otp7671_msg02/1,
pretty_otp7671_msg03/1,
pretty_otp7671_msg04/1,
pretty_otp7671_msg05/1,
flex_pretty_tickets/1,
flex_pretty_otp5042_msg1/1,
flex_pretty_otp5085_msg1/1,
flex_pretty_otp5085_msg2/1,
flex_pretty_otp5085_msg3/1,
flex_pretty_otp5085_msg4/1,
flex_pretty_otp5085_msg5/1,
flex_pretty_otp5085_msg6/1,
flex_pretty_otp5085_msg7/1,
flex_pretty_otp5600_msg1/1,
flex_pretty_otp5600_msg2/1,
flex_pretty_otp5601_msg1/1,
flex_pretty_otp5793_msg01/1,
flex_pretty_otp7431_msg01/1,
flex_pretty_otp7431_msg02/1,
flex_pretty_otp7431_msg03/1,
flex_pretty_otp7431_msg04/1,
flex_pretty_otp7431_msg05/1,
flex_pretty_otp7431_msg06/1,
flex_pretty_otp7431_msg07/1,
init_per_testcase/2, end_per_testcase/2]).
-export([display_text_messages/0, generate_text_messages/0]).
-export([msg15b/0, msg22f/0]).
-export([
%% Decode
profile_decode_compact_text_message/1,
profile_decode_compact_text_messages/0,
prof1/0, prof2/0,
profile_decode_compact_flex_text_message/1,
profile_decode_compact_flex_text_messages/0,
profile_decode_pretty_text_message/1,
profile_decode_pretty_text_messages/0,
profile_decode_pretty_flex_text_message/1,
profile_decode_pretty_flex_text_messages/0,
%% Encode
profile_encode_compact_text_messages/0,
profile_encode_pretty_text_messages/0
]).
%% ----
-define(V1, v1).
-define(EC, []).
-define(VERSION, 1).
-define(VERSION_STR, "1").
-define(DEFAULT_PORT, 55555).
-define(MSG_LIB, megaco_test_msg_v1_lib).
-define(MG1_MID_NO_PORT, {ip4Address,
#'IP4Address'{address = [124, 124, 124, 222]}}).
-define(MG1_MID, {ip4Address, #'IP4Address'{address = [124, 124, 124, 222],
portNumber = ?DEFAULT_PORT}}).
-define(MG2_MID, {ip4Address, #'IP4Address'{address = [125, 125, 125, 111],
portNumber = ?DEFAULT_PORT}}).
-define(MG3_MID, {ip6Address, #'IP6Address'{address = [0,0,0,0,
0,0,0,0,
0,0,0,0,
125, 125, 125, 111],
portNumber = ?DEFAULT_PORT}}).
-define(MGC_MID, {ip4Address, #'IP4Address'{address = [123, 123, 123, 4],
portNumber = ?DEFAULT_PORT}}).
-define(A4444, ["11111111", "00000000", "00000000"]).
-define(A4445, ["11111111", "00000000", "11111111"]).
-define(A5555, ["11111111", "11111111", "00000000"]).
-define(A5556, ["11111111", "11111111", "11111111"]).
%% ----
display_text_messages() ->
Msgs =
msgs1() ++
msgs3(),
megaco_codec_test_lib:display_text_messages(?VERSION, Msgs).
generate_text_messages() ->
Msgs =
msgs1(),
megaco_codec_test_lib:generate_text_messages(?V1, ?VERSION, ?EC, Msgs).
%% ----
prof1() ->
megaco_codec_v1_test:profile_decode_compact_text_message(msg10).
prof2() ->
megaco_codec_v1_test:profile_decode_compact_flex_text_message(msg10).
%% (catch megaco_codec_v1_test:profile_decode_compact_text_message(msg01a)).
%% (catch megaco_codec_v1_test:profile_decode_compact_text_message(msg01b)).
%% (catch megaco_codec_v1_test:profile_decode_compact_text_message(msg02)).
%% (catch megaco_codec_v1_test:profile_decode_compact_text_message(msg10)).
%% (catch megaco_codec_v1_test:profile_decode_compact_text_message(msg11)).
%% (catch megaco_codec_v1_test:profile_decode_compact_text_message(msg12)).
%% (catch megaco_codec_v1_test:profile_decode_compact_text_message(msg13)).
profile_decode_compact_text_message(MsgTag) when is_atom(MsgTag) ->
Config = [],
Slogan = list_to_atom("decode_compact_v1_" ++ atom_to_list(MsgTag)),
profile_decode_compact_text_message(Slogan, Config, MsgTag).
profile_decode_compact_flex_text_message(MsgTag) when is_atom(MsgTag) ->
Conf = flex_init([]),
Config = flex_scanner_conf(Conf),
Slogan = list_to_atom("decode_compact_flex_v1_" ++ atom_to_list(MsgTag)),
Res = profile_decode_compact_text_message(Slogan, [Config], MsgTag),
flex_finish(Conf),
Res.
profile_decode_compact_text_message(Slogan, Config, MsgTag) ->
Codec = megaco_compact_text_encoder,
profile_decode_text_message(Slogan, Codec, Config, MsgTag).
%% (catch megaco_codec_v1_test:profile_decode_pretty_text_message(msg01a)).
%% (catch megaco_codec_v1_test:profile_decode_pretty_text_message(msg01b)).
%% (catch megaco_codec_v1_test:profile_decode_pretty_text_message(msg02)).
profile_decode_pretty_text_message(MsgTag) when is_atom(MsgTag) ->
Config = [],
Slogan = list_to_atom("decode_pretty_v1_" ++ atom_to_list(MsgTag)),
profile_decode_pretty_text_message(Slogan, Config, MsgTag).
profile_decode_pretty_flex_text_message(MsgTag) when is_atom(MsgTag) ->
Conf = flex_init([]),
Config = flex_scanner_conf(Conf),
Slogan = list_to_atom("decode_pretty_flex_v1_" ++ atom_to_list(MsgTag)),
Res = profile_decode_pretty_text_message(Slogan, [Config], MsgTag),
flex_finish(Conf),
Res.
profile_decode_pretty_text_message(Slogan, Config, MsgTag) ->
Codec = megaco_pretty_text_encoder,
profile_decode_text_message(Slogan, Codec, Config, MsgTag).
profile_decode_text_message(Slogan, Codec, Config, MsgTag) ->
Msgs = msgs1(),
case lists:keysearch(MsgTag, 1, Msgs) of
{value, Msg} ->
[Res] = profile_decode_text_messages(Slogan, Codec, Config, [Msg]),
Res;
false ->
{error, {no_such_message, MsgTag}}
end.
%% (catch megaco_codec_v1_test:profile_decode_compact_text_messages()).
profile_decode_compact_text_messages() ->
Config = [],
Slogan = decode_compact_v1,
profile_decode_compact_text_messages(Slogan, Config).
%% (catch megaco_codec_v1_test:profile_decode_compact_flex_text_messages()).
profile_decode_compact_flex_text_messages() ->
Conf = flex_init([]),
Config = flex_scanner_conf(Conf),
Slogan = decode_compact_flex_v1,
Res = profile_decode_compact_text_messages(Slogan, [Config]),
flex_finish(Conf),
Res.
profile_decode_compact_text_messages(Slogan, Config) ->
Codec = megaco_compact_text_encoder,
profile_decode_text_messages(Slogan, Codec, Config).
%% (catch megaco_codec_v1_test:profile_decode_pretty_text_messages()).
profile_decode_pretty_text_messages() ->
Config = [],
Slogan = decode_pretty_v1,
profile_decode_pretty_text_messages(Slogan, Config).
%% (catch megaco_codec_v1_test:profile_decode_pretty_flex_text_messages()).
profile_decode_pretty_flex_text_messages() ->
Conf = flex_init([]),
Config = flex_scanner_conf(Conf),
Slogan = decode_pretty_flex_v1,
Res = profile_decode_pretty_text_messages(Slogan, [Config]),
flex_finish(Conf),
Res.
profile_decode_pretty_text_messages(Slogan, Config) ->
Codec = megaco_pretty_text_encoder,
profile_decode_text_messages(Slogan, Codec, Config).
profile_decode_text_messages(Slogan, Codec, Config) ->
Msgs = msgs1(),
profile_decode_text_messages(Slogan, Codec, Config, Msgs).
profile_decode_text_messages(Slogan, Codec, Config, Msgs0) ->
Msgs = [Msg || {_, Msg, _, _} <- Msgs0],
EncodeRes = encode_text_messages(Codec, Config, Msgs, []),
Bins = [Bin || {ok, Bin} <- EncodeRes],
Fun = fun() ->
decode_text_messages(Codec, Config, Bins, [])
end,
%% Make a dry run, just to make sure all modules are loaded:
io:format("make a dry run..~n", []),
(catch Fun()),
io:format("make the run..~n", []),
megaco_profile:profile(Slogan, Fun).
%% (catch megaco_codec_v1_test:profile_encode_compact_text_messages()).
profile_encode_compact_text_messages() ->
Codec = megaco_compact_text_encoder,
Config = [],
Slogan = encode_compact_v1,
profile_encode_text_messages(Slogan, Codec, Config).
%% (catch megaco_codec_v1_test:profile_encode_pretty_text_messages()).
profile_encode_pretty_text_messages() ->
Codec = megaco_pretty_text_encoder,
Config = [],
Slogan = encode_pretty_v1,
profile_encode_text_messages(Slogan, Codec, Config).
profile_encode_text_messages(Slogan, Codec, Config) ->
Msgs = msgs1(),
profile_encode_text_messages(Slogan, Codec, Config, Msgs).
profile_encode_text_messages(Slogan, Codec, Config, Msgs0) ->
Msgs = [Msg || {_, Msg, _, _} <- Msgs0],
Fun = fun() ->
encode_text_messages(Codec, Config, Msgs, [])
end,
%% Make a dry run, just to make sure all modules are loaded:
io:format("make a dry run...~n", []),
(catch Fun()),
io:format("make the run...~n", []),
megaco_profile:profile(Slogan, Fun).
encode_text_messages(_Codec, _Config, [], Acc) ->
Acc;
encode_text_messages(Codec, Config, [Msg|Msgs], Acc) ->
Res = Codec:encode_message(Config, ?VERSION, Msg),
encode_text_messages(Codec, Config, Msgs, [Res | Acc]).
decode_text_messages(_Codec, _Config, [], Acc) ->
Acc;
decode_text_messages(Codec, Config, [Msg|Msgs], Acc) ->
Res = Codec:decode_message(Config, dynamic, Msg),
decode_text_messages(Codec, Config, Msgs, [Res | Acc]).
%% ----
expand(RootCase) ->
expand([RootCase], []).
expand([], Acc) ->
lists:flatten(lists:reverse(Acc));
expand([Case|Cases], Acc) ->
case (catch apply(?MODULE,Case,[suite])) of
[] ->
expand(Cases, [Case|Acc]);
C when is_list(C) ->
expand(Cases, [expand(C, [])|Acc]);
_ ->
expand(Cases, [Case|Acc])
end.
%% ----
t() -> megaco_test_lib:t(?MODULE).
t(Case) -> megaco_test_lib:t({?MODULE, Case}).
init_per_testcase(Case, Config) ->
%% CaseString = io_lib:format("~p", [Case]),
C =
case lists:suffix("time_test", atom_to_list(Case)) of
true ->
[{tc_timeout, timer:minutes(10)}|Config];
false ->
put(verbosity,trc),
Config
end,
megaco_test_lib:init_per_testcase(Case, C).
end_per_testcase(Case, Config) ->
erase(verbosity),
megaco_test_lib:end_per_testcase(Case, Config).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Top test case
all(suite) ->
[
text,
binary,
erl_dist,
tickets
].
text(suite) ->
[
pretty,
flex_pretty,
compact,
flex_compact
].
binary(suite) ->
[
bin,
ber,
ber_bin,
per,
per_bin
].
erl_dist(suite) ->
[
erl_dist_m
].
pretty(suite) ->
[
pretty_test_msgs
].
compact(suite) ->
[
compact_test_msgs
].
flex_pretty(suite) ->
{req, [],
{conf, flex_pretty_init, flex_pretty_cases(), flex_pretty_finish}}.
flex_pretty_cases() ->
[
flex_pretty_test_msgs
].
flex_compact(suite) ->
{req, [],
{conf, flex_compact_init, flex_compact_cases(), flex_compact_finish}}.
flex_compact_cases() ->
[
flex_compact_test_msgs,
flex_compact_dm_timers1,
flex_compact_dm_timers2,
flex_compact_dm_timers3,
flex_compact_dm_timers4,
flex_compact_dm_timers5,
flex_compact_dm_timers6
].
bin(suite) ->
[
bin_test_msgs
].
ber(suite) ->
[
ber_test_msgs
].
ber_bin(suite) ->
[
ber_bin_test_msgs
].
per(suite) ->
[
per_test_msgs
].
%% Support for per_bin was added to ASN.1 as of version
%% 1.3.2 (R8). And later merged into 1.3.1.3 (R7). These
%% releases are identical (as far as I know).
%%
per_bin(suite) ->
[
per_bin_test_msgs
].
erl_dist_m(suite) ->
[
erl_dist_m_test_msgs
].
tickets(suite) ->
[
compact_tickets,
pretty_tickets,
flex_compact_tickets,
flex_pretty_tickets
].
compact_tickets(suite) ->
[
compact_otp4011_msg1,
compact_otp4011_msg2,
compact_otp4011_msg3,
compact_otp4013_msg1,
compact_otp4085_msg1,
compact_otp4085_msg2,
compact_otp4280_msg1,
compact_otp4299_msg1,
compact_otp4299_msg2,
compact_otp4359_msg1,
compact_otp4920_msg0,
compact_otp4920_msg1,
compact_otp4920_msg2,
compact_otp4920_msg3,
compact_otp4920_msg4,
compact_otp4920_msg5,
compact_otp4920_msg6,
compact_otp4920_msg7,
compact_otp4920_msg8,
compact_otp4920_msg9,
compact_otp4920_msg10,
compact_otp4920_msg11,
compact_otp4920_msg12,
compact_otp4920_msg20,
compact_otp4920_msg21,
compact_otp4920_msg22,
compact_otp4920_msg23,
compact_otp4920_msg24,
compact_otp4920_msg25,
compact_otp5186_msg01,
compact_otp5186_msg02,
compact_otp5186_msg03,
compact_otp5186_msg04,
compact_otp5186_msg05,
compact_otp5186_msg06,
compact_otp5793_msg01,
compact_otp5993_msg01,
compact_otp5993_msg02,
compact_otp5993_msg03,
compact_otp6017_msg01,
compact_otp6017_msg02,
compact_otp6017_msg03
].
flex_compact_tickets(suite) ->
{req, [],
{conf, flex_compact_init, flex_compact_tickets_cases(),
flex_compact_finish}}.
flex_compact_tickets_cases() ->
[
flex_compact_otp7431_msg01a,
flex_compact_otp7431_msg01b,
flex_compact_otp7431_msg02,
flex_compact_otp7431_msg03,
flex_compact_otp7431_msg04,
flex_compact_otp7431_msg05,
flex_compact_otp7431_msg06,
flex_compact_otp7431_msg07
].
pretty_tickets(suite) ->
[
pretty_otp4632_msg1,
pretty_otp4632_msg2,
pretty_otp4632_msg3,
pretty_otp4632_msg4,
pretty_otp4710_msg1,
pretty_otp4710_msg2,
pretty_otp4945_msg1,
pretty_otp4945_msg2,
pretty_otp4945_msg3,
pretty_otp4945_msg4,
pretty_otp4945_msg5,
pretty_otp4945_msg6,
pretty_otp4949_msg1,
pretty_otp4949_msg2,
pretty_otp4949_msg3,
pretty_otp5042_msg1,
pretty_otp5068_msg1,
pretty_otp5085_msg1,
pretty_otp5085_msg2,
pretty_otp5085_msg3,
pretty_otp5085_msg4,
pretty_otp5085_msg5,
pretty_otp5085_msg6,
pretty_otp5085_msg7,
pretty_otp5600_msg1,
pretty_otp5600_msg2,
pretty_otp5601_msg1,
pretty_otp5793_msg01,
pretty_otp5882_msg01,
pretty_otp6490_msg01,
pretty_otp6490_msg02,
pretty_otp6490_msg03,
pretty_otp6490_msg04,
pretty_otp6490_msg05,
pretty_otp6490_msg06,
pretty_otp7671_msg01,
pretty_otp7671_msg02,
pretty_otp7671_msg03,
pretty_otp7671_msg04,
pretty_otp7671_msg05
].
flex_pretty_tickets(suite) ->
{req, [],
{conf, flex_pretty_init, flex_pretty_tickets_cases(),
flex_pretty_finish}}.
flex_pretty_tickets_cases() ->
[
flex_pretty_otp5042_msg1,
flex_pretty_otp5085_msg1,
flex_pretty_otp5085_msg2,
flex_pretty_otp5085_msg3,
flex_pretty_otp5085_msg4,
flex_pretty_otp5085_msg5,
flex_pretty_otp5085_msg6,
flex_pretty_otp5085_msg7,
flex_pretty_otp5600_msg1,
flex_pretty_otp5600_msg2,
flex_pretty_otp5601_msg1,
flex_pretty_otp5793_msg01,
flex_pretty_otp7431_msg01,
flex_pretty_otp7431_msg02,
flex_pretty_otp7431_msg03,
flex_pretty_otp7431_msg04,
flex_pretty_otp7431_msg05,
flex_pretty_otp7431_msg06,
flex_pretty_otp7431_msg07
].
%% ----
tickets() ->
Flag = process_flag(trap_exit, true),
Cases = expand(tickets),
Fun = fun(Case) ->
C = init_per_testcase(Case, [{tc_timeout,
timer:minutes(10)}]),
io:format("Eval ~w~n", [Case]),
Result =
case (catch apply(?MODULE, Case, [C])) of
{'EXIT', Reason} ->
io:format("~n~p exited:~n ~p~n",
[Case, Reason]),
{error, {Case, Reason}};
Res ->
Res
end,
end_per_testcase(Case, C),
Result
end,
process_flag(trap_exit, Flag),
lists:map(Fun, Cases).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
pretty_test_msgs(suite) ->
[];
pretty_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1() ++ msgs2() ++ msgs3(),
DynamicDecode = false,
test_msgs(megaco_pretty_text_encoder, DynamicDecode, [], Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
flex_pretty_init(Config) ->
flex_init(Config).
flex_pretty_finish(Config) ->
flex_finish(Config).
flex_pretty_test_msgs(suite) ->
[];
flex_pretty_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
%% Msgs = msgs1(),
Msgs = msgs1() ++ msgs2() ++ msgs3(),
Conf = flex_scanner_conf(Config),
DynamicDecode = false,
test_msgs(megaco_pretty_text_encoder, DynamicDecode, [Conf], Msgs).
flex_pretty_otp5042_msg1(suite) ->
[];
flex_pretty_otp5042_msg1(Config) when is_list(Config) ->
d("flex_pretty_otp5042_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp5042_msg1(),
Bin0 = list_to_binary(Msg0),
Conf = flex_scanner_conf(Config),
case decode_message(megaco_pretty_text_encoder, false, [Conf], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{_, _Mod, {not_an_integer, PropertyParm}} ->
exit({not_an_integer, PropertyParm});
_ ->
io:format("flex_pretty_otp5042_msg1 -> "
"~n Reason: ~w"
"~n", [Reason]),
exit({unexpected_decode_result, Reason})
end;
{ok, M} ->
t("flex_pretty_otp5042_msg1 -> successfull decode:"
"~n~p", [M]),
ok
end.
flex_pretty_otp5085_msg1(suite) ->
[];
flex_pretty_otp5085_msg1(Config) when is_list(Config) ->
d("flex_pretty_otp5085_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5085(ok, pretty_otp5085_msg1(), [Conf]).
flex_pretty_otp5085_msg2(suite) ->
[];
flex_pretty_otp5085_msg2(Config) when is_list(Config) ->
d("flex_pretty_otp5085_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5085(error, pretty_otp5085_msg2(), [Conf]).
flex_pretty_otp5085_msg3(suite) ->
[];
flex_pretty_otp5085_msg3(Config) when is_list(Config) ->
d("flex_pretty_otp5085_msg3 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5085(ok, pretty_otp5085_msg3(), [Conf]).
flex_pretty_otp5085_msg4(suite) ->
[];
flex_pretty_otp5085_msg4(Config) when is_list(Config) ->
d("flex_pretty_otp5085_msg4 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5085(ok, pretty_otp5085_msg4(), [Conf]).
flex_pretty_otp5085_msg5(suite) ->
[];
flex_pretty_otp5085_msg5(Config) when is_list(Config) ->
d("flex_pretty_otp5085_msg5 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5085(ok, pretty_otp5085_msg5(), [Conf]).
flex_pretty_otp5085_msg6(suite) ->
[];
flex_pretty_otp5085_msg6(Config) when is_list(Config) ->
d("flex_pretty_otp5085_msg6 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5085(ok, pretty_otp5085_msg6(), [Conf]).
flex_pretty_otp5085_msg7(suite) ->
[];
flex_pretty_otp5085_msg7(Config) when is_list(Config) ->
d("flex_pretty_otp5085_msg7 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5085(ok, pretty_otp5085_msg7(), [Conf]).
flex_pretty_otp5600_msg1(suite) ->
[];
flex_pretty_otp5600_msg1(Config) when is_list(Config) ->
d("flex_pretty_otp5600_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5600(ok, pretty_otp5600_msg1(), [Conf]).
flex_pretty_otp5600_msg2(suite) ->
[];
flex_pretty_otp5600_msg2(Config) when is_list(Config) ->
d("flex_pretty_otp5600_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5600(ok, pretty_otp5600_msg2(), [Conf]).
flex_pretty_otp5601_msg1(suite) ->
[];
flex_pretty_otp5601_msg1(Config) when is_list(Config) ->
d("flex_pretty_otp5601_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5601(ok, pretty_otp5601_msg1(), [Conf]).
flex_pretty_otp5793_msg01(suite) ->
[];
flex_pretty_otp5793_msg01(Config) when is_list(Config) ->
d("flex_pretty_otp5793_msg01 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
pretty_otp5793(ok, pretty_otp5793_msg1(), [Conf]).
flex_pretty_otp7431_msg01(suite) ->
[];
flex_pretty_otp7431_msg01(Config) when is_list(Config) ->
d("flex_pretty_otp7431_msg01 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
flex_pretty_otp7431(ok, flex_pretty_otp7431_msg1(), [Conf]).
flex_pretty_otp7431_msg02(suite) ->
[];
flex_pretty_otp7431_msg02(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_pretty_otp7431_msg02 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
flex_pretty_otp7431(error, flex_pretty_otp7431_msg2(), [Conf]).
flex_pretty_otp7431_msg03(suite) ->
[];
flex_pretty_otp7431_msg03(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_pretty_otp7431_msg03 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
flex_pretty_otp7431(error, flex_pretty_otp7431_msg3(), [Conf]).
flex_pretty_otp7431_msg04(suite) ->
[];
flex_pretty_otp7431_msg04(Config) when is_list(Config) ->
d("flex_pretty_otp7431_msg04 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
flex_pretty_otp7431(error, flex_pretty_otp7431_msg4(), [Conf]).
flex_pretty_otp7431_msg05(suite) ->
[];
flex_pretty_otp7431_msg05(Config) when is_list(Config) ->
d("flex_pretty_otp7431_msg05 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
flex_pretty_otp7431(error, flex_pretty_otp7431_msg5(), [Conf]).
flex_pretty_otp7431_msg06(suite) ->
[];
flex_pretty_otp7431_msg06(Config) when is_list(Config) ->
d("flex_pretty_otp7431_msg06 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
flex_pretty_otp7431(error, flex_pretty_otp7431_msg6(), [Conf]).
flex_pretty_otp7431_msg07(suite) ->
[];
flex_pretty_otp7431_msg07(Config) when is_list(Config) ->
d("flex_pretty_otp7431_msg07 -> entry", []),
?ACQUIRE_NODES(1, Config),
Conf = flex_scanner_conf(Config),
flex_pretty_otp7431(error, flex_pretty_otp7431_msg7(), [Conf]).
flex_pretty_otp7431(Expected, Msg, Conf) ->
otp7431(Expected, megaco_pretty_text_encoder, Msg, Conf).
otp7431(Expected, Codec, Msg0, Conf) ->
Bin0 = list_to_binary(Msg0),
case decode_message(Codec, false, Conf, Bin0) of
{ok, _Msg1} when Expected =:= ok ->
io:format(" decoded", []),
ok;
{error, {bad_property_parm, Reason}} when (Expected =:= error) andalso
is_list(Reason) ->
io:format("expected result: ~s", [Reason]),
ok;
Else ->
io:format("unexpected result", []),
exit({unexpected_decode_result, Else})
end.
flex_pretty_otp7431_msg1() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10003 {
Context = 2000 {
Add = A4444,
Add = A4445 {
Media {
Stream = 1 {
Local {
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a=recvonly
} ; RTP profile for G.723.1 is 4
}
}
}
}
}".
flex_pretty_otp7431_msg2() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10003 {
Context = 2000 {
Add = A4444,
Add = A4445 {
Media {
Stream = 1 {
Local {
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a= }
}
}
}
}
}".
flex_pretty_otp7431_msg3() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10003 {
Context = 2000 {
Add = A4444,
Add = A4445 {
Media {
Stream = 1 {
Local {
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a }
}
}
}
}
}".
flex_pretty_otp7431_msg4() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10003 {
Context = 2000 {
Add = A4444,
Add = A4445 {
Media {
Stream = 1 {
Local {
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a}
}
}
}
}
}".
flex_pretty_otp7431_msg5() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10003 {
Context = 2000 {
Add = A4444,
Add = A4445 {
Media {
Stream = 1 {
Local {
v= }
}
}
}
}
}".
flex_pretty_otp7431_msg6() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10003 {
Context = 2000 {
Add = A4444,
Add = A4445 {
Media {
Stream = 1 {
Local {
v }
}
}
}
}
}".
flex_pretty_otp7431_msg7() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10003 {
Context = 2000 {
Add = A4444,
Add = A4445 {
Media {
Stream = 1 {
Local {
v}
}
}
}
}
}".
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
compact_test_msgs(suite) ->
[];
compact_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1() ++ msgs2() ++ msgs3(),
DynamicDecode = false,
test_msgs(megaco_compact_text_encoder, DynamicDecode, [], Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
flex_compact_init(Config) ->
flex_init(Config).
flex_compact_finish(Config) ->
flex_finish(Config).
flex_compact_test_msgs(suite) ->
[];
flex_compact_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1() ++ msgs2() ++ msgs3(),
%% Msgs = msgs1(),
Conf = flex_scanner_conf(Config),
DynamicDecode = true,
test_msgs(megaco_compact_text_encoder, DynamicDecode, [Conf], Msgs).
flex_compact_dm_timers1(suite) ->
[];
flex_compact_dm_timers1(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
M = build_dm_timers_message("1", "2", "3"),
B = list_to_binary(M),
Conf = flex_scanner_conf(Config),
case decode_message(megaco_compact_text_encoder, false, [Conf], B) of
{ok, M1} when is_record(M1,'MegacoMessage') ->
t("flex_compact_dm_timers1 -> "
"~n M: ~s"
"~n M1: ~p", [M, M1]),
verify_dm_timers(1,2,3, M1);
Else ->
exit({decode_failed, M, Else})
end.
flex_compact_dm_timers2(suite) ->
[];
flex_compact_dm_timers2(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
M = build_dm_timers_message("02", "03", "04"),
B = list_to_binary(M),
Conf = flex_scanner_conf(Config),
case decode_message(megaco_compact_text_encoder, false, [Conf], B) of
{ok, M1} when is_record(M1,'MegacoMessage') ->
t("flex_compact_dm_timers2 -> "
"~n M: ~s"
"~n M1: ~p", [M, M1]),
verify_dm_timers(2,3,4, M1);
Else ->
exit({decode_failed, M, Else})
end.
flex_compact_dm_timers3(suite) ->
[];
flex_compact_dm_timers3(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
M = build_dm_timers_message("1", "02", "31"),
B = list_to_binary(M),
Conf = flex_scanner_conf(Config),
case decode_message(megaco_compact_text_encoder, false, [Conf], B) of
{ok, M1} when is_record(M1,'MegacoMessage') ->
t("flex_compact_dm_timers3 -> "
"~n M: ~s"
"~n M1: ~p", [M, M1]),
verify_dm_timers(1,2,31, M1);
Else ->
exit({decode_failed, M, Else})
end.
flex_compact_dm_timers4(suite) ->
[];
flex_compact_dm_timers4(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
M = build_dm_timers_message("10", "21", "99"),
B = list_to_binary(M),
Conf = flex_scanner_conf(Config),
case decode_message(megaco_compact_text_encoder, false, [Conf], B) of
{ok, M1} when is_record(M1,'MegacoMessage') ->
t("flex_compact_dm_timers4 -> "
"~n M: ~s"
"~n M1: ~p", [M, M1]),
verify_dm_timers(10,21,99, M1);
Else ->
exit({decode_failed, M, Else})
end.
flex_compact_dm_timers5(suite) ->
[];
flex_compact_dm_timers5(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
M = build_dm_timers_message("99", "23", "11"),
B = list_to_binary(M),
Conf = flex_scanner_conf(Config),
case decode_message(megaco_compact_text_encoder, false, [Conf], B) of
{ok, M1} when is_record(M1,'MegacoMessage') ->
t("flex_compact_dm_timers5 -> "
"~n M: ~s"
"~n M1: ~p", [M, M1]),
verify_dm_timers(99,23,11, M1);
Else ->
exit({decode_failed, M, Else})
end.
flex_compact_dm_timers6(suite) ->
[];
flex_compact_dm_timers6(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
M = build_dm_timers_message("77", "09", "1"),
B = list_to_binary(M),
Conf = flex_scanner_conf(Config),
case decode_message(megaco_compact_text_encoder, false, [Conf], B) of
{ok, M1} when is_record(M1,'MegacoMessage') ->
t("flex_compact_dm_timers6 -> "
"~n M: ~s"
"~n M1: ~p", [M, M1]),
verify_dm_timers(77,9,1, M1);
Else ->
exit({decode_failed, M, Else})
end.
build_dm_timers_message(T, S, L) ->
M = io_lib:format("!/" ?VERSION_STR " [123.123.123.4]:55555\nT=10001{C=-{MF=11111111/00000000/00000000{E=2223{al/on,dd/ce{DM=dialplan00}},SG{cg/rt},DM=dialplan00{T:~s,S:~s,L:~s,(0s| 00s|[1-7]xlxx|8lxxxxxxx|#xxxxxxx|*xx|9l1xxxxxxxxxx|9l011x.s)}}}}", [T, S, L]),
lists:flatten(M).
verify_dm_timers(T,S,L, #'MegacoMessage'{mess = Mess}) ->
#'Message'{messageBody = Body} = Mess,
case get_dm_timers(Body) of
{T, S, L} ->
ok;
{T1, S1, L1} ->
exit({invalid_timer_values, {{T, S, L}, {T1, S1, L1}}});
{error, Reason} ->
exit({invalid_timer, {T, S, L, Reason}})
end.
get_dm_timers({transactions, T}) when is_list(T) ->
get_dm_timers1(T);
get_dm_timers(Other) ->
{error, {invalid_transactions, Other}}.
get_dm_timers1([{transactionRequest,T}|Ts]) when is_record(T,'TransactionRequest') ->
case get_dm_timers2(T) of
{ok, Timers} ->
Timers;
_ ->
get_dm_timers1(Ts)
end;
get_dm_timers1([_|Ts]) ->
get_dm_timers1(Ts);
get_dm_timers1([]) ->
{error, {no_timers, 'TransactionRequest'}}.
get_dm_timers2(#'TransactionRequest'{actions = Actions}) when is_list(Actions) ->
get_dm_timers3(Actions).
get_dm_timers3([#'ActionRequest'{commandRequests = Cmds}|Ars]) when is_list(Cmds) ->
case get_dm_timers4(Cmds) of
{ok, Timers} ->
{ok, Timers};
_ ->
get_dm_timers3(Ars)
end;
get_dm_timers3([_|Ars]) ->
get_dm_timers3(Ars);
get_dm_timers3([]) ->
{error, {no_timers, 'ActionRequest'}}.
get_dm_timers4([#'CommandRequest'{command = Cmd}|Cmds]) ->
case get_dm_timers5(Cmd) of
{ok, Timers} ->
{ok, Timers};
_ ->
get_dm_timers4(Cmds)
end;
get_dm_timers4([_|Cmds]) ->
get_dm_timers4(Cmds);
get_dm_timers4([]) ->
{error, {no_timers, 'CommandRequest'}}.
get_dm_timers5({modReq, #'AmmRequest'{descriptors = Descriptors}}) ->
get_dm_timers6(Descriptors);
get_dm_timers5(R) ->
{error, {no_modReq, R}}.
get_dm_timers6([{digitMapDescriptor, #'DigitMapDescriptor'{digitMapValue = Val}}|_]) ->
case Val of
#'DigitMapValue'{startTimer = T,
shortTimer = S,
longTimer = L} ->
{ok, {T, S, L}};
_ ->
{error, no_value_in_dm}
end;
get_dm_timers6([_|Descs]) ->
get_dm_timers6(Descs);
get_dm_timers6([]) ->
{error, {no_timers, descriptors}}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
bin_test_msgs(suite) ->
[];
bin_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1(),
DynamicDecode = false,
test_msgs(megaco_binary_encoder, DynamicDecode, [], Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
ber_test_msgs(suite) ->
[];
ber_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1(),
DynamicDecode = false,
test_msgs(megaco_ber_encoder, DynamicDecode, [], Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
ber_bin_test_msgs(suite) ->
[];
ber_bin_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1(),
DynamicDecode = true,
test_msgs(megaco_ber_bin_encoder, DynamicDecode, [], Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
per_test_msgs(suite) ->
[];
per_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1(),
DynamicDecode = false,
test_msgs(megaco_per_encoder, DynamicDecode, [], Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
per_bin_test_msgs(suite) ->
[];
per_bin_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1(),
DynamicDecode = false,
test_msgs(megaco_per_bin_encoder, DynamicDecode, [], Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
erl_dist_m_test_msgs(suite) ->
[];
erl_dist_m_test_msgs(Config) when is_list(Config) ->
?ACQUIRE_NODES(1, Config),
Msgs = msgs1() ++ msgs2() ++ msgs3(),
DynamicDecode = false,
Conf = [megaco_compressed],
test_msgs(megaco_erl_dist_encoder, DynamicDecode, Conf, Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
%% Ticket test cases:
%% --------------------------------------------------------------
%% Observe that this decode SHALL fail
compact_otp4011_msg1(suite) ->
[];
compact_otp4011_msg1(Config) when is_list(Config) ->
% put(severity,trc),
% put(dbg,true),
d("compact_otp4011_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
M = "!/" ?VERSION_STR
" ML T=233350{C=${A=stedevice/01{M{O{MO=SR,RV=OFF,RG=OFF,tdmc/ec=OFF,MO=SR}}}}}",
ok = compact_otp4011(M).
%% --------------------------------------------------------------
%% Observe that this decode SHALL fail
compact_otp4011_msg2(suite) ->
[];
compact_otp4011_msg2(Config) when is_list(Config) ->
d("compact_otp4011_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
M = "!/" ?VERSION_STR
" ML T=233350{C=${A=stedevice/01{M{O{MO=SO,RV=OFF,RG=OFF,tdmc/ec=OFF,MO=SR}}}}}",
% put(severity,trc),
% put(dbg,true),
ok = compact_otp4011(M).
%% --------------------------------------------------------------
%% Observe that this decode SHALL fail
compact_otp4011_msg3(suite) ->
[];
compact_otp4011_msg3(Config) when is_list(Config) ->
d("compact_otp4011_msg3 -> entry", []),
?ACQUIRE_NODES(1, Config),
M = "!/" ?VERSION_STR
" ML T=233350{C=${A=stedevice/01{M{O{MO=SR,RV=OFF,RG=OFF,tdmc/ec=OFF,MO=SO}}}}}",
%% put(severity,trc),
%% put(dbg,true),
ok = compact_otp4011(M).
compact_otp4011(M) ->
d("compact_otp4011 -> entry with"
"~n M: '~s'", [M]),
Bin = list_to_binary(M),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, _} ->
exit({decoded_erroneous_message,M});
{error, Error} when is_list(Error) -> % Expected result
d("compact_otp4011 -> expected error result (so far)", []),
case lists:keysearch(reason,1,Error) of
{value, {reason,Reason}} ->
d("compact_otp4011 -> expected error: "
"~n Reason: ~p", [Reason]),
case Reason of
{0, megaco_text_parser_v1,
{do_merge_control_streamParms, [A,B]}}
when is_list(A) andalso is_record(B, 'LocalControlDescriptor') ->
case lists:keysearch(mode,1,A) of
{value, {mode, _Mode}}
when B#'LocalControlDescriptor'.streamMode =/= asn1_NOVALUE ->
d("compact_otp4011 -> expected error",[]),
ok;
Other ->
exit({unexpected_mode_reason, {A,B,Other}})
end;
Other ->
exit({unexpected_reason, Other})
end;
false ->
d("compact_otp4011 -> OUPS, wrong kind of error", []),
exit({unexpected_result, Error})
end;
Else ->
d("compact_otp4011 -> unexpected decode result: ~p", [Else]),
exit({unexpected_decode_result, Else})
end.
%% --------------------------------------------------------------
%% Note that this decode SHALL fail, because of the misspelled
%% MEGCAO instead of the correct MEGACO.
compact_otp4013_msg1(suite) ->
[];
compact_otp4013_msg1(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("compact_otp4013_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
M = "MEGCAO/1 MG1 T=12345678{C=-{SC=root{SV{MT=RS,RE=901}}}}",
Bin = list_to_binary(M),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, _} ->
exit({decoded_erroneous_message,M});
{error, Reason} when is_list(Reason) ->
{value, {reason, no_version_found, _}} =
lists:keysearch(reason, 1, Reason),
{value, {token, [{'SafeChars',_,"megcao/1"}|_]}} =
lists:keysearch(token, 1, Reason),
ok;
Else ->
exit({unexpected_decode_result,Else})
end.
%% --------------------------------------------------------------
%%
%%
compact_otp4085_msg1(suite) ->
[];
compact_otp4085_msg1(Config) when is_list(Config) ->
d("compact_otp4085_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
M = compact_otp4085_erroneous_msg(),
Bin = list_to_binary(M),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, M} ->
exit({decoded_erroneous_message,M});
{error, Error} when is_list(Error) -> % Expected result
t("compact_otp4085_msg1 -> decode failed", []),
case lists:keysearch(reason, 1, Error) of
{value, {reason,{999999, Module, Crap}}} ->
t("compact_otp4085_msg1 -> THE ACTUAL ERROR: "
"~n LINE NUMBER: 999999"
"~n Module: ~p"
"~n Crap: ~p", [Module, Crap]),
%% ok;
exit({decode_failed_999999, Module, Crap});
{value, {reason,{Line, Module, Crap}}} ->
t("compact_otp4085_msg1 -> Expected: "
"~n Line: ~p"
"~n Module: ~p"
"~n Crap: ~p", [Line, Module, Crap]),
ok;
false ->
exit({unexpected_result, Error})
end;
Else ->
exit({unexpected_decode_result, Else})
end.
%% --------------------------------------------------------------
%% This test case is just to show that the message used in
%% compact_otp4085_msg1 is actually ok when you add '}' at the end.
compact_otp4085_msg2(suite) ->
[];
compact_otp4085_msg2(Config) when is_list(Config) ->
d("compact_otp4085_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
M1 = compact_otp4085_erroneous_msg() ++ "}",
Bin = list_to_binary(M1),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, M2} ->
l("compact_otp4085_msg1 -> successfull decode"
"~n M2: ~p", [M2]),
ok;
Else ->
e("compact_otp4085_msg1 -> decode error"
"~n Else: ~p", [Else]),
exit({unexpected_decode_result,Else})
end.
%% This message lack the ending parentesis (}).
compact_otp4085_erroneous_msg() ->
M = "!/"
?VERSION_STR
" ML T=11223342{C=${A=${M{O{MO=SR,RV=OFF,RG=OFF},L{v=0,"
"c=ATM NSAP $ ,"
"a=eecid:$ ,"
"m=audio - AAL1/ATMF -,"
"}}},A=stee1181/01{M{O{MO=SR,RV=OFF,RG=OFF,tdmc/ec=off}}}}",
M.
%% --------------------------------------------------------------
%%
%%
compact_otp4280_msg1(suite) ->
[];
compact_otp4280_msg1(Config) when is_list(Config) ->
d("compact_otp4280_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Bin = list_to_binary(compact_otp4280_msg()),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, _Msg} ->
ok;
{error, Error} when is_list(Error) ->
t("compact_otp4280_msg1 -> decode failed", []),
case lists:keysearch(reason, 1, Error) of
{value, {reason,{Line, Module, Reason} = R}} ->
t("compact_otp4280_msg1 -> "
"~n Line: ~w"
"~n Module: ~w"
"~n Reason: ~w", [Line, Module, Reason]),
exit({decode_failed, R});
false ->
exit({unexpected_result, Error})
end;
Else ->
exit({unexpected_decode_result, Else})
end.
compact_otp4280_msg() ->
M = "!/"
?VERSION_STR
" mgw1 P=71853646{C=-{AV=root{M{TS{root/maxnumberofcontexts=49500,"
"root/maxterminationspercontext=2,root/normalmgexecutiontime=200,"
"root/normalmgcexecutiontime=150,"
"root/provisionalresponsetimervalue=2000,BF=OFF,SI=IV}}}}}",
M.
%% --------------------------------------------------------------
%% This ticket is about comments in a message
compact_otp4299_msg1(suite) ->
[];
compact_otp4299_msg1(Config) when is_list(Config) ->
d("compact_otp4299_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Bin = list_to_binary(compact_otp4299_msg()),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, _Msg} ->
ok;
{error, Reason} ->
exit({decode_error, Reason});
Else ->
exit({unexpected_decode_result, Else})
end.
%% Same message, but this time decoded using the flex scanner
compact_otp4299_msg2(suite) ->
[];
compact_otp4299_msg2(Config) when is_list(Config) ->
d("compact_otp4299_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
{Pid, Conf} = compact_otp4299_msg2_init(),
Bin = list_to_binary(compact_otp4299_msg()),
Res = decode_message(megaco_compact_text_encoder, false, [Conf], Bin),
compact_otp4299_msg2_finish(Pid),
case Res of
{ok, _Msg} ->
ok;
{error, Reason} ->
exit({decode_error, Reason});
Else ->
exit({unexpected_decode_result, Else})
end.
compact_otp4299_msg2_init() ->
Flag = process_flag(trap_exit, true),
Res = (catch start_flex_scanner()),
process_flag(trap_exit, Flag),
case Res of
{error, Reason} ->
skip(Reason);
{ok, FlexConfig} ->
FlexConfig
end.
compact_otp4299_msg2_finish(Pid) ->
stop_flex_scanner(Pid).
compact_otp4299_msg() ->
M = ";KALLE\n"
"!/" ?VERSION_STR " mg58_1 P=005197711{; YET ANOTHER COMMENT\n"
"C=035146207{A=mg58_1_1_4_1_23/19; BEFORE COMMA\n"
",; AFTER COMMA\n"
"A=eph58_1/0xA4023371{M{L{\n"
"v=0\n"
"c=ATM NSAP 39.0102.0304.0506.0708.090a.0b58.0100.0000.0000.00\n"
"m=audio - AAL1/ATMF -\n"
"a=eecid:A4023371\n"
"}}; HOBBE\n}; KALLE \"HOBBE \n}}"
";KALLE\n\n",
M.
%% --------------------------------------------------------------
%%
%%
compact_otp4359_msg1(suite) ->
[];
compact_otp4359_msg1(Config) when is_list(Config) ->
d("compact_otp4359_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Bin = list_to_binary(compact_otp4359_msg()),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, #'MegacoMessage'{mess = Mess}} ->
{transactions, Trans} = Mess#'Message'.messageBody,
case Trans of
[{transactionRequest,#'TransactionRequest'{transactionId = asn1_NOVALUE}}] ->
ok;
_ ->
exit({unexpected_transactions, Trans})
end;
Else ->
t("compact_otp4359_msg1 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
compact_otp4359_msg() ->
M = "!/" ?VERSION_STR " ml2 T={C=${A=${M{O {MO=SR,RG=OFF,RV=OFF}}}}}",
M.
%% --------------------------------------------------------------
%%
%%
compact_otp4920_msg0(suite) ->
[];
compact_otp4920_msg0(Config) when is_list(Config) ->
d("compact_otp4920_msg0 -> entry", []),
?ACQUIRE_NODES(1, Config),
% put(dbg,true),
compact_otp4920_msg_1(compact_otp4920_msg0(), true).
compact_otp4920_msg1(suite) ->
[];
compact_otp4920_msg1(Config) when is_list(Config) ->
d("compact_otp4920_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
% put(dbg,true),
compact_otp4920_msg_1(compact_otp4920_msg1(), false).
compact_otp4920_msg2(suite) ->
[];
compact_otp4920_msg2(Config) when is_list(Config) ->
d("compact_otp4920_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg2(), false).
compact_otp4920_msg3(suite) ->
[];
compact_otp4920_msg3(Config) when is_list(Config) ->
d("compact_otp4920_msg3 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg3(), true).
compact_otp4920_msg4(suite) ->
[];
compact_otp4920_msg4(Config) when is_list(Config) ->
d("compact_otp4920_msg4 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg4(), true).
compact_otp4920_msg5(suite) ->
[];
compact_otp4920_msg5(Config) when is_list(Config) ->
d("compact_otp4920_msg5 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg5(), true).
compact_otp4920_msg6(suite) ->
[];
compact_otp4920_msg6(Config) when is_list(Config) ->
d("compact_otp4920_msg6 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg6(), true).
compact_otp4920_msg7(suite) ->
[];
compact_otp4920_msg7(Config) when is_list(Config) ->
d("compact_otp4920_msg7 -> entry", []),
?ACQUIRE_NODES(1, Config),
% put(dbg,true),
compact_otp4920_msg_1(compact_otp4920_msg7(), true).
compact_otp4920_msg8(suite) ->
[];
compact_otp4920_msg8(Config) when is_list(Config) ->
d("compact_otp4920_msg8 -> entry", []),
?ACQUIRE_NODES(1, Config),
% put(dbg,true),
compact_otp4920_msg_1(compact_otp4920_msg8(), false).
compact_otp4920_msg9(suite) ->
[];
compact_otp4920_msg9(Config) when is_list(Config) ->
d("compact_otp4920_msg9 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg9(), false).
compact_otp4920_msg10(suite) ->
[];
compact_otp4920_msg10(Config) when is_list(Config) ->
d("compact_otp4920_msg10 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg10(), false).
compact_otp4920_msg11(suite) ->
[];
compact_otp4920_msg11(Config) when is_list(Config) ->
d("compact_otp4920_msg11 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg11(), false).
compact_otp4920_msg12(suite) ->
[];
compact_otp4920_msg12(Config) when is_list(Config) ->
d("compact_otp4920_msg12 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_1(compact_otp4920_msg12(), true).
%% Duplicate padding
compact_otp4920_msg20(suite) ->
[];
compact_otp4920_msg20(Config) when is_list(Config) ->
d("compact_otp4920_msg20 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_2(compact_otp4920_msg20(), bad_mid_duplicate_padding).
%% Length
compact_otp4920_msg21(suite) ->
[];
compact_otp4920_msg21(Config) when is_list(Config) ->
d("compact_otp4920_msg21 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_2(compact_otp4920_msg21(), bad_mid_ip6addr_length).
%% Length
compact_otp4920_msg22(suite) ->
[];
compact_otp4920_msg22(Config) when is_list(Config) ->
d("compact_otp4920_msg22 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_2(compact_otp4920_msg22(), bad_mid_ip6addr_length).
%% Length
compact_otp4920_msg23(suite) ->
[];
compact_otp4920_msg23(Config) when is_list(Config) ->
d("compact_otp4920_msg23 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_2(compact_otp4920_msg23(), bad_mid_ip6addr_length).
%% Length
compact_otp4920_msg24(suite) ->
[];
compact_otp4920_msg24(Config) when is_list(Config) ->
d("compact_otp4920_msg24 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_2(compact_otp4920_msg24(), bad_mid_ip6addr_length).
%% Length
compact_otp4920_msg25(suite) ->
[];
compact_otp4920_msg25(Config) when is_list(Config) ->
d("compact_otp4920_msg25 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp4920_msg_2(compact_otp4920_msg25(), bad_mid_ip6addr_length).
compact_otp4920_msg_1(M1, CheckEqual) ->
Bin1 = list_to_binary(M1),
case decode_message(megaco_compact_text_encoder, false, [], Bin1) of
{ok, Msg} ->
io:format(" decoded", []),
case encode_message(megaco_compact_text_encoder, [], Msg) of
{ok, Bin1} ->
io:format(", encoded - equal:", []),
ok;
{ok, Bin2} when CheckEqual =:= true ->
M2 = binary_to_list(Bin2),
io:format(", encoded - not equal:", []),
exit({messages_not_equal, M1, M2});
{ok, _Bin2} ->
io:format(", encoded:", []),
ok;
Else ->
io:format(", encode failed:", []),
exit({unexpected_encode_result, Else})
end;
Else ->
io:format("decode failed:", []),
exit({unexpected_decode_result, Else})
end.
compact_otp4920_msg_2(M1, ExpectedReason) ->
Bin = list_to_binary(M1),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, Msg} ->
io:format("unexpected successfull decode", []),
exit({unexpected_encode_ok, Msg});
{error, [{reason, {__Line, _Mod, Reason}}|_]} ->
case element(1, Reason) of
ExpectedReason ->
ok;
_ ->
exit({unexpected_decode_error_reason,
ExpectedReason, Reason})
end;
{error, [{reason, {_Mod, Reason}}|_]} ->
case element(1, Reason) of
ExpectedReason ->
ok;
_ ->
exit({unexpected_decode_error_reason,
ExpectedReason, Reason})
end;
Else ->
io:format("unexpected decode result", []),
exit({unexpected_decode_result, Else})
end.
compact_otp4920_msg0() ->
M = "!/" ?VERSION_STR " [192.168.30.1]\nT=100{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg1() ->
M = "!/" ?VERSION_STR " [2031:0000:130F:0000:0000:09C0:876A:130B]\nT=101{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg2() ->
M = "!/" ?VERSION_STR " [2031:0:130F:0:0:9C0:876A:130B]\nT=102{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg3() ->
M = "!/" ?VERSION_STR " [2031:0:130F::9C0:876A:130B]\nT=103{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg4() ->
M = "!/" ?VERSION_STR " [::1]\nT=104{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg5() ->
M = "!/" ?VERSION_STR " [::]\nT=105{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg6() ->
M = "!/" ?VERSION_STR " [1::]\nT=106{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg7() ->
M = "!/" ?VERSION_STR " [FEDC:1::]\nT=107{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg8() ->
M = "!/" ?VERSION_STR " [2031:0:130F:0:0:9C0:135.106.19.11]\nT=108{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg9() ->
M = "!/" ?VERSION_STR " [2031:0:130F::9C0:135.106.19.11]\nT=109{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg10() ->
M = "!/" ?VERSION_STR " [::FFFF:192.168.30.1]\nT=110{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg11() ->
M = "!/" ?VERSION_STR " [::192.168.30.1]\nT=111{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp4920_msg12() ->
M = "!/" ?VERSION_STR " [::C0A8:1E01]\nT=112{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
%% Illegal: only one :: allowed
compact_otp4920_msg20() ->
M = "!/" ?VERSION_STR " [2031::130F::9C0]\nT=120{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
%% Illegal: length
compact_otp4920_msg21() ->
M = "!/" ?VERSION_STR " [2031:FFEE:0000:130F:0000:0000:09C0:876A:130B]\nT=121{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
%% Illegal: length
compact_otp4920_msg22() ->
M = "!/" ?VERSION_STR " [2031:FFEE:0:130F:0:0:9C0:135.106.19.11]\nT=122{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
%% Illegal: length
compact_otp4920_msg23() ->
M = "!/" ?VERSION_STR " [2031:FFEE:0000:130F:2132:4354::09C0:876A:130B]\nT=123{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
%% Illegal: length
compact_otp4920_msg24() ->
M = "!/" ?VERSION_STR " [::2031:FFEE:0000:130F:2132:4354:09C0:876A:130B]\nT=124{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
%% Illegal: length
compact_otp4920_msg25() ->
M = "!/" ?VERSION_STR " [2031:FFEE:0000:130F:2132:4354:09C0:876A:130B::]\nT=125{C=${A=${M{O{MO=SR,RG=OFF,RV=OFF}}}}}",
M.
compact_otp5186_msg01(suite) ->
[];
compact_otp5186_msg01(Config) when is_list(Config) ->
d("compact_otp5186_msg01 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5186_msg_1(compact_otp5186_msg01(), error, ignore).
compact_otp5186_msg02(suite) ->
[];
compact_otp5186_msg02(Config) when is_list(Config) ->
d("compact_otp5186_msg02 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5186_msg_1(compact_otp5186_msg02(), ok, ok).
compact_otp5186_msg03(suite) ->
[];
compact_otp5186_msg03(Config) when is_list(Config) ->
d("compact_otp5186_msg03 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5186_msg_2(compact_otp5186_msg03(), ok, ok).
compact_otp5186_msg04(suite) ->
[];
compact_otp5186_msg04(Config) when is_list(Config) ->
d("compact_otp5186_msg04 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5186_msg_2(compact_otp5186_msg04(), ok, ok).
compact_otp5186_msg05(suite) ->
[];
compact_otp5186_msg05(Config) when is_list(Config) ->
d("compact_otp5186_msg05 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5186_msg_2(compact_otp5186_msg05(), ok, ok).
compact_otp5186_msg06(suite) ->
[];
compact_otp5186_msg06(Config) when is_list(Config) ->
d("compact_otp5186_msg06 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5186_msg_2(compact_otp5186_msg06(), ok, ok).
compact_otp5186_msg_1(M1, DecodeExpect, EncodeExpect) ->
Bin1 = list_to_binary(M1),
case decode_message(megaco_compact_text_encoder, false, [], Bin1) of
{ok, Msg} when DecodeExpect =:= ok ->
io:format(" decoded", []),
case encode_message(megaco_compact_text_encoder, [], Msg) of
{ok, Bin1} when EncodeExpect =:= ok ->
io:format(", encoded - equal:", []),
ok;
{ok, Bin2} when EncodeExpect =:= ok ->
M2 = binary_to_list(Bin2),
io:format(", encoded - not equal:", []),
exit({messages_not_equal, Msg, M1, M2});
{ok, Bin3} when EncodeExpect =:= error ->
M3 = binary_to_list(Bin3),
io:format(", unexpected encode:", []),
exit({unexpected_encode_success, Msg, M1, M3});
_Else when EncodeExpect =:= error ->
io:format(", encode failed ", []),
ok
end;
{ok, Msg} when DecodeExpect =:= error ->
io:format(" decoded", []),
exit({unexpected_decode_success, Msg});
_Else when DecodeExpect =:= error ->
io:format(" decode failed ", []),
ok;
Else when DecodeExpect =:= ok ->
io:format(" decode failed ", []),
exit({unexpected_decode_result, Else})
end.
compact_otp5186_msg_2(Msg1, EncodeExpect, DecodeExpect) ->
case encode_message(megaco_compact_text_encoder, [], Msg1) of
{ok, Bin} when EncodeExpect =:= ok ->
io:format(" encoded", []),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, Msg1} when DecodeExpect =:= ok ->
io:format(", decoded - equal:", []),
ok;
{ok, Msg2} when DecodeExpect =:= ok ->
M = binary_to_list(Bin),
case (catch compact_otp5186_check_megamsg(Msg1, Msg2)) of
ok ->
io:format(", decoded - not equal - ok:", []),
ok;
{'EXIT', Reason} ->
io:format(", decoded - not equal:", []),
exit({messages_not_equal, M, Reason, Msg1, Msg2})
end;
{ok, Msg3} when DecodeExpect =:= error ->
M = binary_to_list(Bin),
io:format(", decoded:", []),
exit({unexpected_decode_success, M, Msg1, Msg3});
Else when DecodeExpect =:= ok ->
M = binary_to_list(Bin),
io:format(", decode failed ", []),
exit({unexpected_decode_success, Msg1, M, Else});
_Else when DecodeExpect =:= error ->
io:format(", decode failed ", []),
ok
end;
{ok, Bin} when EncodeExpect =:= error ->
M = binary_to_list(Bin),
io:format(" encoded", []),
exit({unexpected_encode_success, Msg1, M});
_Else when EncodeExpect =:= error ->
io:format(" encode failed ", []),
ok;
Else when EncodeExpect =:= ok ->
io:format(" encode failed ", []),
exit({unexpected_encode_result, Else})
end.
%% --
compact_otp5186_msg01() ->
"!/1 <mg5>\nP=67111298{C=2699{AV=mg5_ipeph/0x0f0001{}}}".
compact_otp5186_msg02() ->
"!/1 <mg5>\nP=67111298{C=2699{AV=mg5_ipeph/0x0f0001}}".
compact_otp5186_msg03() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
1,
{domainName,{'DomainName',"mg5",asn1_NOVALUE}},
{transactions,
[{transactionReply,
{'TransactionReply',67111298,asn1_NOVALUE,
{actionReplies,[
{'ActionReply',2699,asn1_NOVALUE,asn1_NOVALUE,
[
{auditValueReply,
{auditResult,
{'AuditResult',
{megaco_term_id,false,["mg5_ipeph","0x0f0001"]},
[
]
}
}
}
]
}
]
}
}
}
]
}
}
}.
compact_otp5186_msg04() ->
{'MegacoMessage',asn1_NOVALUE,
{'Message',1,{domainName,{'DomainName',"mg5",asn1_NOVALUE}},
{transactions,
[{transactionReply,
{'TransactionReply',67111298,asn1_NOVALUE,
{actionReplies,[
{'ActionReply',2699,asn1_NOVALUE,asn1_NOVALUE,
[
{auditValueReply,
{auditResult,
{'AuditResult',
{megaco_term_id,false,["mg5_ipeph","0x0f0001"]},
[
{emptyDescriptors,
{'AuditDescriptor',asn1_NOVALUE}
}
]
}
}
}
]
}
]
}
}
}
]
}
}
}.
compact_otp5186_msg05() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
1,
{domainName,{'DomainName',"mg5",asn1_NOVALUE}},
{transactions,
[{transactionReply,
{'TransactionReply',67111298,asn1_NOVALUE,
{actionReplies,[
{'ActionReply',2699,asn1_NOVALUE,asn1_NOVALUE,
[
{addReply,
{'AmmsReply',
[
{megaco_term_id,false,["mg5_ipeph","0x0f0001"]}
],
[
]
}
}
]
}
]
}
}
}
]
}
}
}.
compact_otp5186_msg06() ->
{'MegacoMessage',asn1_NOVALUE,
{'Message',1,{domainName,{'DomainName',"mg5",asn1_NOVALUE}},
{transactions,
[{transactionReply,
{'TransactionReply',67111298,asn1_NOVALUE,
{actionReplies,[
{'ActionReply',2699,asn1_NOVALUE,asn1_NOVALUE,
[
{addReply,
{'AmmsReply',
[
{megaco_term_id,false,["mg5_ipeph","0x0f0001"]}
],
[
{emptyDescriptors,
{'AuditDescriptor',asn1_NOVALUE}
}
]
}
}
]
}
]
}
}
}
]
}
}
}.
%% --
compact_otp5186_check_megamsg(M1, M1) ->
ok;
compact_otp5186_check_megamsg(#'MegacoMessage'{authHeader = AH,
mess = M1},
#'MegacoMessage'{authHeader = AH,
mess = M2}) ->
compact_otp5186_check_mess(M1, M2);
compact_otp5186_check_megamsg(#'MegacoMessage'{authHeader = AH1},
#'MegacoMessage'{authHeader = AH2}) ->
exit({not_equal, authHeader, AH1, AH2}).
compact_otp5186_check_mess(M, M) ->
ok;
compact_otp5186_check_mess(#'Message'{version = V,
mId = MId,
messageBody = B1},
#'Message'{version = V,
mId = MId,
messageBody = B2}) ->
compact_otp5186_check_body(B1, B2);
compact_otp5186_check_mess(#'Message'{version = V,
mId = MId1},
#'Message'{version = V,
mId = MId2}) ->
exit({not_equal, mId, MId1, MId2});
compact_otp5186_check_mess(#'Message'{version = V1,
mId = MId},
#'Message'{version = V2,
mId = MId}) ->
exit({not_equal, version, V1, V2}).
compact_otp5186_check_body(B, B) ->
ok;
compact_otp5186_check_body({transactions, T1}, {transactions, T2}) ->
compact_otp5186_check_trans(T1, T2);
compact_otp5186_check_body({messageError, E1}, {messageError, E2}) ->
compact_otp5186_check_merr(E1, E2);
compact_otp5186_check_body(B1, B2) ->
exit({not_equal, messageBody, B1, B2}).
compact_otp5186_check_trans([], []) ->
ok;
compact_otp5186_check_trans([], T2) ->
exit({not_equal, transactions, [], T2});
compact_otp5186_check_trans(T1, []) ->
exit({not_equal, transactions, T1, []});
compact_otp5186_check_trans([Tran1|Trans1], [Tran2|Trans2]) ->
compact_otp5186_check_trans(Trans1, Trans2),
compact_otp5186_check_transaction(Tran1, Tran2).
compact_otp5186_check_merr(ME, ME) ->
ok;
compact_otp5186_check_merr(#'ErrorDescriptor'{errorCode = EC,
errorText = ET1},
#'ErrorDescriptor'{errorCode = EC,
errorText = ET2}) ->
exit({not_equal, errorText, ET1, ET2});
compact_otp5186_check_merr(#'ErrorDescriptor'{errorCode = EC1,
errorText = ET},
#'ErrorDescriptor'{errorCode = EC2,
errorText = ET}) ->
exit({not_equal, errorCode, EC1, EC2}).
compact_otp5186_check_transaction(T, T) ->
ok;
compact_otp5186_check_transaction({transactionReply, TR1},
{transactionReply, TR2}) ->
compact_otp5186_check_transRep(TR1, TR2);
compact_otp5186_check_transaction(T1, T2) ->
exit({unexpected_transactions, T1, T2}).
compact_otp5186_check_transRep(T, T) ->
ok;
compact_otp5186_check_transRep(#'TransactionReply'{transactionId = TId,
immAckRequired = IAR,
transactionResult = TR1},
#'TransactionReply'{transactionId = TId,
immAckRequired = IAR,
transactionResult = TR2}) ->
compact_otp5186_check_transRes(TR1, TR2);
compact_otp5186_check_transRep(T1, T2) ->
exit({unexpected_transaction_reply, T1, T2}).
compact_otp5186_check_transRes(TR, TR) ->
ok;
compact_otp5186_check_transRes({actionReplies, AR1},
{actionReplies, AR2}) ->
compact_otp5186_check_actReps(AR1, AR2);
compact_otp5186_check_transRes(TR1, TR2) ->
exit({unexpected_transaction_result, TR1, TR2}).
compact_otp5186_check_actReps([], []) ->
ok;
compact_otp5186_check_actReps(AR1, []) ->
exit({not_equal, actionReplies, AR1, []});
compact_otp5186_check_actReps([], AR2) ->
exit({not_equal, actionReplies, [], AR2});
compact_otp5186_check_actReps([AR1|ARs1], [AR2|ARs2]) ->
compact_otp5186_check_actRep(AR1, AR2),
compact_otp5186_check_actReps(ARs1, ARs2).
compact_otp5186_check_actRep(AR, AR) ->
ok;
compact_otp5186_check_actRep(#'ActionReply'{contextId = ID,
errorDescriptor = ED,
contextReply = CtxRep,
commandReply = CmdRep1},
#'ActionReply'{contextId = ID,
errorDescriptor = ED,
contextReply = CtxRep,
commandReply = CmdRep2}) ->
compact_otp5186_check_cmdReps(CmdRep1, CmdRep2);
compact_otp5186_check_actRep(AR1, AR2) ->
exit({unexpected_actionReply, AR1, AR2}).
compact_otp5186_check_cmdReps([], []) ->
ok;
compact_otp5186_check_cmdReps(CR1, []) ->
exit({not_equal, commandReplies, CR1, []});
compact_otp5186_check_cmdReps([], CR2) ->
exit({not_equal, commandReplies, [], CR2});
compact_otp5186_check_cmdReps([CR1|CRs1], [CR2|CRs2]) ->
compact_otp5186_check_cmdRep(CR1, CR2),
compact_otp5186_check_cmdReps(CRs1, CRs2).
compact_otp5186_check_cmdRep(CR, CR) ->
ok;
compact_otp5186_check_cmdRep({auditValueReply, AVR1},
{auditValueReply, AVR2}) ->
compact_otp5186_check_auditReply(AVR1, AVR2);
compact_otp5186_check_cmdRep({addReply, AVR1},
{addReply, AVR2}) ->
compact_otp5186_check_ammsReply(AVR1, AVR2);
compact_otp5186_check_cmdRep(CR1, CR2) ->
exit({unexpected_commandReply, CR1, CR2}).
compact_otp5186_check_auditReply(AR, AR) ->
ok;
compact_otp5186_check_auditReply({auditResult, AR1},
{auditResult, AR2}) ->
compact_otp5186_check_auditRes(AR1, AR2);
compact_otp5186_check_auditReply(AR1, AR2) ->
exit({unexpected_auditReply, AR1, AR2}).
compact_otp5186_check_ammsReply(AR, AR) ->
ok;
compact_otp5186_check_ammsReply(#'AmmsReply'{terminationID = ID,
terminationAudit = TA1},
#'AmmsReply'{terminationID = ID,
terminationAudit = TA2}) ->
%% This is just to simplify the test
F = fun(asn1_NOVALUE) -> [];
(E) -> E
end,
compact_otp5186_check_termAudit(F(TA1), F(TA2));
compact_otp5186_check_ammsReply(AR1, AR2) ->
exit({unexpected_ammsReply, AR1, AR2}).
compact_otp5186_check_auditRes(AR, AR) ->
ok;
compact_otp5186_check_auditRes(#'AuditResult'{terminationID = ID,
terminationAuditResult = TAR1},
#'AuditResult'{terminationID = ID,
terminationAuditResult = TAR2}) ->
compact_otp5186_check_termAuditRes(TAR1, TAR2);
compact_otp5186_check_auditRes(AR1, AR2) ->
exit({unexpected_auditResult, AR1, AR2}).
compact_otp5186_check_termAuditRes([], []) ->
ok;
%% An empty empty descriptor is removed
compact_otp5186_check_termAuditRes([{emptyDescriptors,
#'AuditDescriptor'{auditToken = asn1_NOVALUE}}|TAR1], []) ->
compact_otp5186_check_termAuditRes(TAR1, []);
compact_otp5186_check_termAuditRes(TAR1, []) ->
exit({not_equal, termAuditRes, TAR1, []});
%% An empty empty descriptor is removed
compact_otp5186_check_termAuditRes([], [{emptyDescriptors,
#'AuditDescriptor'{auditToken = asn1_NOVALUE}}|TAR2]) ->
compact_otp5186_check_termAuditRes([], TAR2);
compact_otp5186_check_termAuditRes([], TAR2) ->
exit({not_equal, termAuditRes, [], TAR2});
compact_otp5186_check_termAuditRes([ARP1|TAR1], [ARP2|TAR2]) ->
compact_otp5186_check_auditRetParm(ARP1, ARP2),
compact_otp5186_check_termAuditRes(TAR1, TAR2).
compact_otp5186_check_termAudit([], []) ->
ok;
%% An empty empty descriptor is removed
compact_otp5186_check_termAudit([{emptyDescriptors,
#'AuditDescriptor'{auditToken = asn1_NOVALUE}}|TAR1], []) ->
compact_otp5186_check_termAudit(TAR1, []);
compact_otp5186_check_termAudit(TAR1, []) ->
exit({not_equal, termAudit, TAR1, []});
%% An empty empty descriptor is removed
compact_otp5186_check_termAudit([],
[{emptyDescriptors,
#'AuditDescriptor'{auditToken = asn1_NOVALUE}}|TAR2]) ->
compact_otp5186_check_termAudit([], TAR2);
compact_otp5186_check_termAudit([], TAR2) ->
exit({not_equal, termAudit, [], TAR2});
compact_otp5186_check_termAudit([ARP1|TAR1], [ARP2|TAR2]) ->
compact_otp5186_check_auditRetParm(ARP1, ARP2),
compact_otp5186_check_termAudit(TAR1, TAR2).
compact_otp5186_check_auditRetParm(ARP, ARP) ->
ok;
compact_otp5186_check_auditRetParm({emptyDescriptors, AD1},
{emptyDescriptors, AD2}) ->
compact_otp5186_check_auditDesc(AD1, AD2);
compact_otp5186_check_auditRetParm(ARP1, ARP2) ->
exit({unexpected_auditRetParm, ARP1, ARP2}).
compact_otp5186_check_auditDesc(AD, AD) ->
ok;
compact_otp5186_check_auditDesc(#'AuditDescriptor'{auditToken = L1},
#'AuditDescriptor'{auditToken = L2}) ->
compact_otp5186_check_auditDesc_auditItems(L1, L2);
compact_otp5186_check_auditDesc(AD1, AD2) ->
exit({unexpected_auditDesc, AD1, AD2}).
compact_otp5186_check_auditDesc_auditItems([], []) ->
ok;
compact_otp5186_check_auditDesc_auditItems(AI1, []) ->
exit({not_equal, auditItems, AI1, []});
compact_otp5186_check_auditDesc_auditItems([], AI2) ->
exit({not_equal, auditItems, [], AI2});
compact_otp5186_check_auditDesc_auditItems([AI1|AIs1], [AI2|AIs2]) ->
compact_otp5186_check_auditDesc_auditItem(AI1, AI2),
compact_otp5186_check_auditDesc_auditItems(AIs1, AIs2).
compact_otp5186_check_auditDesc_auditItem(AI, AI) ->
ok;
compact_otp5186_check_auditDesc_auditItem(AI1, AI2) ->
exit({not_equal, auditItem, AI1, AI2}).
compact_otp5793_msg01(suite) ->
[];
compact_otp5793_msg01(Config) when is_list(Config) ->
d("compact_otp5793_msg01 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5793(ok, pretty_otp5793_msg1()).
compact_otp5793(Expected, Msg) ->
expect_codec(Expected, megaco_compact_text_encoder, Msg, []).
%% --------------------------------------------------------------
compact_otp5993_msg01(suite) ->
[];
compact_otp5993_msg01(Config) when is_list(Config) ->
d("compact_otp5993_msg01 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5993_msg_1(compact_otp5993_msg01(), ok, ok).
compact_otp5993_msg02(suite) ->
[];
compact_otp5993_msg02(Config) when is_list(Config) ->
d("compact_otp5993_msg02 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5993_msg_1(compact_otp5993_msg02(), ok, ok).
compact_otp5993_msg03(suite) ->
[];
compact_otp5993_msg03(Config) when is_list(Config) ->
d("compact_otp5993_msg03 -> entry", []),
?ACQUIRE_NODES(1, Config),
compact_otp5993_msg_1(compact_otp5993_msg03(), ok, ok).
compact_otp5993_msg_1(Msg1, EncodeExpect, DecodeExpect) ->
case encode_message(megaco_compact_text_encoder, [], Msg1) of
{ok, Bin} when EncodeExpect =:= ok ->
io:format(" encoded", []),
%% io:format(" encoded:~n~s~n", [binary_to_list(Bin)]),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, Msg1} when DecodeExpect =:= ok ->
io:format(", decoded - equal:", []),
ok;
{ok, Msg3} when DecodeExpect =:= error ->
M = binary_to_list(Bin),
io:format(", decoded:", []),
exit({unexpected_decode_success, M, Msg1, Msg3});
Else when DecodeExpect =:= ok ->
M = binary_to_list(Bin),
io:format(", decode failed ", []),
exit({unexpected_decode_failure, Msg1, M, Else});
_Else when DecodeExpect =:= error ->
io:format(", decode failed ", []),
ok
end;
{ok, Bin} when EncodeExpect =:= error ->
M = binary_to_list(Bin),
io:format(" encoded", []),
exit({unexpected_encode_success, Msg1, M});
_Else when EncodeExpect =:= error ->
io:format(" encode failed ", []),
ok;
Else when EncodeExpect =:= ok ->
io:format(" encode failed ", []),
exit({unexpected_encode_result, Else})
end.
compact_otp5993_msg01() ->
MT = h221,
T = #megaco_term_id{id = ?A4444},
TL = [T],
MD = #'MuxDescriptor'{muxType = MT,
termList = TL},
compact_otp5993_msg(MD).
compact_otp5993_msg02() ->
MT = h223,
T1 = #megaco_term_id{id = ?A4445},
T2 = #megaco_term_id{id = ?A5556},
TL = [T1, T2],
MD = #'MuxDescriptor'{muxType = MT,
termList = TL},
compact_otp5993_msg(MD).
compact_otp5993_msg(MD) when is_record(MD, 'MuxDescriptor') ->
AmmDesc = {muxDescriptor, MD},
AmmReq = #'AmmRequest'{terminationID = [hd(MD#'MuxDescriptor'.termList)],
descriptors = [AmmDesc]},
Cmd = {addReq, AmmReq},
CmdReq = #'CommandRequest'{command = Cmd},
ActReq = #'ActionRequest'{contextId = 5993,
commandRequests = [CmdReq]},
TransReq = #'TransactionRequest'{transactionId = 3995,
actions = [ActReq]},
Trans = {transactionRequest, TransReq},
Body = {transactions, [Trans]},
Msg = #'Message'{version = ?VERSION,
mId = ?MG1_MID,
messageBody = Body},
#'MegacoMessage'{mess = Msg}.
compact_otp5993_msg03() ->
T1 = #megaco_term_id{id = ?A4445},
T2 = #megaco_term_id{id = ?A5556},
TIDs = [T1, T2],
AudRep = {contextAuditResult, TIDs},
CmdRep = {auditValueReply, AudRep},
ActRep = #'ActionReply'{contextId = 5993,
commandReply = [CmdRep]},
TransRes = {actionReplies, [ActRep]},
TransRep = #'TransactionReply'{transactionId = 3995,
transactionResult = TransRes},
Trans = {transactionReply, TransRep},
Body = {transactions, [Trans]},
Msg = #'Message'{version = ?VERSION,
mId = ?MG1_MID,
messageBody = Body},
#'MegacoMessage'{mess = Msg}.
%% --------------------------------------------------------------
compact_otp6017_msg01(suite) ->
[];
compact_otp6017_msg01(Config) when is_list(Config) ->
d("compact_otp6017_msg01 -> entry", []),
?ACQUIRE_NODES(1, Config),
ok = compact_otp6017(0),
ok.
compact_otp6017_msg02(suite) ->
[];
compact_otp6017_msg02(Config) when is_list(Config) ->
d("compact_otp6017_msg02 -> entry", []),
?ACQUIRE_NODES(1, Config),
ok = compact_otp6017(16#FFFFFFFE),
ok.
compact_otp6017_msg03(suite) ->
[];
compact_otp6017_msg03(Config) when is_list(Config) ->
d("compact_otp6017_msg03 -> entry", []),
?ACQUIRE_NODES(1, Config),
ok = compact_otp6017(16#FFFFFFFF),
ok.
compact_otp6017(BadCID) ->
M = compact_otp6017_msg(BadCID),
Bin = list_to_binary(M),
case decode_message(megaco_compact_text_encoder, false, [], Bin) of
{ok, Msg} ->
exit({unexpected_decode_success, {Msg, M}});
{error, Reason} when is_list(Reason) -> % Expected result
case lists:keysearch(reason, 1, Reason) of
{value, {reason, {_Line, _Mod, {bad_ContextID, BadCID}}}} ->
io:format(" ~w", [BadCID]),
ok;
{value, {reason, ActualReason}} ->
exit({unexpected_reason, ActualReason});
false ->
exit({reason_not_found, Reason})
end;
Crap ->
exit({unexpected_decode_result, Crap})
end.
compact_otp6017_msg(CID) when is_integer(CID) ->
"MEGACO/" ?VERSION_STR " MG1 T=12345678{C=" ++
integer_to_list(CID) ++
"{SC=root{SV{MT=RS,RE=901}}}}".
%% ==============================================================
%%
%% F l e x C o m p a c t T e s t c a s e s
%%
flex_compact_otp7431_msg01a(suite) ->
[];
flex_compact_otp7431_msg01a(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_comppact_otp7431_msg01a -> entry", []),
Conf = flex_scanner_conf(Config),
flex_compact_otp7431(ok, flex_compact_otp7431_msg1a(), [Conf]).
flex_compact_otp7431_msg01b(suite) ->
[];
flex_compact_otp7431_msg01b(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_comppact_otp7431_msg01b -> entry", []),
Conf = flex_scanner_conf(Config),
flex_compact_otp7431(ok, flex_compact_otp7431_msg1b(), [Conf]).
flex_compact_otp7431_msg02(suite) ->
[];
flex_compact_otp7431_msg02(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_comppact_otp7431_msg02 -> entry", []),
Conf = flex_scanner_conf(Config),
flex_compact_otp7431(error, flex_compact_otp7431_msg2(), [Conf]).
flex_compact_otp7431_msg03(suite) ->
[];
flex_compact_otp7431_msg03(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_comppact_otp7431_msg03 -> entry", []),
Conf = flex_scanner_conf(Config),
flex_compact_otp7431(error, flex_compact_otp7431_msg3(), [Conf]).
flex_compact_otp7431_msg04(suite) ->
[];
flex_compact_otp7431_msg04(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_comppact_otp7431_msg04 -> entry", []),
Conf = flex_scanner_conf(Config),
flex_compact_otp7431(error, flex_compact_otp7431_msg4(), [Conf]).
flex_compact_otp7431_msg05(suite) ->
[];
flex_compact_otp7431_msg05(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_comppact_otp7431_msg05 -> entry", []),
Conf = flex_scanner_conf(Config),
flex_compact_otp7431(error, flex_compact_otp7431_msg5(), [Conf]).
flex_compact_otp7431_msg06(suite) ->
[];
flex_compact_otp7431_msg06(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_comppact_otp7431_msg06 -> entry", []),
Conf = flex_scanner_conf(Config),
flex_compact_otp7431(error, flex_compact_otp7431_msg6(), [Conf]).
flex_compact_otp7431_msg07(suite) ->
[];
flex_compact_otp7431_msg07(Config) when is_list(Config) ->
%% put(severity,trc),
%% put(dbg,true),
d("flex_comppact_otp7431_msg07 -> entry", []),
Conf = flex_scanner_conf(Config),
flex_compact_otp7431(error, flex_compact_otp7431_msg7(), [Conf]).
flex_compact_otp7431(Expected, Msg, Conf) ->
otp7431(Expected, megaco_compact_text_encoder, Msg, Conf).
flex_compact_otp7431_msg1a() ->
"!/1 [124.124.124.222]:55555
P=10003{C=2000{A=a4444,A=a4445{M{ST=1{L{
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a=recvonly
}}}}}}".
flex_compact_otp7431_msg1b() ->
"!/1 [124.124.124.222]:55555
P=10003{C=2000{A=a4444,A=a4445{M{ST=1{L{
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a=recvonly
}}}}}}".
flex_compact_otp7431_msg2() ->
"!/1 [124.124.124.222]:55555
P=10003{C=2000{A=a4444,A=a4445{M{ST=1{L{
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a= }
}}}}}".
flex_compact_otp7431_msg3() ->
"!/1 [124.124.124.222]:55555
P=10003{C=2000{A=a4444,A=a4445{M{ST=1{L{
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a }
}}}}}".
flex_compact_otp7431_msg4() ->
"!/1 [124.124.124.222]:55555
P=10003{C=2000{A=a4444,A=a4445{M{ST=1{L{
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a}
}}}}}".
flex_compact_otp7431_msg5() ->
"!/1 [124.124.124.222]:55555
P=10003{C=2000{A=a4444,A=a4445{M{ST=1{L{
v= }
}}}}}".
flex_compact_otp7431_msg6() ->
"!/1 [124.124.124.222]:55555
P=10003{C=2000{A=a4444,A=a4445{M{ST=1{L{
v }
}}}}}".
flex_compact_otp7431_msg7() ->
"!/1 [124.124.124.222]:55555
P=10003{C=2000{A=a4444,A=a4445{M{ST=1{L{
v}
}}}}}".
%% ==============================================================
%%
%% P r e t t y T e s t c a s e s
%%
pretty_otp4632_msg1(suite) ->
[];
pretty_otp4632_msg1(Config) when is_list(Config) ->
d("pretty_otp4632_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4632_msg1(),
case encode_message(megaco_pretty_text_encoder, [], Msg0) of
{ok, BinMsg} when is_binary(BinMsg) ->
{ok, Msg1} = decode_message(megaco_pretty_text_encoder, false,
[], BinMsg),
ok = chk_MegacoMessage(Msg0,Msg1);
Else ->
t("pretty_otp4632_msg1 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4632_msg1() ->
msg4(?MG1_MID_NO_PORT, "901 mg col boot").
pretty_otp4632_msg2(suite) ->
[];
pretty_otp4632_msg2(Config) when is_list(Config) ->
d("pretty_otp4632_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4632_msg2(),
case encode_message(megaco_pretty_text_encoder, [], Msg0) of
{ok, BinMsg} when is_binary(BinMsg) ->
{ok, Msg1} = decode_message(megaco_pretty_text_encoder, false,
[], BinMsg),
ok = chk_MegacoMessage(Msg0,Msg1);
Else ->
t("pretty_otp4632_msg2 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4632_msg2() ->
msg4(?MG1_MID_NO_PORT, "901").
pretty_otp4632_msg3(suite) ->
[];
pretty_otp4632_msg3(Config) when is_list(Config) ->
d("pretty_otp4632_msg3 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4632_msg3(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder,
false, [], Bin0) of
{ok, Msg} when is_record(Msg, 'MegacoMessage') ->
{ok, Bin1} = encode_message(megaco_pretty_text_encoder, [], Msg),
Msg1 = binary_to_list(Bin1),
%% io:format("Msg1:~n~s~n", [Msg1]),
Msg0 = Msg1,
ok;
Else ->
t("pretty_otp4632_msg3 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4632_msg3() ->
M = "MEGACO/" ?VERSION_STR " [124.124.124.222]\nTransaction = 9998 {\n\tContext = - {\n\t\tServiceChange = root {\n\t\t\tServices {\n\t\t\t\tMethod = Restart,\n\t\t\t\tServiceChangeAddress = 55555,\n\t\t\t\tProfile = resgw/1,\n\t\t\t\tReason = \"901\"\n\t\t\t}\n\t\t}\n\t}\n}",
M.
pretty_otp4632_msg4(suite) ->
[];
pretty_otp4632_msg4(Config) when is_list(Config) ->
d("pretty_otp4632_msg4 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4632_msg4(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{ok, Msg} when is_record(Msg, 'MegacoMessage') ->
{ok, Bin1} = encode_message(megaco_pretty_text_encoder, [], Msg),
Msg1 = binary_to_list(Bin1),
%% io:format("Msg1:~n~s~n", [Msg1]),
pretty_otp4632_msg4_chk(Msg0,Msg1);
Else ->
t("pretty_otp4632_msg4 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4632_msg4() ->
M = "MEGACO/" ?VERSION_STR " [124.124.124.222]\nTransaction = 9998 {\n\tContext = - {\n\t\tServiceChange = root {\n\t\t\tServices {\n\t\t\t\tMethod = Restart,\n\t\t\t\tServiceChangeAddress = 55555,\n\t\t\t\tProfile = resgw/1,\n\t\t\t\tReason = 901\n\t\t\t}\n\t\t}\n\t}\n}",
M.
pretty_otp4632_msg4_chk([], []) ->
exit(messages_not_eq);
pretty_otp4632_msg4_chk([], Rest1) ->
exit({messages_not_eq1, Rest1});
pretty_otp4632_msg4_chk(Rest0, []) ->
exit({messages_not_eq0, Rest0});
pretty_otp4632_msg4_chk([$R,$e,$a,$s,$o,$n,$ ,$=,$ ,$9,$0,$1|_Rest0],
[$R,$e,$a,$s,$o,$n,$ ,$=,$ ,$",$9,$0,$1,$"|_Rest1]) ->
ok;
pretty_otp4632_msg4_chk([_|Rest0], [_|Rest1]) ->
pretty_otp4632_msg4_chk(Rest0,Rest1).
pretty_otp4710_msg1(suite) ->
[];
pretty_otp4710_msg1(Config) when is_list(Config) ->
d("pretty_otp4710_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4710_msg1(),
case encode_message(megaco_pretty_text_encoder, [], Msg0) of
{ok, Bin} when is_binary(Bin) ->
{ok, Msg1} = decode_message(megaco_pretty_text_encoder, false,
[], Bin),
ok = chk_MegacoMessage(Msg0,Msg1);
Else ->
t("pretty_otp4710_msg1 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4710_msg1() ->
msg40().
pretty_otp4710_msg2(suite) ->
[];
pretty_otp4710_msg2(Config) when is_list(Config) ->
d("pretty_otp4710_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4710_msg2(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{ok, Msg} when is_record(Msg, 'MegacoMessage') ->
{ok, Bin1} = encode_message(megaco_pretty_text_encoder, [], Msg),
Msg1 = binary_to_list(Bin1),
%% io:format("Msg1:~n~s~n", [Msg1]),
pretty_otp4710_msg2_chk(Msg0,Msg1);
Else ->
t("pretty_otp4710_msg2 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4710_msg2() ->
"Authentication = 0xEFCDAB89:0x12345678:0x1234567889ABCDEF76543210\nMEGACO/" ?VERSION_STR " [124.124.124.222]\nTransaction = 9998 {\n\tContext = - {\n\t\tServiceChange = root {\n\t\t\tServices {\n\t\t\t\tMethod = Restart,\n\t\t\t\tServiceChangeAddress = 55555,\n\t\t\t\tProfile = resgw/1,\n\t\t\t\tReason = \"901 mg col boot\"\n\t\t\t}\n\t\t}\n\t}\n}".
pretty_otp4710_msg2_chk(Msg,Msg) ->
ok;
pretty_otp4710_msg2_chk(
[$A,$u,$t,$h,$e,$n,$t,$i,$c,$a,$t,$i,$o,$n,$=,$ |Msg0],
[$A,$u,$t,$h,$e,$n,$t,$i,$c,$a,$t,$i,$o,$n,$=,$ |Msg1]) ->
{AH0, Rest0} = pretty_otp4710_msg2_chk_ah(Msg0, []),
{AH1, Rest1} = pretty_otp4710_msg2_chk_ah(Msg1, []),
case AH0 == AH1 of
true ->
exit({message_not_equal, Rest0, Rest1});
false ->
exit({auth_header_not_equal, AH0, AH1})
end.
pretty_otp4710_msg2_chk_ah([], _Acc) ->
exit(no_auth_header_found);
pretty_otp4710_msg2_chk_ah([$M,$E,$G,$A,$C,$O,$/,_|Rest], Acc) ->
{lists:reverse(Acc), Rest};
pretty_otp4710_msg2_chk_ah([C|R], Acc) ->
pretty_otp4710_msg2_chk_ah(R, [C|Acc]).
pretty_otp4945_msg1(suite) ->
[];
pretty_otp4945_msg1(Config) when is_list(Config) ->
d("pretty_otp4945_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4945_msg1(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{missing_required_serviceChangeParm, [serviceChangeReason]} ->
ok;
Else ->
t("pretty_otp4945_msg1 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end;
Else ->
io:format("pretty_otp4945_msg1 -> "
"~n Else: ~w"
"~n", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4945_msg1() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Transaction = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
Method = Restart,
ServiceChangeAddress = 55555,
Profile = ResGW/1
}
}
}
}".
pretty_otp4945_msg2(suite) ->
[];
pretty_otp4945_msg2(Config) when is_list(Config) ->
d("pretty_otp4945_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4945_msg2(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{missing_required_serviceChangeParm, [serviceChangeMethod]} ->
ok;
Else ->
t("pretty_otp4945_msg2 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end;
Else ->
t("pretty_otp4945_msg2 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4945_msg2() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Transaction = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
Reason = 901,
ServiceChangeAddress = 55555,
Profile = ResGW/1
}
}
}
}".
pretty_otp4945_msg3(suite) ->
[];
pretty_otp4945_msg3(Config) when is_list(Config) ->
d("pretty_otp4945_msg3 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4945_msg3(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{missing_required_serviceChangeParm, [serviceChangeReason, serviceChangeMethod]} ->
ok;
{missing_required_serviceChangeParm, [serviceChangeMethod, serviceChangeReason]} ->
ok;
Else ->
t("pretty_otp4945_msg3 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end;
Else ->
t("pretty_otp4945_msg3 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4945_msg3() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Transaction = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
ServiceChangeAddress = 55555,
Profile = ResGW/1
}
}
}
}".
pretty_otp4945_msg4(suite) ->
[];
pretty_otp4945_msg4(Config) when is_list(Config) ->
d("pretty_otp4945_msg4 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4945_msg4(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{ok, _} ->
ok;
Else ->
t("pretty_otp4945_msg4 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4945_msg4() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Transaction = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
Method = Restart,
Reason = 901,
ServiceChangeAddress = 55555,
Profile = ResGW/1
}
}
}
}".
pretty_otp4945_msg5(suite) ->
[];
pretty_otp4945_msg5(Config) when is_list(Config) ->
d("pretty_otp4945_msg5 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4945_msg5(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{at_most_once_serviceChangeParm, {profile, _Val1, _Val2}} ->
ok;
Else ->
io:format("pretty_otp4945_msg6 -> "
"~n Else: ~w"
"~n", [Else]),
exit({unexpected_decode_result, Else})
end;
Else ->
t("pretty_otp4945_msg5 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4945_msg5() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Transaction = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
Method = Restart,
Reason = 901,
Profile = ResGW/1,
ServiceChangeAddress = 55555,
Profile = ResGW/2
}
}
}
}".
pretty_otp4945_msg6(suite) ->
[];
pretty_otp4945_msg6(Config) when is_list(Config) ->
d("pretty_otp4945_msg6 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4945_msg6(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{not_both_address_mgcid_serviceChangeParm, _Val1, _Val2} ->
ok;
Else ->
io:format("pretty_otp4945_msg6 -> "
"~n Else: ~w"
"~n", [Else]),
exit({unexpected_decode_result, Else})
end;
Else ->
t("pretty_otp4945_msg6 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4945_msg6() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Transaction = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
Method = Restart,
Reason = 901,
ServiceChangeAddress = 55555,
MgcIdToTry = kalle,
Profile = ResGW/1
}
}
}
}".
pretty_otp4949_msg1(suite) ->
[];
pretty_otp4949_msg1(Config) when is_list(Config) ->
d("pretty_otp4949_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4949_msg1(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{ok, _} ->
ok;
Else ->
t("pretty_otp4949_msg1 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4949_msg1() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Reply = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
ServiceChangeAddress = 55555,
Profile = ResGW/1
}
}
}
}".
pretty_otp4949_msg2(suite) ->
[];
pretty_otp4949_msg2(Config) when is_list(Config) ->
d("pretty_otp4949_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4949_msg2(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{at_most_once_servChgReplyParm, {profile, _Val1, _Val2}} ->
ok;
Else ->
io:format("pretty_otp4949_msg2 -> "
"~n Else: ~w"
"~n", [Else]),
exit({unexpected_decode_result, Else})
end;
Else ->
t("pretty_otp4949_msg2 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4949_msg2() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Reply = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
Profile = ResGW/1,
ServiceChangeAddress = 55555,
Profile = ResGW/2
}
}
}
}".
pretty_otp4949_msg3(suite) ->
[];
pretty_otp4949_msg3(Config) when is_list(Config) ->
d("pretty_otp4949_msg3 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp4949_msg3(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{not_both_address_mgcid_servChgReplyParm, _Val1, _Val2} ->
ok;
Else ->
io:format("pretty_otp4949_msg3 -> "
"~n Else: ~w"
"~n", [Else]),
exit({unexpected_decode_result, Else})
end;
Else ->
t("pretty_otp4949_msg3 -> "
"~n Else: ~w", [Else]),
exit({unexpected_decode_result, Else})
end.
pretty_otp4949_msg3() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Reply = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
ServiceChangeAddress = 55555,
MgcIdToTry = kalle,
Profile = ResGW/1
}
}
}
}".
pretty_otp5042_msg1(suite) ->
[];
pretty_otp5042_msg1(Config) when is_list(Config) ->
d("pretty_otp5042_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg0 = pretty_otp5042_msg1(),
Bin0 = list_to_binary(Msg0),
case decode_message(megaco_pretty_text_encoder, false, [], Bin0) of
{error, [{reason, Reason}|_]} ->
case Reason of
{_, _Mod, {not_an_integer, PropertyParm}} ->
exit({not_an_integer, PropertyParm});
_ ->
io:format("pretty_otp5042_msg1 -> "
"~n Reason: ~w"
"~n", [Reason]),
exit({unexpected_decode_result, Reason})
end;
{ok, M} ->
t("pretty_otp5042_msg1 -> successfull decode:"
"~n~p", [M]),
ok
end.
pretty_otp5042_msg1() ->
"MEGACO/" ?VERSION_STR " <CATAPULT>:2944
Transaction = 102 {
Context = 5 { Notify = MUX/1 { ObservedEvents = 1 {
h245bh/h245msgin { Stream = 1
, h245enc =
0270020600088175000653401004100403E802E00180018001780680000034301160000700088175010101007A0100020001800001320000C0000219D005027F0070500100040100021080000319D005027F00504001008000041C001250000700088175010000400280010003000880000518AA027F400006850130008011020100000001030002000300040005000006
} }
} } }".
pretty_otp5068_msg1(suite) ->
[];
pretty_otp5068_msg1(Config) when is_list(Config) ->
d("pretty_otp5068_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
Msg = pretty_otp5068_msg1(),
case encode_message(megaco_pretty_text_encoder, [], Msg) of
{error, Reason} ->
% io:format("pretty_otp5068_msg1 -> "
% "~n Reason: ~w"
% "~n", [Reason]),
exit({unexpected_encode_result, Reason});
{ok, Bin} ->
% io:format("pretty_otp5068_msg1 -> successfull encode:"
% "~n~s~n", [binary_to_list(Bin)]),
case decode_message(megaco_pretty_text_encoder, false, [], Bin) of
{ok, _} ->
% io:format("pretty_otp5068_msg1 -> ok~n", []),
ok;
Else ->
%% io:format("~npretty_otp5068_msg1 -> ~n~p~n", [Else]),
exit({unexpected_decode_result, Else})
end
end.
pretty_otp5068_msg1() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
2,
{deviceName,[109,103,51,51]},
{transactions,
[{transactionReply,
{'TransactionReply',
190,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply', %% Comments: Detta upprepas m�nga g�nger
0,
asn1_NOVALUE,
asn1_NOVALUE,
[{auditValueReply,
{auditResult,
{'AuditResult',
{megaco_term_id,false,
[[99,101,100,101,118,49,47,52,47,49,47,49],[51,49]]},
[{mediaDescriptor,
{'MediaDescriptor',
{'TerminationStateDescriptor',
[],
asn1_NOVALUE,
inSvc},
asn1_NOVALUE}}]}}}]}]}}}]}}}.
pretty_otp5085_msg1(suite) ->
[];
pretty_otp5085_msg1(Config) when is_list(Config) ->
d("pretty_otp5085_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
pretty_otp5085(ok, pretty_otp5085_msg1()).
pretty_otp5085_msg2(suite) ->
[];
pretty_otp5085_msg2(Config) when is_list(Config) ->
d("pretty_otp5085_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
pretty_otp5085(error, pretty_otp5085_msg2()).
pretty_otp5085_msg3(suite) ->
[];
pretty_otp5085_msg3(Config) when is_list(Config) ->
d("pretty_otp5085_msg3 -> entry", []),
?ACQUIRE_NODES(1, Config),
pretty_otp5085(ok, pretty_otp5085_msg3()).
pretty_otp5085_msg4(suite) ->
[];
pretty_otp5085_msg4(Config) when is_list(Config) ->
d("pretty_otp5085_msg4 -> entry", []),
?ACQUIRE_NODES(1, Config),
pretty_otp5085(ok, pretty_otp5085_msg4()).
pretty_otp5085_msg5(suite) ->
[];
pretty_otp5085_msg5(Config) when is_list(Config) ->
d("pretty_otp5085_msg5 -> entry", []),
?ACQUIRE_NODES(1, Config),
pretty_otp5085(ok, pretty_otp5085_msg5()).
pretty_otp5085_msg6(suite) ->
[];
pretty_otp5085_msg6(Config) when is_list(Config) ->
d("pretty_otp5085_msg6 -> entry", []),
?ACQUIRE_NODES(1, Config),
pretty_otp5085(ok, pretty_otp5085_msg6()).
pretty_otp5085_msg7(suite) ->
[];
pretty_otp5085_msg7(Config) when is_list(Config) ->
d("pretty_otp5085_msg7 -> entry", []),
?ACQUIRE_NODES(1, Config),
pretty_otp5085(ok, pretty_otp5085_msg7()).
pretty_otp5085(Expected, Msg) ->
pretty_otp5085(Expected, Msg, []).
pretty_otp5085(Expected, Msg, Conf) ->
t("pretty_otp5085 -> entry with"
"~n Expected: ~p"
"~n Msg: ~p", [Expected, Msg]),
case (catch encode_message(megaco_pretty_text_encoder, Conf, Msg)) of
{error, Reason} when Expected =:= error ->
d("pretty_otp5085 -> encode failed as expected"
"~n Reason: ~w", [Reason]),
ok;
{error, Reason} ->
e("pretty_otp5085 -> encode failed unexpectedly: "
"~n Reason: ~w", [Reason]),
exit({unexpected_encode_result, Reason});
{ok, Bin} when Expected =:= error ->
e("pretty_otp5085 -> encode succeded unexpectedly: "
"~n ~w", [binary_to_list(Bin)]),
exit({unexpected_encode_result, binary_to_list(Bin)});
{ok, Bin} ->
d("pretty_otp5085 -> successfull encode as expected:"
"~n~s", [binary_to_list(Bin)]),
case decode_message(megaco_pretty_text_encoder, false, Conf, Bin) of
{ok, Msg} ->
d("pretty_otp5085 -> successfull decode~n", []),
ok;
{ok, Msg2} ->
e("pretty_otp5085 -> successfull decode"
" - but not equal", []),
exit({unexpected_decode_result, Msg, Msg2});
Else ->
e("pretty_otp5085 -> decode failed:~n~p", [Else]),
exit({unexpected_decode_result, Else})
end
end.
pretty_otp5085_msg1() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
?VERSION,
{deviceName,"mg36"},
{transactions,
[{transactionReply,
{'TransactionReply',
230,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply',
400,
{'ErrorDescriptor',504,asn1_NOVALUE},
asn1_NOVALUE,
[]
}
]
}
}
}
]
}
}
}.
pretty_otp5085_msg2() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
?VERSION,
{deviceName,"mg36"},
{transactions,
[{transactionReply,
{'TransactionReply',
230,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply',
400,
asn1_NOVALUE,
asn1_NOVALUE,
[]
}
]
}
}
}
]
}
}
}.
pretty_otp5085_msg3() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
?VERSION,
{deviceName,"mg36"},
{transactions,
[{transactionReply,
{'TransactionReply',
230,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply',
400,
asn1_NOVALUE,
#'ContextRequest'{priority = 3},
[]
}
]
}
}
}
]
}
}
}.
pretty_otp5085_msg4() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
?VERSION,
{deviceName,"mg36"},
{transactions,
[{transactionReply,
{'TransactionReply',
230,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply',
400,
asn1_NOVALUE,
asn1_NOVALUE,
[{addReply, cre_ammsReply([#megaco_term_id{id = ?A4444}])},
{notifyReply, cre_notifyReply([#megaco_term_id{id = ?A5555}])}]
}
]
}
}
}
]
}
}
}.
pretty_otp5085_msg5() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
?VERSION,
{deviceName,"mg36"},
{transactions,
[{transactionReply,
{'TransactionReply',
230,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply',
400,
asn1_NOVALUE,
#'ContextRequest'{priority = 5},
[{addReply, cre_ammsReply([#megaco_term_id{id = ?A4444}])},
{notifyReply, cre_notifyReply([#megaco_term_id{id = ?A5555}])}]
}
]
}
}
}
]
}
}
}.
pretty_otp5085_msg6() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
?VERSION,
{deviceName,"msg36"},
{transactions,
[{transactionReply,
{'TransactionReply',
230,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply',
400,
{'ErrorDescriptor',504,asn1_NOVALUE},
#'ContextRequest'{priority = 6},
[{addReply, cre_ammsReply([#megaco_term_id{id = ?A4444}])},
{notifyReply, cre_notifyReply([#megaco_term_id{id = ?A5555}])}]
}
]
}
}
}
]
}
}
}.
pretty_otp5085_msg7() ->
{'MegacoMessage',
asn1_NOVALUE,
{'Message',
?VERSION,
{deviceName,"msg36"},
{transactions,
[{transactionReply,
{'TransactionReply',
230,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply',
400,
{'ErrorDescriptor',504,asn1_NOVALUE},
#'ContextRequest'{priority = 7},
[{notifyReply, cre_notifyReply([#megaco_term_id{id = ?A5555}])}]
}
]
}
}
}
]
}
}
}.
pretty_otp5600_msg1(suite) ->
[];
pretty_otp5600_msg1(Config) when is_list(Config) ->
d("pretty_otp5600_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
%% put(severity,trc),
%% put(dbg,true),
pretty_otp5600(ok, pretty_otp5600_msg1()).
pretty_otp5600_msg2(suite) ->
[];
pretty_otp5600_msg2(Config) when is_list(Config) ->
d("pretty_otp5600_msg2 -> entry", []),
?ACQUIRE_NODES(1, Config),
%% put(severity,trc),
%% put(dbg,true),
pretty_otp5600(ok, pretty_otp5600_msg2()).
pretty_otp5600(Expected, Msg) ->
pretty_otp5600(Expected, Msg, []).
pretty_otp5600(Expected, Msg, Conf) ->
t("pretty_otp5600 -> entry with"
"~n Expected: ~p"
"~n Msg: ~p", [Expected, Msg]),
case (catch encode_message(megaco_pretty_text_encoder, Conf, Msg)) of
{error, Reason} when Expected =:= error ->
d("pretty_otp5600 -> encode failed as expected"
"~n Reason: ~w", [Reason]),
ok;
{error, Reason} ->
e("pretty_otp5600 -> encode failed unexpectedly: "
"~n Reason: ~w", [Reason]),
exit({unexpected_encode_result, Reason});
{ok, Bin} when Expected =:= error ->
e("pretty_otp5600 -> encode succeded unexpectedly: "
"~n ~w", [binary_to_list(Bin)]),
exit({unexpected_encode_result, binary_to_list(Bin)});
{ok, Bin} ->
d("pretty_otp5600 -> successfull encode as expected:"
"~n~s", [binary_to_list(Bin)]),
case decode_message(megaco_pretty_text_encoder, false, Conf, Bin) of
{ok, Msg} ->
d("pretty_otp5600 -> successfull decode~n", []),
ok;
{ok, Msg2} ->
e("pretty_otp5600 -> successfull decode"
" - but not equal", []),
exit({unexpected_decode_result, Msg, Msg2});
Else ->
e("pretty_otp5600 -> decode failed:~n~p", [Else]),
exit({unexpected_decode_result, Else})
end
end.
pretty_otp5600_msg1() ->
SRE = #'SecondRequestedEvent'{ pkgdName = "al/on",
evParList = [] },
SED = #'SecondEventsDescriptor'{ requestID = 2,
eventList = [ SRE ] },
SIG = { signal, #'Signal'{ signalName = "cg/dt",
sigParList = [] } },
RA = #'RequestedActions'{ secondEvent = SED,
signalsDescriptor = [ SIG ] },
RE = #'RequestedEvent'{ pkgdName = "al/of",
eventAction = RA,
evParList = [] },
EV = #'EventsDescriptor'{ requestID = 1, eventList = [ RE ] },
TermID = {megaco_term_id, true, [[$*]] },
AMMR = #'AmmRequest'{ terminationID = [ TermID ],
descriptors = [ { eventsDescriptor, EV } ] },
CR = #'CommandRequest'{command = {modReq, AMMR}},
AR = #'ActionRequest'{contextId = ?megaco_null_context_id,
commandRequests = [CR]},
ARs = [AR],
TR = #'TransactionRequest'{transactionId = 5600, actions = ARs},
TRs = [{transactionRequest, TR}],
Mess = #'Message'{version = ?VERSION,
mId = ?MGC_MID,
messageBody = {transactions, TRs}},
#'MegacoMessage'{mess = Mess}.
pretty_otp5600_msg2() ->
SIG = { signal, #'Signal'{ signalName = "cg/dt",
sigParList = [] } },
SRA = #'SecondRequestedActions'{ signalsDescriptor = [ SIG ] },
SRE = #'SecondRequestedEvent'{ pkgdName = "al/on",
eventAction = SRA,
evParList = [] },
SED = #'SecondEventsDescriptor'{ requestID = 2,
eventList = [ SRE ] },
RA = #'RequestedActions'{ secondEvent = SED },
RE = #'RequestedEvent'{ pkgdName = "al/of",
eventAction = RA,
evParList = [] },
EV = #'EventsDescriptor'{ requestID = 1, eventList = [ RE ] },
TermID = {megaco_term_id, true, [[$*]] },
AMMR = #'AmmRequest'{ terminationID = [ TermID ],
descriptors = [ { eventsDescriptor, EV } ] },
CR = #'CommandRequest'{command = {modReq, AMMR}},
AR = #'ActionRequest'{contextId = ?megaco_null_context_id,
commandRequests = [CR]},
ARs = [AR],
TR = #'TransactionRequest'{transactionId = 5600, actions = ARs},
TRs = [{transactionRequest, TR}],
Mess = #'Message'{version = ?VERSION,
mId = ?MGC_MID,
messageBody = {transactions, TRs}},
#'MegacoMessage'{mess = Mess}.
pretty_otp5601_msg1(suite) ->
[];
pretty_otp5601_msg1(Config) when is_list(Config) ->
d("pretty_otp5601_msg1 -> entry", []),
?ACQUIRE_NODES(1, Config),
%% put(severity,trc),
%% put(dbg,true),
pretty_otp5601(ok, pretty_otp5601_msg1()).
pretty_otp5601(Expected, Msg) ->
pretty_otp5601(Expected, Msg, []).
pretty_otp5601(Expected, Msg, Conf) ->
t("pretty_otp5601 -> entry with"
"~n Expected: ~p"
"~n Msg: ~p", [Expected, Msg]),
case (catch encode_message(megaco_pretty_text_encoder, Conf, Msg)) of
{error, Reason} when Expected =:= error ->
d("pretty_otp5601 -> encode failed as expected"
"~n Reason: ~w", [Reason]),
ok;
{error, Reason} ->
e("pretty_otp5601 -> encode failed unexpectedly: "
"~n Reason: ~w", [Reason]),
exit({unexpected_encode_result, Reason});
{ok, Bin} when Expected =:= error ->
e("pretty_otp5601 -> encode succeded unexpectedly: "
"~n ~w", [binary_to_list(Bin)]),
exit({unexpected_encode_result, binary_to_list(Bin)});
{ok, Bin} ->
d("pretty_otp5601 -> successfull encode as expected:"
"~n~s", [binary_to_list(Bin)]),
case decode_message(megaco_pretty_text_encoder, false, Conf, Bin) of
{ok, Msg} ->
d("pretty_otp5601 -> successfull decode~n", []),
ok;
{ok, Msg2} ->
e("pretty_otp5601 -> successfull decode"
" - but not equal", []),
exit({unexpected_decode_result, Msg, Msg2});
Else ->
e("pretty_otp5601 -> decode failed:~n~p", [Else]),
exit({unexpected_decode_result, Else})
end
end.
pretty_otp5601_msg1() ->
SRE1 = #'SecondRequestedEvent'{ pkgdName = "al/on",
evParList = [] },
SRA = #'SecondRequestedActions'{ eventDM = { digitMapName, "dialllan0" }},
SRE2 = #'SecondRequestedEvent'{ pkgdName = "dd/ce",
eventAction = SRA,
evParList = [] },
SED = #'SecondEventsDescriptor'{ requestID = 2,
eventList = [ SRE1, SRE2 ] },
RA = #'RequestedActions'{ secondEvent = SED },
RE = #'RequestedEvent'{ pkgdName = "al/of",
eventAction = RA,
evParList = [] },
EV = #'EventsDescriptor'{ requestID = 1, eventList = [ RE ] },
TermID = {megaco_term_id, true, [[$*]] },
AMMR = #'AmmRequest'{ terminationID = [ TermID ],
descriptors = [ { eventsDescriptor, EV } ] },
CR = #'CommandRequest'{command = {modReq, AMMR}},
AR = #'ActionRequest'{contextId = ?megaco_null_context_id,
commandRequests = [CR]},
ARs = [AR],
TR = #'TransactionRequest'{transactionId = 5600, actions = ARs},
TRs = [{transactionRequest, TR}],
Mess = #'Message'{version = ?VERSION,
mId = ?MGC_MID,
messageBody = {transactions, TRs}},
#'MegacoMessage'{mess = Mess}.
pretty_otp5793_msg01(suite) ->
[];
pretty_otp5793_msg01(Config) when is_list(Config) ->
d("pretty_otp5793_msg01 -> entry", []),
?ACQUIRE_NODES(1, Config),
% put(severity,trc),
% put(dbg,true),
pretty_otp5793(ok, pretty_otp5793_msg1()).
pretty_otp5793(Expected, Msg) ->
expect_codec(Expected, megaco_pretty_text_encoder, Msg, []).
pretty_otp5793(Expected, Msg, Conf) ->
expect_codec(Expected, megaco_pretty_text_encoder, Msg, Conf).
pretty_otp5793_msg1() ->
{'MegacoMessage',asn1_NOVALUE,
{'Message',2,
{deviceName,"bs_sbg_4/99"},
{transactions,
[{transactionReply,
{'TransactionReply',
370,
asn1_NOVALUE,
{actionReplies,
[{'ActionReply',
3,
asn1_NOVALUE,
asn1_NOVALUE,
[{auditValueReply,
{contextAuditResult,
[{megaco_term_id,
false,
["ip",
"104",
"1",
"18"]}]}},
{auditValueReply,
{contextAuditResult,
[{megaco_term_id,
false,
["ip",
"104",
"2",
"19"]}]}}]}]}}}]}}}.
pretty_otp5882_msg01(suite) ->
[];
pretty_otp5882_msg01(Config) when is_list(Config) ->
d("pretty_otp5882_msg01 -> entry", []),
?ACQUIRE_NODES(1, Config),
%% put(severity,trc),
%% put(dbg,true),
pretty_otp5882().
pretty_otp5882() ->
otp5882(megaco_pretty_text_encoder, []).
otp5882(Codec, Conf) ->
Msg = pretty_otp5882_msg01(),
case (catch encode_message(Codec, Conf, Msg)) of
{error, {message_encode_failed, {error, {ActualReason, _}}, _}} ->
case ActualReason of
{invalid_LocalControlDescriptor, empty} ->
ok;
_ ->
exit({unexpected_error_actual_reason, ActualReason})
end;
{error, Reason} ->
exit({unexpected_error_reason, Reason});
{ok, Bin} ->
exit({unexpected_encode_sucess, binary_to_list(Bin)})
end.
pretty_otp5882_msg01() ->
LCD = #'LocalControlDescriptor'{}, % Create illegal LCD
Parms = cre_streamParms(LCD),
StreamDesc = cre_streamDesc(1, Parms),
MediaDesc = cre_mediaDesc(StreamDesc),
AmmReq = cre_ammReq([#megaco_term_id{id = ?A4445}],
[{mediaDescriptor, MediaDesc}]),
CmdReq = cre_commandReq({modReq, AmmReq}),
ActReq = #'ActionRequest'{contextId = 5882,
commandRequests = [CmdReq]},
Actions = [ActReq],
TransReq = #'TransactionRequest'{transactionId = 5882,
actions = Actions},
Trans = {transactionRequest, TransReq},
Body = {transactions, [Trans]},
Mid = ?MG1_MID,
megaco_message(?VERSION, Mid, Body).
%% --------------------------------------------------------------
%%
pretty_otp6490_msg01(suite) ->
[];
pretty_otp6490_msg01(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp6490_msg01 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp6490( pretty_otp6490_msg01(), [] ),
%% erase(dbg),
%% erase(severity),
ok.
pretty_otp6490_msg02(suite) ->
[];
pretty_otp6490_msg02(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp6490_msg02 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp6490( pretty_otp6490_msg02(), [] ),
%% erase(severity),
%% erase(dbg),
ok.
pretty_otp6490_msg03(suite) ->
[];
pretty_otp6490_msg03(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp6490_msg03 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp6490( pretty_otp6490_msg03(), [] ),
%% erase(severity),
%% erase(dbg),
ok.
pretty_otp6490_msg04(suite) ->
[];
pretty_otp6490_msg04(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp6490_msg04 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp6490( pretty_otp6490_msg04(), [] ),
%% erase(severity),
%% erase(dbg),
ok.
pretty_otp6490_msg05(suite) ->
[];
pretty_otp6490_msg05(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp6490_msg05 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp6490( pretty_otp6490_msg05(), [] ),
%% erase(severity),
%% erase(dbg),
ok.
pretty_otp6490_msg06(suite) ->
[];
pretty_otp6490_msg06(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp6490_msg06 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp6490( pretty_otp6490_msg06(), [] ),
%% erase(severity),
%% erase(dbg),
ok.
pretty_otp6490(Msg, Conf) ->
pretty_otp6490(Msg, Conf, ok).
pretty_otp6490(Msg, Conf, ExpectedEncode) ->
pretty_otp6490(Msg, Conf, ExpectedEncode, ok).
pretty_otp6490(Msg, Conf, ExpectedEncode, ExpectedDecode) ->
otp6490(Msg, megaco_pretty_text_encoder, Conf,
ExpectedEncode, ExpectedDecode).
otp6490(Msg, Codec, Conf, ExpectedEncode, ExpectedDecode) ->
case (catch encode_message(Codec, Conf, Msg)) of
{error, _Reason} when ExpectedEncode =:= error ->
ok;
{error, Reason} when ExpectedEncode =:= ok ->
exit({unexpected_encode_failure, Reason});
{ok, Bin} when ExpectedEncode =:= error ->
exit({unexpected_encode_success, Msg, binary_to_list(Bin)});
{ok, Bin} when ExpectedEncode =:= ok ->
case decode_message(Codec, false, Conf, Bin) of
{ok, Msg} when ExpectedDecode == ok ->
ok;
{ok, Msg} when ExpectedDecode =:= error ->
exit({unexpected_decode_success, Msg});
{ok, Msg2} when ExpectedDecode =:= ok ->
exit({unexpected_decode_result, Msg, Msg2});
{ok, Msg2} when ExpectedDecode =:= error ->
exit({unexpected_decode_success, Msg, Msg2});
{error, _Reason} when ExpectedDecode =:= error ->
ok;
{error, Reason} when ExpectedDecode =:= ok ->
exit({unexpected_decode_failure, Msg, Reason})
end
end.
pretty_otp6490_msg(EBD) ->
AmmDesc = ?MSG_LIB:cre_AmmDescriptor(EBD),
AmmReq = cre_ammReq([#megaco_term_id{id = ?A4445}], [AmmDesc]),
CmdReq = cre_commandReq({modReq, AmmReq}),
CID = cre_CtxID(64901),
ActReq = cre_ActReq(CID, [CmdReq]),
Actions = [ActReq],
TransId = cre_TransId(64902),
TransReq = cre_TransReq(TransId, Actions),
Trans = cre_Trans(TransReq),
Mid = ?MG1_MID,
Mess = cre_Msg(Mid, [Trans]),
cre_MegacoMessage(Mess).
pretty_otp6490_msg01() ->
EvSpecs = [], % This will result in an error
EBD = EvSpecs, % This is because the lib checks that the size is valid
pretty_otp6490_msg(EBD).
pretty_otp6490_msg02() ->
EvPar = ?MSG_LIB:cre_EventParameter("sune", ["mangs"]),
PkgdName = ?MSG_LIB:cre_PkgdName("foo", "a"),
EvName = ?MSG_LIB:cre_EventName(PkgdName),
EvSpec = ?MSG_LIB:cre_EventSpec(EvName, [EvPar]),
EvSpecs = [EvSpec],
EBD = ?MSG_LIB:cre_EventBufferDescriptor(EvSpecs),
pretty_otp6490_msg(EBD).
pretty_otp6490_msg03() ->
EvPar1 = ?MSG_LIB:cre_EventParameter("sune", ["mangs"]),
EvPar2 = ?MSG_LIB:cre_EventParameter("kalle", ["anka"]),
EvPar3 = ?MSG_LIB:cre_EventParameter("flippa", ["ur"]),
PkgdName = ?MSG_LIB:cre_PkgdName("foo", "a"),
EvName = ?MSG_LIB:cre_EventName(PkgdName),
EvSpec = ?MSG_LIB:cre_EventSpec(EvName, [EvPar1,EvPar2,EvPar3]),
EvSpecs = [EvSpec],
EBD = ?MSG_LIB:cre_EventBufferDescriptor(EvSpecs),
pretty_otp6490_msg(EBD).
pretty_otp6490_msg04() ->
EvPar1 = ?MSG_LIB:cre_EventParameter("sune", ["mangs"]),
EvPar2 = ?MSG_LIB:cre_EventParameter("kalle", ["anka"]),
EvPar3 = ?MSG_LIB:cre_EventParameter("flippa", ["ur"]),
PkgdName1 = ?MSG_LIB:cre_PkgdName("foo", "a"),
EvName1 = ?MSG_LIB:cre_EventName(PkgdName1),
EvSpec1 = ?MSG_LIB:cre_EventSpec(EvName1, [EvPar1,EvPar2,EvPar3]),
EvPar4 = ?MSG_LIB:cre_EventParameter("hej", ["hopp"]),
PkgdName2 = ?MSG_LIB:cre_PkgdName("bar", "b"),
EvName2 = ?MSG_LIB:cre_EventName(PkgdName2),
EvSpec2 = ?MSG_LIB:cre_EventSpec(EvName2, [EvPar4]),
EvSpecs = [EvSpec1,EvSpec2],
EBD = ?MSG_LIB:cre_EventBufferDescriptor(EvSpecs),
pretty_otp6490_msg(EBD).
pretty_otp6490_msg05() ->
EvPar = ?MSG_LIB:cre_EventParameter("sune", ["mangs"]),
PkgdName = ?MSG_LIB:cre_PkgdName("foo", root),
EvName = ?MSG_LIB:cre_EventName(PkgdName),
EvSpec = ?MSG_LIB:cre_EventSpec(EvName, [EvPar]),
EvSpecs = [EvSpec],
EBD = ?MSG_LIB:cre_EventBufferDescriptor(EvSpecs),
pretty_otp6490_msg(EBD).
pretty_otp6490_msg06() ->
EvPar = ?MSG_LIB:cre_EventParameter("sune", ["mangs"]),
PkgdName = ?MSG_LIB:cre_PkgdName(root, root),
EvName = ?MSG_LIB:cre_EventName(PkgdName),
EvSpec = ?MSG_LIB:cre_EventSpec(EvName, [EvPar]),
EvSpecs = [EvSpec],
EBD = ?MSG_LIB:cre_EventBufferDescriptor(EvSpecs),
pretty_otp6490_msg(EBD).
%% --------------------------------------------------------------
%%
pretty_otp7671_msg01(suite) ->
[];
pretty_otp7671_msg01(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp7671_msg01 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp7671( pretty_otp7671_msg01(), [] ),
%% erase(dbg),
%% erase(severity),
ok.
pretty_otp7671_msg02(suite) ->
[];
pretty_otp7671_msg02(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp7671_msg02 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp7671( pretty_otp7671_msg02(), [] ),
%% erase(dbg),
%% erase(severity),
ok.
pretty_otp7671_msg03(suite) ->
[];
pretty_otp7671_msg03(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp7671_msg03 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp7671( pretty_otp7671_msg03(), [] ),
%% erase(dbg),
%% erase(severity),
ok.
pretty_otp7671_msg04(suite) ->
[];
pretty_otp7671_msg04(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp7671_msg04 -> entry", []),
%% ?ACQUIRE_NODES(1, Config),
ok = pretty_otp7671( pretty_otp7671_msg04(), [] , error, ignore),
%% erase(dbg),
%% erase(severity),
ok.
pretty_otp7671_msg05(suite) ->
[];
pretty_otp7671_msg05(Config) when is_list(Config) ->
%% put(severity, trc),
%% put(dbg, true),
d("pretty_otp7671_msg05 -> entry", []),
Check = fun(M1, M2) -> cmp_otp7671_msg05(M1, M2) end,
ok = pretty_otp7671( pretty_otp7671_msg05(), [] , ok, ok, Check),
%% erase(dbg),
%% erase(severity),
ok.
pretty_otp7671(Msg, Conf) ->
pretty_otp7671(Msg, Conf, ok).
pretty_otp7671(Msg, Conf, ExpectedEncode) ->
pretty_otp7671(Msg, Conf, ExpectedEncode, ok).
pretty_otp7671(Msg, Conf, ExpectedEncode, ExpectedDecode) ->
otp7671(Msg, megaco_pretty_text_encoder, Conf,
ExpectedEncode, ExpectedDecode).
pretty_otp7671(Msg, Conf, ExpectedEncode, ExpectedDecode, Check) ->
otp7671(Msg, megaco_pretty_text_encoder, Conf,
ExpectedEncode, ExpectedDecode, Check).
otp7671(Msg, Codec, Conf, ExpectedEncode, ExpectedDecode) ->
Check = fun(M1, M2) ->
exit({unexpected_decode_result, M1, M2})
end,
otp7671(Msg, Codec, Conf, ExpectedEncode, ExpectedDecode, Check).
otp7671(Msg, Codec, Conf, ExpectedEncode, ExpectedDecode, Check) ->
case (catch encode_message(Codec, Conf, Msg)) of
{error, _Reason} when ExpectedEncode =:= error ->
ok;
{error, Reason} when ExpectedEncode =:= ok ->
exit({unexpected_encode_failure, Reason});
{ok, Bin} when ExpectedEncode =:= error ->
exit({unexpected_encode_success, Msg, binary_to_list(Bin)});
{ok, Bin} when ExpectedEncode =:= ok ->
case decode_message(Codec, false, Conf, Bin) of
{ok, Msg} when ExpectedDecode =:= ok ->
io:format("otp7671 -> decoded:identical~n", []),
ok;
{ok, Msg2} when ExpectedDecode =:= ok ->
Check(Msg, Msg2);
{ok, Msg} when ExpectedDecode =:= error ->
exit({unexpected_decode_success, Msg});
{ok, Msg2} when ExpectedDecode =:= error ->
exit({unexpected_decode_success, Msg, Msg2});
{error, _Reason} when ExpectedDecode =:= error ->
ok;
{error, Reason} when ExpectedDecode == ok ->
exit({unexpected_decode_failure, Msg, Reason})
end
end.
pretty_otp7671_msg(DigitMapDesc) ->
AmmReq = cre_ammReq([#megaco_term_id{id = ?A4444}],
[{digitMapDescriptor, DigitMapDesc}]),
CmdReq = cre_commandReq({modReq, AmmReq}),
msg_request(?MGC_MID, 10001, ?megaco_null_context_id, [CmdReq]).
pretty_otp7671_msg01() ->
Name = "dialplan01",
DigitMapDesc = cre_digitMapDesc(Name),
pretty_otp7671_msg(DigitMapDesc).
pretty_otp7671_msg02() ->
Name = "dialplan02",
Body = "(0s| 00s|[1-7]xlxx|8lxxxxxxx|#xxxxxxx|*xx|9l1xxxxxxxxxx|9l011x.s)",
Value = cre_digitMapValue(Body),
DigitMapDesc = cre_digitMapDesc(Name, Value),
pretty_otp7671_msg(DigitMapDesc).
pretty_otp7671_msg03() ->
Body = "(0s| 00s|[1-7]xlxx|8lxxxxxxx|#xxxxxxx|*xx|9l1xxxxxxxxxx|9l011x.s)",
Value = cre_digitMapValue(Body),
DigitMapDesc = cre_digitMapDesc(Value),
pretty_otp7671_msg(DigitMapDesc).
pretty_otp7671_msg04() ->
DigitMapDesc = cre_digitMapDesc(asn1_NOVALUE, asn1_NOVALUE),
pretty_otp7671_msg(DigitMapDesc).
pretty_otp7671_msg05() ->
{'MegacoMessage',asn1_NOVALUE,
{'Message',?VERSION,
{domainName,{'DomainName',"tgc",asn1_NOVALUE}},
{transactions,
[{transactionRequest,
{'TransactionRequest',12582952,
[{'ActionRequest',0,asn1_NOVALUE,asn1_NOVALUE,
[{'CommandRequest',
{modReq,
{'AmmRequest',
[{megaco_term_id,false,["root"]}],
[{digitMapDescriptor,
{'DigitMapDescriptor',"dialplan1",
{'DigitMapValue',asn1_NOVALUE,asn1_NOVALUE,asn1_NOVALUE,[]}}}]}},
asn1_NOVALUE,asn1_NOVALUE}]}]}}]}}}.
cmp_otp7671_msg05(#'MegacoMessage'{authHeader = asn1_NOVALUE,
mess = M1},
#'MegacoMessage'{authHeader = asn1_NOVALUE,
mess = M2}) ->
#'Message'{messageBody = Body1} = M1,
#'Message'{messageBody = Body2} = M2,
{transactions, Trans1} = Body1,
{transactions, Trans2} = Body2,
[{transactionRequest, TR1}] = Trans1,
[{transactionRequest, TR2}] = Trans2,
#'TransactionRequest'{actions = Acts1} = TR1,
#'TransactionRequest'{actions = Acts2} = TR2,
[#'ActionRequest'{commandRequests = CR1}] = Acts1,
[#'ActionRequest'{commandRequests = CR2}] = Acts2,
[#'CommandRequest'{command = Cmd1}] = CR1,
[#'CommandRequest'{command = Cmd2}] = CR2,
{modReq, #'AmmRequest'{descriptors = Descs1}} = Cmd1,
{modReq, #'AmmRequest'{descriptors = Descs2}} = Cmd2,
[{digitMapDescriptor,
#'DigitMapDescriptor'{digitMapName = Name,
digitMapValue = Value1}}] = Descs1,
[{digitMapDescriptor,
#'DigitMapDescriptor'{digitMapName = Name,
digitMapValue = Value2}}] = Descs2,
#'DigitMapValue'{startTimer = asn1_NOVALUE,
shortTimer = asn1_NOVALUE,
longTimer = asn1_NOVALUE,
digitMapBody = []} = Value1,
asn1_NOVALUE = Value2,
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
expect_codec(Expect, Codec, Msg, Conf) ->
t("expect_codec -> entry with"
"~n Expect: ~p"
"~n Msg: ~p", [Expect, Msg]),
case (catch encode_message(Codec, Conf, Msg)) of
{error, _Reason} when Expect =:= error ->
d("expect_codec -> encode failed as expected"
"~n _Reason: ~w", [_Reason]),
ok;
{error, Reason} ->
e("expect_codec -> encode failed unexpectedly: "
"~n Reason: ~w", [Reason]),
exit({unexpected_encode_result, Reason});
{ok, Bin} when Expect =:= error ->
e("expect_codec -> encode succeded unexpectedly: "
"~n ~w", [binary_to_list(Bin)]),
exit({unexpected_encode_result, binary_to_list(Bin)});
{ok, Bin} ->
d("expect_codec -> successfull encode as expected:"
"~n~s", [binary_to_list(Bin)]),
case (catch decode_message(Codec, false, Conf, Bin)) of
{ok, Msg} ->
d("expect_codec -> successfull decode~n", []),
ok;
{ok, Msg2} ->
e("expect_codec -> successfull decode"
" - but not equal", []),
chk_MegacoMessage(Msg, Msg2);
%% exit({unexpected_decode_result, Msg, Msg2});
Else ->
e("expect_codec -> decode failed:~n~p", [Else]),
exit({unexpected_decode_result, Else})
end;
Else ->
e("expect_codec -> encode failed:~n~p", [Else]),
exit({unexpected_encode_result, Else})
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
msgs() ->
Msgs = msgs1() ++ msgs2() ++ msgs3(),
[M || {_, M, _, _} <- Msgs].
msgs1() ->
Plain =
fun(Codec, DD, Ver, EC, M) ->
megaco_codec_test_lib:plain_encode_decode(Codec, DD, Ver,
EC, M)
end,
[
{msg01a, msg1a(), Plain, [{dbg,false}]},
{msg01b, msg1b(), Plain, [{dbg,false}]},
{msg02, msg2(), Plain, [{dbg,false}]},
{msg03, msg3(), Plain, [{dbg,false}]},
{msg04, msg4(), Plain, [{dbg,false}]},
{msg05, msg5(), Plain, [{dbg,false}]},
{msg06a, msg6a(), Plain, [{dbg,false}]},
{msg06b, msg6b(), Plain, [{dbg,false}]},
{msg07, msg7(), Plain, [{dbg,false}]},
{msg08a, msg8a(), Plain, [{dbg,false}]},
{msg08b, msg8b(), Plain, [{dbg,false}]},
{msg09, msg9(), Plain, [{dbg,false}]},
{msg10, msg10(), Plain, [{dbg,false}]},
{msg11, msg11(), Plain, [{dbg,false}]},
{msg12, msg12(), Plain, [{dbg,false}]},
{msg13, msg13(), Plain, [{dbg,false}]},
{msg14, msg14(), Plain, [{dbg,false}]},
{msg15, msg15(), Plain, [{dbg,false}]},
{msg16, msg16(), Plain, [{dbg,false}]},
{msg17, msg17(), Plain, [{dbg,false}]},
{msg18, msg18(), Plain, [{dbg,false}]},
{msg19, msg19(), Plain, [{dbg,false}]},
{msg20, msg20(), Plain, [{dbg,false}]},
{msg21, msg21(), Plain, [{dbg,false}]},
{msg22a, msg22a(), Plain, [{dbg,false}]},
{msg22b, msg22b(), Plain, [{dbg,false}]},
{msg22c, msg22c(), Plain, [{dbg,false}]},
{msg22d, msg22d(), Plain, [{dbg,false}]},
{msg22e, msg22e(), Plain, [{dbg,false}]},
{msg22f, msg22f(), Plain, [{dbg,false}]},
{msg23a, msg23a(), Plain, [{dbg,false}]},
{msg23b, msg23b(), Plain, [{dbg,false}]},
{msg23c, msg23c(), Plain, [{dbg,false}]},
{msg23d, msg23d(), Plain, [{dbg,false}]},
{msg24, msg24(), Plain, [{dbg,false}]},
{msg25, msg25(), Plain, [{dbg,false}]},
{msg30a, msg30a(), Plain, [{dbg,false}]},
{msg30b, msg30b(), Plain, [{dbg,false}]},
{msg30c, msg30c(), Plain, [{dbg,false}]},
{msg30d, msg30d(), Plain, [{dbg,false}]}
].
msgs2() ->
TransFirst =
fun(Codec, DD, Ver, EC, M) ->
megaco_codec_test_lib:trans_first_encode_decode(Codec, DD,
Ver, EC, M)
end,
ActionsFirst =
fun(Codec, DD, Ver, EC, M) ->
megaco_codec_test_lib:actions_first_encode_decode(Codec, DD,
Ver, EC, M)
end,
ActionFirst =
fun(Codec, DD, Ver, EC, M) ->
megaco_codec_test_lib:action_first_encode_decode(Codec, DD,
Ver, EC, M)
end,
[
{msg01a_tf, msg1a(), TransFirst, [{dbg,false}]},
{msg02_tf, msg2(), TransFirst, [{dbg,false}]},
{msg10_tf, msg10(), TransFirst, [{dbg,false}]},
{msg11_tf, msg11(), TransFirst, [{dbg,false}]},
{msg23d_tf, msg23d(), TransFirst, [{dbg,false}]},
{msg30b_tf, msg30b(), TransFirst, [{dbg,false}]},
{msg30c_tf, msg30c(), TransFirst, [{dbg,false}]},
{msg01a_asf, msg1a(), ActionsFirst, [{dbg,false}]},
{msg02_asf, msg2(), ActionsFirst, [{dbg,false}]},
{msg10_asf, msg10(), ActionsFirst, [{dbg,false}]},
{msg23d_asf, msg23d(), ActionsFirst, [{dbg,false}]},
{msg01a_af, msg1a(), ActionFirst, [{dbg,false}]},
{msg02_af, msg2(), ActionFirst, [{dbg,false}]},
{msg10_af, msg10(), ActionFirst, [{dbg,false}]},
{msg23d_af, msg23d(), ActionFirst, [{dbg,false}]}
].
msgs3() ->
Plain =
fun(Codec, DD, Ver, EC, M) ->
megaco_codec_test_lib:plain_encode_decode(Codec, DD, Ver,
EC, M)
end,
[{msgs3_name(Name), rfc3525_decode(M), Plain, [{dbg, false}]} ||
{Name, M} <- rfc3525_msgs()].
msgs3_name(N) ->
list_to_atom("rfc3525_" ++ atom_to_list(N)).
rfc3525_decode(M) when is_list(M) ->
rfc3525_decode(list_to_binary(M));
rfc3525_decode(M) when is_binary(M) ->
case (catch decode_message(megaco_pretty_text_encoder, false, [], M)) of
{ok, Msg} ->
Msg;
Error ->
{error, {rfc3525_decode_error, Error}}
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
msg_actions([], Actions) ->
lists:reverse(Actions);
msg_actions([{CtxId, CmdReqs}|ActionInfo], Actions) ->
Action = #'ActionRequest'{contextId = CtxId,
commandRequests = CmdReqs},
msg_actions(ActionInfo, [Action|Actions]).
megaco_trans_req([], Transactions) ->
{transactions, lists:reverse(Transactions)};
megaco_trans_req([{TransId, ActionInfo}|TransInfo], Transactions) ->
Actions = msg_actions(ActionInfo, []),
TransReq = {transactionRequest,
#'TransactionRequest'{transactionId = TransId,
actions = Actions}},
megaco_trans_req(TransInfo, [TransReq|Transactions]).
megaco_message(Version, Mid, Body) ->
#'MegacoMessage'{mess = #'Message'{version = Version,
mId = Mid,
messageBody = Body}}.
megaco_message(Auth, Version, Mid, Body) ->
#'MegacoMessage'{authHeader = Auth,
mess = #'Message'{version = Version,
mId = Mid,
messageBody = Body}}.
msg_request(Mid, TransInfo) ->
TransReq = megaco_trans_req(TransInfo, []),
megaco_message(1, Mid, TransReq).
msg_request(Mid, TransId, ContextId, CmdReq) when is_list(CmdReq) ->
Actions = [#'ActionRequest'{contextId = ContextId,
commandRequests = CmdReq}],
Req = {transactions,
[{transactionRequest,
#'TransactionRequest'{transactionId = TransId,
actions = Actions}}]},
megaco_message(?VERSION, Mid, Req).
msg_request(Auth, Mid, TransId, ContextId, CmdReq) when is_list(CmdReq) ->
Actions = [#'ActionRequest'{contextId = ContextId,
commandRequests = CmdReq}],
Req = {transactions,
[{transactionRequest,
#'TransactionRequest'{transactionId = TransId,
actions = Actions}}]},
megaco_message(Auth, ?VERSION, Mid, Req).
msg_reply(Mid, TransId, ContextId, CmdReply) when is_list(CmdReply) ->
ReplyData = [{ContextId, CmdReply}],
msg_replies(Mid, TransId, ReplyData).
msg_replies(Mid, TransId, ReplyData) when is_list(ReplyData) ->
Actions = [cre_actionReply(ContextId, CmdReply) ||
{ContextId, CmdReply} <- ReplyData],
Req = {transactions,
[{transactionReply, cre_transactionReply(TransId, Actions)}]},
cre_megacoMessage(?VERSION, Mid, Req).
msg_ack(Mid, [Range|_] = Ranges) when is_tuple(Range) ->
msg_ack(Mid, [Ranges]);
msg_ack(Mid, Ranges) ->
%% TRAs = make_tras(Ranges, []),
TRAs = make_tras(Ranges),
Req = {transactions, TRAs},
cre_megacoMessage(?VERSION, Mid, Req).
make_tras(TRARanges) ->
F = fun(R) -> {transactionResponseAck, make_tra(R)} end,
lists:map(F, TRARanges).
make_tra(Ranges) ->
F = fun({F,L}) -> cre_transactionAck(F,L) end,
lists:map(F, Ranges).
%% -------------------------------------------------------------------------
msg1(Mid, Tid) ->
Gain = cre_propertyParm("tdmc/gain", "2"),
Ec = cre_propertyParm("tdmc/ec", "g165"),
LCD = cre_localControlDesc(sendRecv,[Gain, Ec]),
V = cre_propertyParm("v", "0"),
%% C = cre_propertyParm("c", "IN IP4 $ "),
C = cre_propertyParm("c", [$I,$N,$ ,$I,$P,$4,$ ,$$,$ ]),
M = cre_propertyParm("m", "audio $ RTP/AVP 0"),
A = cre_propertyParm("a", "fmtp:PCMU VAD=X-NNVAD"),
LD = cre_localRemoteDesc([[V, C, M, A]]),
Parms = cre_streamParms(LCD,LD),
StreamDesc = cre_streamDesc(1,Parms),
MediaDesc = cre_mediaDesc(StreamDesc),
ReqEvent = cre_requestedEvent("al/of"),
EventsDesc = cre_eventsDesc(2222,[ReqEvent]),
AmmReq = cre_ammReq([#megaco_term_id{id = Tid}],
[{mediaDescriptor, MediaDesc},
{eventsDescriptor, EventsDesc}]),
CmdReq = cre_commandReq({modReq, AmmReq}),
msg_request(Mid, 9999, ?megaco_null_context_id, [CmdReq]).
msg1a() ->
msg1a(?MGC_MID).
msg1a(Mid) ->
msg1(Mid, ?A4444).
msg1b() ->
msg1b(?MGC_MID).
msg1b(Mid) ->
msg1(Mid, ?A4445).
%% --------------------------
msg2() ->
msg2(?MGC_MID).
msg2(Mid) ->
msg2(Mid, ?A4444).
msg2(Mid, Tid) ->
Gain = cre_propertyParm("tdmc/gain", "2"),
Ec = cre_propertyParm("tdmc/ec", "g165"),
LCD = cre_localControlDesc(sendRecv,[Gain, Ec]),
V = cre_propertyParm("v", "0"),
%% C = cre_propertyParm("c", "IN IP4 $ "),
C = cre_propertyParm("c", [$I,$N,$ ,$I,$P,$4,$ ,$$,$ ]),
M = cre_propertyParm("m", "audio $ RTP/AVP 0"),
A = cre_propertyParm("a", "fmtp:PCMU VAD=X-NNVAD"),
LD = cre_localRemoteDesc([[V, C, M, A]]),
Parms = cre_streamParms(LCD,LD),
StreamDesc = cre_streamDesc(1,Parms),
MediaDesc = cre_mediaDesc(StreamDesc),
EventParm = cre_eventParm("strict",["exact"]),
ReqEvent = cre_requestedEvent("al/of", [EventParm]),
EventsDesc = cre_eventsDesc(2222,[ReqEvent]),
AmmReq = cre_ammReq([#megaco_term_id{id = Tid}],
[{mediaDescriptor, MediaDesc},
{eventsDescriptor, EventsDesc}]),
CmdReq = cre_commandReq({modReq, AmmReq}),
msg_request(Mid, 9999, ?megaco_null_context_id, [CmdReq]).
%% --------------------------
msg3() ->
msg3(?MG1_MID).
msg3(Mid) ->
TimeStamp = cre_timeNotation("19990729", "22000000"),
Event = cre_observedEvent("al/of",TimeStamp),
Desc = cre_observedEventsDesc(2222,[Event]),
NotifyReq = cre_notifyReq([#megaco_term_id{id = ?A4444}],Desc),
CmdReq = cre_commandReq({notifyReq, NotifyReq}),
msg_request(Mid, 10000, ?megaco_null_context_id, [CmdReq]).
%% --------------------------
msg4() ->
msg4(?MG1_MID_NO_PORT, "901 mg col boot").
msg4(Mid, Reason) when is_list(Reason) ->
Address = {portNumber, ?DEFAULT_PORT},
Profile = cre_serviceChangeProf("resgw",1),
Parm = cre_serviceChangeParm(restart,Address,[Reason],Profile),
Req = cre_serviceChangeReq([?megaco_root_termination_id],Parm),
CmdReq = cre_commandReq({serviceChangeReq, Req}),
msg_request(Mid, 9998, ?megaco_null_context_id, [CmdReq]).
%% --------------------------
msg5() ->
msg5(?MGC_MID).
msg5(Mid) ->
Address = {portNumber, ?DEFAULT_PORT},
Profile = cre_serviceChangeProf("resgw",1),
Parm = cre_serviceChangeResParm(Address,Profile),
Reply = cre_serviceChangeReply([?megaco_root_termination_id],
{serviceChangeResParms,Parm}),
msg_reply(Mid, 9998, ?megaco_null_context_id,
[{serviceChangeReply, Reply}]).
%% --------------------------
msg6(Mid, Tid) ->
Reply = cre_ammsReply([#megaco_term_id{id = Tid}]),
msg_reply(Mid, 9999, ?megaco_null_context_id, [{modReply, Reply}]).
msg6a() ->
msg6a(?MG1_MID).
msg6a(Mid) ->
msg6(Mid, ?A4444).
msg6b() ->
msg6b(?MG2_MID).
msg6b(Mid) ->
msg6(Mid, ?A5555).
%% --------------------------
msg7() ->
msg7(?MGC_MID).
msg7(Mid) ->
Reply = cre_notifyReply([#megaco_term_id{id = ?A4444}]),
msg_reply(Mid, 10000, ?megaco_null_context_id, [{notifyReply, Reply}]).
%% --------------------------
msg8(Mid, DigitMapValue) ->
Strict = cre_eventParm("strict",["state"]),
On = cre_requestedEvent("al/on", [Strict]),
Name = "dialplan00",
Action = cre_requestedActions(Name),
Ce = cre_requestedEvent("dd/ce", Action),
EventsDesc = cre_eventsDesc(2223,[On, Ce]),
Signal = cre_signal("cg/rt"),
DigMapDesc = cre_digitMapDesc(Name, DigitMapValue),
AmmReq = cre_ammReq([#megaco_term_id{id = ?A4444}],
[{eventsDescriptor, EventsDesc},
{signalsDescriptor, [{signal, Signal}]},
{digitMapDescriptor, DigMapDesc}]),
CmdReq = cre_commandReq({modReq, AmmReq}),
msg_request(Mid, 10001, ?megaco_null_context_id, [CmdReq]).
msg8a() ->
msg8a(?MGC_MID).
msg8a(Mid) ->
Body = "(0s| 00s|[1-7]xlxx|8lxxxxxxx|#xxxxxxx|*xx|9l1xxxxxxxxxx|9l011x.s)",
Value = cre_digitMapValue(Body),
msg8(Mid, Value).
msg8b() ->
msg8b(?MGC_MID).
msg8b(Mid) ->
Body = "(0s| 00s|[1-7]xlxx|8lxxxxxxx|#xxxxxxx|*xx|9l1xxxxxxxxxx|9l011x.s)",
Value = cre_digitMapValue(Body, 1, 23, 99),
msg8(Mid, Value).
%% --------------------------
msg9() ->
msg9(?MG1_MID).
msg9(Mid) ->
TimeStamp = cre_timeNotation("19990729","22010001"),
Parm = cre_eventParm("ds",["916135551212"]),
Event = cre_observedEvent("dd/ce",TimeStamp,[Parm]),
Desc = cre_observedEventsDesc(2223,[Event]),
NotifyReq = cre_notifyReq([#megaco_term_id{id = ?A4444}], Desc),
CmdReq = cre_commandReq({notifyReq, NotifyReq}),
msg_request(Mid, 10002, ?megaco_null_context_id, [CmdReq]).
%% --------------------------
msg10() ->
msg10(?MGC_MID).
msg10(Mid) ->
AmmReq = cre_ammReq([#megaco_term_id{id = ?A4444}],[]),
CmdReq = cre_commandReq({addReq, AmmReq}),
Jit = cre_propertyParm("nt/jit", "40"),
LCD = cre_localControlDesc(recvOnly,[Jit]),
V = cre_propertyParm("v", "0"),
C = cre_propertyParm("c", "IN IP4 $ "),
M = cre_propertyParm("m", "audio $ RTP/AVP 4"),
A = cre_propertyParm("a", "ptime:30"),
V2 = cre_propertyParm("v", "0"),
C2 = cre_propertyParm("c", "IN IP4 $ "),
M2 = cre_propertyParm("m", "audio $ RTP/AVP 0"),
LD = cre_localRemoteDesc([[V, C, M, A], [V2, C2, M2]]),
Parms = cre_streamParms(LCD, LD),
StreamDesc = cre_streamDesc(1,Parms),
MediaDesc = cre_mediaDesc(StreamDesc),
ChooseTid = #megaco_term_id{contains_wildcards = true,
id = [[?megaco_choose]]},
AmmReq2 = cre_ammReq([ChooseTid],[{mediaDescriptor, MediaDesc}]),
CmdReq2 = cre_commandReq({addReq, AmmReq2}),
msg_request(Mid, 10003, ?megaco_choose_context_id, [CmdReq, CmdReq2]).
msg11() ->
msg11(?MG1_MID).
msg11(Mid) ->
V = cre_propertyParm("v", "0"),
C = cre_propertyParm("c", "IN IP4 124.124.124.222"),
M = cre_propertyParm("m", "audio 2222 RTP/AVP 4"),
A = cre_propertyParm("a", "ptime:30"),
A2 = cre_propertyParm("a", "recvonly"),
LD = cre_localRemoteDesc([[V, C, M, A, A2]]),
Parms = cre_streamParmsL(LD),
StreamDesc = cre_streamDesc(1, Parms),
MediaDesc = cre_mediaDesc(StreamDesc),
Reply = cre_ammsReply([#megaco_term_id{id = ?A4444}]),
Reply2 = cre_ammsReply([#megaco_term_id{id = ?A4445}],
[{mediaDescriptor, MediaDesc}]),
msg_reply(Mid, 10003, 2000, [{addReply, Reply}, {addReply, Reply2}]).
%% --------------------------
msg12() ->
msg12(?MGC_MID).
msg12(Mid) ->
LCD = cre_localControlDesc(sendRecv),
Parms = cre_streamParms(LCD),
StreamDesc = cre_streamDesc(1,Parms),
MediaDesc = cre_mediaDesc(StreamDesc),
Signal = cre_signal("al/ri"),
Descs = [{mediaDescriptor, MediaDesc},
{signalsDescriptor, [{signal, Signal}]}],
AmmReq = cre_ammReq([#megaco_term_id{id = ?A5555}], Descs),
CmdReq = cre_commandReq({addReq, AmmReq}),
Jit = cre_propertyParm("nt/jit", "40"),
LCD2 = cre_localControlDesc(sendRecv, [Jit]),
V = cre_propertyParm("v", "0"),
C = cre_propertyParm("c", "IN IP4 $ "),
M = cre_propertyParm("m", "audio $ RTP/AVP 4"),
A = cre_propertyParm("a", "ptime:30"),
LD2 = cre_localRemoteDesc([[V, C, M, A]]),
V2 = cre_propertyParm("v", "0"),
C2 = cre_propertyParm("c", "IN IP4 124.124.124.222"),
M2 = cre_propertyParm("m", "audio 2222 RTP/AVP 4"),
RD2 = cre_localRemoteDesc([[V2, C2, M2]]),
Parms2 = cre_streamParms(LCD2,LD2,RD2),
StreamDesc2 = cre_streamDesc(1,Parms2),
MediaDesc2 = cre_mediaDesc(StreamDesc2),
ChooseTid = #megaco_term_id{contains_wildcards = true,
id = [[?megaco_choose]]},
AmmReq2 = cre_ammReq([ChooseTid],[{mediaDescriptor, MediaDesc2}]),
CmdReq2 = cre_commandReq({addReq, AmmReq2}),
msg_request(Mid, 50003, ?megaco_choose_context_id, [CmdReq, CmdReq2]).
%% --------------------------
msg13() ->
msg13(?MG2_MID).
msg13(Mid) ->
V = cre_propertyParm("v", "0"),
C = cre_propertyParm("c", "IN IP4 125.125.125.111"),
M = cre_propertyParm("m", "audio 1111 RTP/AVP 4"),
LD = cre_localRemoteDesc([[V, C, M]]),
Parms = cre_streamParmsL(LD),
StreamDesc = cre_streamDesc(1,Parms),
MediaDesc = cre_mediaDesc(StreamDesc),
Reply = cre_ammsReply([#megaco_term_id{id = ?A5556}],
[{mediaDescriptor, MediaDesc}]),
msg_reply(Mid, 50003, 5000, [{addReply, Reply}]).
%% --------------------------
msg14() ->
msg14(?MGC_MID).
msg14(Mid) ->
Signal = cre_signal("cg/rt"),
AmmReq1 = cre_ammReq([#megaco_term_id{id = ?A4444}],
[{signalsDescriptor, [{signal, Signal}]}]),
CmdReq1 = cre_commandReq({modReq, AmmReq1}),
Gain = cre_propertyParm("tdmc/gain", "2"),
Ec = cre_propertyParm("tdmc/ec", "g165"),
LCD = cre_localControlDesc(sendRecv, [Gain, Ec]),
Parms2 = cre_streamParms(LCD),
StreamDesc2 = cre_streamDesc(1,Parms2),
MediaDesc2 = cre_mediaDesc(StreamDesc2),
AmmReq2 = cre_ammReq([#megaco_term_id{id = ?A4445}],
[{mediaDescriptor, MediaDesc2}]),
CmdReq2 = cre_commandReq({modReq, AmmReq2}),
V = cre_propertyParm("v", "0"),
C = cre_propertyParm("c", "IN IP4 125.125.125.111"),
M = cre_propertyParm("m", "audio 1111 RTP/AVP 4"),
RD = cre_localRemoteDesc([[V, C, M]]),
Parms3 = cre_streamParmsR(RD),
StreamDesc3 = cre_streamDesc(1,Parms3),
MediaDesc3 = cre_mediaDesc(StreamDesc3),
AmmReq3 = cre_ammReq([#megaco_term_id{id = ?A4445}],
[{mediaDescriptor, MediaDesc3}]),
CmdReq3 = cre_commandReq({modReq, AmmReq3}),
msg_request(Mid, 10005, 2000, [CmdReq1, CmdReq2, CmdReq3]).
%% --------------------------
msg15() ->
msg15(?MG1_MID).
msg15(Mid) ->
Reply = cre_ammsReply([#megaco_term_id{id = ?A4444}]),
Reply2 = cre_ammsReply([#megaco_term_id{id = ?A4445}]),
msg_reply(Mid, 10005, 2000, [{modReply, Reply}, {modReply, Reply2}]).
msg15b() ->
msg15b(?MG1_MID).
msg15b(Mid) ->
%% We reuse the amms reply stuff
Reply1 = cre_ammsReply([#megaco_term_id{id = ?A4444}]),
Reply2 = cre_ammsReply([#megaco_term_id{id = ?A4445}]),
ActionReplyData =
[{modReply, Reply1}, {modReply, Reply2}],
ReplyData =
[{2001, ActionReplyData},
{2002, ActionReplyData},
{2003, ActionReplyData},
{2004, ActionReplyData},
{2005, ActionReplyData},
{2006, ActionReplyData},
{2007, ActionReplyData},
{2008, ActionReplyData},
{2009, ActionReplyData},
{2010, ActionReplyData},
{2011, ActionReplyData},
{2012, ActionReplyData},
{2013, ActionReplyData},
{2014, ActionReplyData},
{2015, ActionReplyData},
{2016, ActionReplyData},
{2017, ActionReplyData},
{2018, ActionReplyData},
{2019, ActionReplyData},
{2020, ActionReplyData},
{2021, ActionReplyData},
{2022, ActionReplyData},
{2023, ActionReplyData},
{2024, ActionReplyData},
{2025, ActionReplyData},
{2026, ActionReplyData},
{2027, ActionReplyData},
{2028, ActionReplyData},
{2029, ActionReplyData},
{2030, ActionReplyData},
{2031, ActionReplyData}],
msg_replies(Mid, 10005, ReplyData).
%% --------------------------
msg16() ->
msg16(?MG2_MID).
msg16(Mid) ->
TimeStamp = cre_timeNotation("19990729","22020002"),
Event = cre_observedEvent("al/of",TimeStamp),
Desc = cre_observedEventsDesc(1234,[Event]),
NotifyReq = cre_notifyReq([#megaco_term_id{id = ?A5555}],Desc),
CmdReq = cre_commandReq({notifyReq, NotifyReq}),
msg_request(Mid, 50005, 5000, [CmdReq]).
%% --------------------------
msg17() ->
msg17(?MGC_MID).
msg17(Mid) ->
Reply = cre_notifyReply([#megaco_term_id{id = ?A5555}]),
msg_reply(Mid, 50005, ?megaco_null_context_id, [{notifyReply, Reply}]).
%% --------------------------
msg18() ->
msg18(?MGC_MID).
msg18(Mid) ->
On = cre_requestedEvent("al/on"),
EventsDesc = cre_eventsDesc(1235,[On]),
AmmReq = cre_ammReq([#megaco_term_id{id = ?A5555}],
[{eventsDescriptor, EventsDesc},
{signalsDescriptor, []}]),
CmdReq = cre_commandReq({modReq, AmmReq}),
msg_request(Mid, 50006, 5000, [CmdReq]).
%% --------------------------
msg19() ->
msg19(?MG2_MID).
msg19(Mid) ->
Reply = cre_ammsReply([#megaco_term_id{id = ?A4445}]),
msg_reply(Mid, 50006, 5000, [{modReply, Reply}]).
%% --------------------------
msg20() ->
msg20(?MGC_MID).
msg20(Mid) ->
LCD = cre_localControlDesc(sendRecv),
Parms = cre_streamParms(LCD),
StreamDesc = cre_streamDesc(1,Parms),
MediaDesc = cre_mediaDesc(StreamDesc),
AmmReq = cre_ammReq([#megaco_term_id{id = ?A4445}],
[{mediaDescriptor, MediaDesc}]),
CmdReq = cre_commandReq({modReq, AmmReq}),
AmmReq2 = cre_ammReq([#megaco_term_id{id = ?A4444}],
[{signalsDescriptor, []}]),
CmdReq2 = cre_commandReq({modReq, AmmReq2}),
msg_request(Mid, 10006, 2000, [CmdReq, CmdReq2]).
%% --------------------------
msg21() ->
msg21(?MGC_MID).
msg21(Mid) ->
Tokens = [mediaToken, eventsToken, signalsToken,
digitMapToken, statsToken, packagesToken],
AuditDesc = cre_auditDesc(Tokens),
Req = cre_auditReq(#megaco_term_id{id = ?A5556},AuditDesc),
CmdReq = cre_commandReq({auditValueRequest, Req}),
msg_request(Mid, 50007, ?megaco_null_context_id, [CmdReq]).
%% --------------------------
msg22a() ->
msg22(1).
msg22b() ->
msg22(10).
msg22c() ->
msg22(25).
msg22d() ->
msg22(50).
msg22e() ->
msg22(75).
msg22f() ->
msg22(100).
msg22(N) ->
msg22(?MG2_MID, N).
msg22(Mid, N) ->
Jit = cre_propertyParm("nt/jit", "40"),
LCD = cre_localControlDesc(sendRecv,[Jit]),
LDV = cre_propertyParm("v", "0"),
LDC = cre_propertyParm("c", "IN IP4 125.125.125.111"),
LDM = cre_propertyParm("m", "audio 1111 RTP/AVP 4"),
LDA = cre_propertyParm("a", "ptime:30"),
LD = cre_localRemoteDesc([[LDV, LDC, LDM, LDA]]),
RDV = cre_propertyParm("v", "0"),
RDC = cre_propertyParm("c", "IN IP4 124.124.124.222"),
RDM = cre_propertyParm("m", "audio 2222 RTP/AVP 4"),
RDA = cre_propertyParm("a", "ptime:30"),
RD = cre_localRemoteDesc([[RDV, RDC, RDM, RDA]]),
StreamParms = cre_streamParms(LCD,LD,RD),
StreamDesc = cre_streamDesc(1,StreamParms),
Media = cre_mediaDesc(StreamDesc),
PackagesItem = cre_packagesItem("nt",1),
PackagesItem2 = cre_packagesItem("rtp",1),
Stat = cre_statisticsParm("rtp/ps","1200"),
Stat2 = cre_statisticsParm("nt/os","62300"),
Stat3 = cre_statisticsParm("rtp/pr","700"),
Stat4 = cre_statisticsParm("nt/or","45100"),
Stat5 = cre_statisticsParm("rtp/pl","0.2"),
Stat6 = cre_statisticsParm("rtp/jit","20"),
Stat7 = cre_statisticsParm("rtp/delay","40"),
Statistics = [Stat, Stat2, Stat3, Stat4, Stat5, Stat6, Stat7],
Audits = [{mediaDescriptor, Media},
{packagesDescriptor, [PackagesItem, PackagesItem2]},
{statisticsDescriptor, Statistics}],
Reply = {auditResult,
cre_auditRes(#megaco_term_id{id = ?A5556},Audits)},
msg_reply(Mid, 50007, ?megaco_null_context_id,
lists:duplicate(N,{auditValueReply, Reply})).
%% msg_reply(Mid, 50007, ?megaco_null_context_id,
%% lists.duplicate([{auditValueReply, Reply}]).
%% --------------------------
msg23a() ->
msg23a(?MG2_MID).
msg23a(Mid) ->
TimeStamp = cre_timeNotation("19990729","24020002"),
Event = cre_observedEvent("al/on",TimeStamp),
Desc = cre_observedEventsDesc(1235,[Event]),
NotifyReq = cre_notifyReq([#megaco_term_id{id = ?A5555}],Desc),
CmdReq = cre_commandReq({notifyReq, NotifyReq}),
msg_request(Mid, 50008, 5000, [CmdReq]).
msg23b() ->
msg23b(?MG2_MID).
msg23b(Mid) ->
TimeStamp = cre_timeNotation("19990729","24020002"),
Event = cre_observedEvent("al/on",TimeStamp),
Desc = cre_observedEventsDesc(1235,[Event]),
NotifyReq1 = cre_notifyReq([#megaco_term_id{id = ?A5555}],Desc),
CmdReq1 = cre_commandReq({notifyReq, NotifyReq1}),
NotifyReq2 = cre_notifyReq([#megaco_term_id{id = ?A5556}],Desc),
CmdReq2 = cre_commandReq({notifyReq, NotifyReq2}),
ActionInfo = [{5000, [CmdReq1]}, {5001, [CmdReq2]}],
TransInfo = [{50008, ActionInfo}],
msg_request(Mid, TransInfo).
msg23c() ->
msg23c(?MG2_MID).
msg23c(Mid) ->
TimeStamp = cre_timeNotation("19990729","24020002"),
Event = cre_observedEvent("al/on",TimeStamp),
Desc = cre_observedEventsDesc(1235,[Event]),
NotifyReq1 = cre_notifyReq([#megaco_term_id{id = ?A5555}],Desc),
CmdReq1 = cre_commandReq({notifyReq, NotifyReq1}),
NotifyReq2 = cre_notifyReq([#megaco_term_id{id = ?A5556}],Desc),
CmdReq2 = cre_commandReq({notifyReq, NotifyReq2}),
ActionInfo1 = [{5000, [CmdReq1]}],
ActionInfo2 = [{5001, [CmdReq2]}],
TransInfo = [{50008, ActionInfo1}, {50009, ActionInfo2}],
msg_request(Mid, TransInfo).
msg23d() ->
msg23d(?MG2_MID).
msg23d(Mid) ->
TimeStamp = cre_timeNotation("19990729","24020002"),
Event = cre_observedEvent("al/on",TimeStamp),
Desc = cre_observedEventsDesc(1235,[Event]),
NotifyReq1 = cre_notifyReq([#megaco_term_id{id = ?A5555}],Desc),
CmdReq1 = cre_commandReq({notifyReq, NotifyReq1}),
NotifyReq2 = cre_notifyReq([#megaco_term_id{id = ?A5556}],Desc),
CmdReq2 = cre_commandReq({notifyReq, NotifyReq2}),
NotifyReq3 = cre_notifyReq([#megaco_term_id{id = ?A4444}],Desc),
CmdReq3 = cre_commandReq({notifyReq, NotifyReq3}),
NotifyReq4 = cre_notifyReq([#megaco_term_id{id = ?A4445}],Desc),
CmdReq4 = cre_commandReq({notifyReq, NotifyReq4}),
ActionInfo1 = [{5000, [CmdReq1]}, {5001, [CmdReq2]}],
ActionInfo2 = [{5003, [CmdReq3]}, {5004, [CmdReq4]}],
TransInfo = [{50008, ActionInfo1}, {50009, ActionInfo2}],
msg_request(Mid, TransInfo).
%% --------------------------
msg24() ->
msg24(?MGC_MID).
msg24(Mid) ->
AuditDesc = cre_auditDesc([statsToken]),
SubReq = cre_subtractReq([#megaco_term_id{id = ?A5555}], AuditDesc),
SubReq2 = cre_subtractReq([#megaco_term_id{id = ?A5556}], AuditDesc),
CmdReq = cre_commandReq({subtractReq, SubReq}),
CmdReq2 = cre_commandReq({subtractReq, SubReq2}),
msg_request(Mid, 50009, 5000, [CmdReq, CmdReq2]).
%% --------------------------
msg25() ->
msg25(?MG2_MID).
msg25(Mid) ->
Stat11 = cre_statisticsParm("nt/os","45123"),
Stat12 = cre_statisticsParm("nt/dur", "40"),
Stats1 = [Stat11, Stat12],
Reply1 = cre_ammsReply([#megaco_term_id{id = ?A5555}],
[{statisticsDescriptor, Stats1}]),
Stat21 = cre_statisticsParm("rtp/ps","1245"),
Stat22 = cre_statisticsParm("nt/os", "62345"),
Stat23 = cre_statisticsParm("rtp/pr", "780"),
Stat24 = cre_statisticsParm("nt/or", "45123"),
Stat25 = cre_statisticsParm("rtp/pl", "10"),
Stat26 = cre_statisticsParm("rtp/jit", "27"),
Stat27 = cre_statisticsParm("rtp/delay","48"),
Stats2 = [Stat21, Stat22, Stat23, Stat24, Stat25, Stat26, Stat27],
Reply2 = cre_ammsReply([#megaco_term_id{id = ?A5556}],
[{statisticsDescriptor, Stats2}]),
msg_reply(Mid, 50009, 5000,
[{subtractReply, Reply1}, {subtractReply, Reply2}]).
msg30a() ->
msg_ack(?MG2_MID, [{9,9}]).
msg30b() ->
msg_ack(?MG2_MID, [{9,13}]).
msg30c() ->
msg_ack(?MG2_MID,
[{9,13}, {15,15}, {33,40}, {50,60}, {70,80}, {85,90},
{101,105},{109,119},{121,130},{140,160},{170,175},{180,189},
{201,205},{209,219},{221,230},{240,260},{270,275},{280,289},
{301,305},{309,319},{321,330},{340,360},{370,375},{380,389},
{401,405},{409,419},{421,430},{440,460},{470,475},{480,489},
{501,505},{509,519},{521,530},{540,560},{570,575},{580,589}
]).
%% Don't think this will be used by the megaco stack, but since it
%% seem's to be a valid construction...
msg30d() ->
msg_ack(?MG2_MID,
[[{9,13}, {15,15}, {33,40}, {50,60}, {70,80}, {85,90}],
[{101,105},{109,119},{121,130},{140,160},{170,175},{180,189}],
[{201,205},{209,219},{221,230},{240,260},{270,275},{280,289}],
[{301,305},{309,319},{321,330},{340,360},{370,375},{380,389}],
[{401,405},{409,419},{421,430},{440,460},{470,475},{480,489}],
[{501,505},{509,519},{521,530},{540,560},{570,575},{580,589}]
]).
msg40() ->
msg40(?MG1_MID_NO_PORT, "901 mg col boot").
msg40(Mid, Reason) when is_list(Reason) ->
Address = {portNumber, ?DEFAULT_PORT},
Profile = cre_serviceChangeProf("resgw",1),
Parm = cre_serviceChangeParm(restart,Address,[Reason],Profile),
Req = cre_serviceChangeReq([?megaco_root_termination_id],Parm),
CmdReq = cre_commandReq({serviceChangeReq, Req}),
Auth = cre_authHeader(),
msg_request(Auth, Mid, 9998, ?megaco_null_context_id, [CmdReq]).
%% - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
%% Pretty RFC 3525 messages:
%% Added Reason
rfc3525_msg1() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222] Transaction = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
Method = Restart,
Reason = 901,
ServiceChangeAddress = 55555,
Profile = ResGW/1
}
}
}
}".
rfc3525_msg2() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Reply = 9998 {
Context = - {
ServiceChange = ROOT {
Services {
ServiceChangeAddress = 55555,
Profile = ResGW/1
}
}
}
}".
%% Removed "," after LocalControl ending "}"
rfc3525_msg3() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 9999 {
Context = - {
Modify = A4444 {
Media {
Stream = 1 {
LocalControl {
Mode = SendReceive,
tdmc/gain=2, ; in dB,
tdmc/ec=on
}
}
},
Events = 2222 {
al/of {strict=state}
}
}
}
}".
%% Removed the outermost "{}" pair (before the Reply token)
rfc3525_msg4() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 9999 {
Context = - {
Modify = A4444
}
}".
rfc3525_msg6() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Transaction = 10000 {
Context = - {
Notify = A4444 {
ObservedEvents =2222 {
19990729T22000000:al/of{init=false}
}
}
}
}".
rfc3525_msg7() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Reply = 10000 {
Context = - {
Notify = A4444
}
}".
rfc3525_msg8() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 10001 {
Context = - {
Modify = A4444 {
Events = 2223 {
al/on {strict=state},
dd/ce {DigitMap=Dialplan0}
},
Signals {cg/dt},
DigitMap = Dialplan0 {
(0| 00|[1-7]xxx|8xxxxxxx|fxxxxxxx|exx|91xxxxxxxxxx|9011x.)
}
}
}
}".
rfc3525_msg9() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10001 {
Context = - {
Modify = A4444
}
}".
rfc3525_msg10() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Transaction = 10002 {
Context = - {
Notify = A4444 {
ObservedEvents =2223 {
19990729T22010001:dd/ce {
ds=\"916135551212\",
Meth=UM
}
}
}
}
}".
rfc3525_msg11() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Reply = 10002 {
Context = - {
Notify = A4444
}
}".
%% Added ?
rfc3525_msg12() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 10003 {
Context = $ {
Add = A4444,
Add = $ {
Media {
Stream = 1 {
LocalControl {
Mode = ReceiveOnly,
nt/jit=40 ; in ms
},
Local {
v=0 c=IN IP4 $ m=audio $ RTP/AVP 4 a=ptime:30 v=0 c=IN IP4 $ m=audio $ RTP/AVP 0
}
}
}
}
}
}".
%% Added ?
rfc3525_msg13() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10003 {
Context = 2000 {
Add = A4444,
Add = A4445 {
Media {
Stream = 1 {
Local {
v=0
o=- 2890844526 2890842807 IN IP4 124.124.124.222
s=-
t= 0 0
c=IN IP4 124.124.124.222
m=audio 2222 RTP/AVP 4
a=ptime:30
a=recvonly
} ; RTP profile for G.723.1 is 4
}
}
}
}
}".
%%
%% Added ?
rfc3525_msg14() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 50003 {
Context = $ {
Add = A5555 {
Media {
Stream = 1 {
LocalControl {
Mode = SendReceive
}
}
},
Events = 1234 {
al/of {strict=state}
},
Signals {al/ri}
},
Add = $ {
Media {
Stream = 1 {
LocalControl {
Mode = SendReceive,
nt/jit=40 ; in ms
},
Local {
v=0 c=IN IP4 $ m=audio $ RTP/AVP 4 a=ptime:30
},
Remote {
v=0 c=IN IP4 124.124.124.222 m=audio 2222 RTP/AVP 4 a=ptime:30
} ; RTP profile for G.723.1 is 4
}
}
}
}
}".
%% Added ?
rfc3525_msg15() ->
"MEGACO/" ?VERSION_STR " [125.125.125.111]:55555 Reply = 50003 {
Context = 5000 {
Add = A5555,
Add = A5556 {
Media {
Stream = 1 {
Local {
v=0 o=- 7736844526 7736842807 IN IP4 125.125.125.111 s=- t= 0 0 c=IN IP4 125.125.125.111 m=audio 1111 RTP/AVP 4
} ; RTP profile for G723.1 is 4
}
}
}
}
}".
%% Added ?
rfc3525_msg16a() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 10005 {
Context = 2000 {
Modify = A4444 {
Signals {cg/rt}
},
Modify = A4445 {
Media {
Stream = 1 {
Remote {
v=0 o=- 7736844526 7736842807 IN IP4 125.125.125.111 s=- t= 0 0 c=IN IP4 125.125.125.111 m=audio 1111 RTP/AVP 4
} ; RTP profile for G723.1 is 4
}
}
}
}
}".
rfc3525_msg16b() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10005 {
Context = 2000 {
Modify = A4444,
Modify = A4445
}
}".
rfc3525_msg17a() ->
"MEGACO/" ?VERSION_STR " [125.125.125.111]:55555 Transaction = 50005 {
Context = 5000 {
Notify = A5555 {
ObservedEvents = 1234 {
19990729T22020002:al/of{init=false}
}
}
}
}".
rfc3525_msg17b() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Reply = 50005 {
Context = - {
Notify = A5555
}
}".
%% Removed "{ }" after Signals
rfc3525_msg17c() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 50006 {
Context = 5000 {
Modify = A5555 {
Events = 1235 {
al/on{strict=state}
},
Signals ; to turn off ringing
}
}
}".
rfc3525_msg17d() ->
"MEGACO/" ?VERSION_STR " [125.125.125.111]:55555 Reply = 50006 {
Context = 5000 {
Modify = A4445
}
}".
%% Removed "{ }" after Signals
rfc3525_msg18a() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 10006 {
Context = 2000 {
Modify = A4445 {
Media {
Stream = 1 {
LocalControl {
Mode = SendReceive
}
}
}
},
Modify = A4444 {
Signals
}
}
}".
rfc3525_msg18b() ->
"MEGACO/" ?VERSION_STR " [124.124.124.222]:55555 Reply = 10006 {
Context = 2000 {
Modify = A4445,
Modify = A4444
}
}".
rfc3525_msg19() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 50007 {
Context = - {
AuditValue = A5556 {
Audit {
Media, DigitMap, Events, Signals, Packages, Statistics
}
}
}
}".
%% Added ?
rfc3525_msg20() ->
"MEGACO/" ?VERSION_STR " [125.125.125.111]:55555 Reply = 50007 {
Context = - {
AuditValue = A5556 {
Media {
TerminationState {
ServiceStates = InService,
Buffer = OFF
},
Stream = 1 {
LocalControl {
Mode = SendReceive,
nt/jit=40
},
Local {
v=0 o=- 7736844526 7736842807 IN IP4 125.125.125.111 s=- t= 0 0 c=IN IP4 125.125.125.111 m=audio 1111 RTP/AVP 4 a=ptime:30
},
Remote {
v=0 o=- 2890844526 2890842807 IN IP4 124.124.124.222 s=- t= 0 0 c=IN IP4 124.124.124.222 m=audio 2222 RTP/AVP 4 a=ptime:30
}
}
},
Events,
Signals,
DigitMap,
Packages {nt-1, rtp-1},
Statistics {
rtp/ps=1200, ; packets sent
nt/os=62300, ; octets sent
rtp/pr=700, ; packets received
nt/or=45100, ; octets received
rtp/pl=0.2, ; % packet loss
rtp/jit=20,
rtp/delay=40 ; avg latency
}
}
}
}".
rfc3525_msg21a() ->
"MEGACO/" ?VERSION_STR " [125.125.125.111]:55555 Transaction = 50008 {
Context = 5000 {
Notify = A5555 {
ObservedEvents =1235 {
19990729T24020002:al/on {init=false}
}
}
}
}".
rfc3525_msg21b() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Reply = 50008 {
Context = - {
Notify = A5555
}
}".
rfc3525_msg22a() ->
"MEGACO/" ?VERSION_STR " [123.123.123.4]:55555 Transaction = 50009 {
Context = 5000 {
Subtract = A5555 {
Audit {
Statistics
}
},
Subtract = A5556 {
Audit {
Statistics
}
}
}
}".
%% Added ?
rfc3525_msg22b() ->
"MEGACO/" ?VERSION_STR " [125.125.125.111]:55555 Reply = 50009 {
Context = 5000 {
Subtract = A5555 {
Statistics {
nt/os=45123, ; Octets Sent
nt/dur=40 ; in seconds
}
},
Subtract = A5556 {
Statistics {
rtp/ps=1245, ; packets sent
nt/os=62345, ; octets sent
rtp/pr=780, ; packets received
nt/or=45123, ; octets received
rtp/pl=10, ; % packets lost
rtp/jit=27,
rtp/delay=48 ; average latency
}
}
}
}".
rfc3525_msgs() ->
[
{msg1, rfc3525_msg1()},
{msg2, rfc3525_msg2()},
{msg3, rfc3525_msg3()},
{msg4, rfc3525_msg4()},
{msg6, rfc3525_msg6()},
{msg7, rfc3525_msg7()},
{msg8, rfc3525_msg8()},
{msg9, rfc3525_msg9()},
{msg10, rfc3525_msg10()},
{msg11, rfc3525_msg11()},
{msg12, rfc3525_msg12()},
{msg13, rfc3525_msg13()},
{msg14, rfc3525_msg14()},
{msg15, rfc3525_msg15()},
{msg16a, rfc3525_msg16a()},
{msg16b, rfc3525_msg16b()},
{msg17a, rfc3525_msg17a()},
{msg17b, rfc3525_msg17b()},
{msg17c, rfc3525_msg17c()},
{msg17d, rfc3525_msg17d()},
{msg18a, rfc3525_msg18a()},
{msg18b, rfc3525_msg18b()},
{msg19, rfc3525_msg19()},
{msg20, rfc3525_msg20()},
{msg21a, rfc3525_msg21a()},
{msg21b, rfc3525_msg21b()},
{msg22a, rfc3525_msg22a()},
{msg22b, rfc3525_msg22b()}
].
rfc3525_msgs_display() ->
Msgs = rfc3525_msgs(),
Fun = fun({Name, Msg}) ->
io:format("~w: ~n~s~n~n", [Name, Msg])
end,
lists:foreach(Fun, Msgs).
rfc3525_msgs_test() ->
put(dbg,true),
Res = rfc3525_msgs_test(megaco_pretty_text_encoder, [], 1),
erase(dbg),
io:format("~w~n", [Res]).
rfc3525_msgs_test(Codec, Config, Ver) ->
io:format("-----------------------------------------"
"~ntesting with"
"~n Codec: ~w"
"~n Config: ~w"
"~n Version: ~w"
"~n", [Codec, Config, Ver]),
Msgs = rfc3525_msgs(),
Test = fun({N,M1}) ->
%% io:format("testing ~w: ", [N]),
io:format("~n*** testing ~w *** ~n~s~n", [N,M1]),
Bin1 = erlang:list_to_binary(M1),
case (catch Codec:decode_message(Config, Ver, Bin1)) of
{ok, M2} ->
%% io:format("d", []),
io:format("decoded:~n~p~n", [M2]),
case (catch Codec:encode_message(Config, Ver, M2)) of
{ok, Bin2} when is_binary(Bin2) ->
%% io:format("e~n", []),
io:format("encode: ~n~s~n", [erlang:binary_to_list(Bin2)]),
{N,ok};
{ok, M3} ->
%% io:format("e~n", []),
io:format("encode: ~n~s~n", [M3]),
{N,ok};
E ->
io:format("~n~p~n", [E]),
{N,encode_error}
end;
E ->
io:format("~n~p~n", [E]),
{N,decode_error}
end
end,
[Test(M) || M <- Msgs].
%% --------------------------
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
skip(Reason) ->
megaco_codec_test_lib:skip(Reason).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
decode_message(Codec, DynamicDecode, Conf, Bin) ->
megaco_codec_test_lib:decode_message(Codec, DynamicDecode, ?VERSION,
Conf, Bin).
encode_message(Codec, Conf, Msg) ->
megaco_codec_test_lib:encode_message(Codec, ?VERSION, Conf, Msg).
test_msgs(Codec, DynamicDecode, Conf, Msgs) ->
megaco_codec_test_lib:test_msgs(Codec, DynamicDecode, ?VERSION, Conf,
fun chk_MegacoMessage/2, Msgs).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
chk_MegacoMessage(M,M) when is_record(M,'MegacoMessage') ->
ok;
chk_MegacoMessage(#'MegacoMessage'{authHeader = Auth1,
mess = Mess1},
#'MegacoMessage'{authHeader = Auth2,
mess = Mess2}) ->
chk_opt_AuthenticationHeader(Auth1,Auth2),
chk_Message(Mess1,Mess2),
ok;
chk_MegacoMessage(M1, M2) ->
wrong_type({'MegacoMessage', M1, M2}).
chk_opt_AuthenticationHeader(A,A) ->
ok;
chk_opt_AuthenticationHeader(A1,A2) ->
not_equal({auth,A1,A2}).
chk_Message(M,M) when is_record(M,'Message') ->
ok;
chk_Message(#'Message'{version = Version1,
mId = MID1,
messageBody = Body1},
#'Message'{version = Version2,
mId = MID2,
messageBody = Body2}) ->
chk_version(Version1,Version2),
chk_MId(MID1,MID2),
chk_messageBody(Body1,Body2),
ok;
chk_Message(M1,M2) ->
wrong_type({'Message',M1,M2}).
chk_version(V,V) when is_integer(V) ->
ok;
chk_version(V1,V2) when is_integer(V1) andalso is_integer(V2) ->
not_equal({version,V1,V2});
chk_version(V1,V2) ->
wrong_type({integer,V1,V2}).
chk_MId(M,M) ->
{equal,mid};
chk_MId({Tag,M1},{Tag,M2}) ->
Res = chk_MId(Tag,M1,M2),
equal(Res);
chk_MId(M1,M2) ->
not_equal({mid,M1,M2}).
chk_MId(ip4Address,M1,M2) -> chk_IP4Address(M1, M2);
chk_MId(ip6Address,M1,M2) -> chk_IP6Address(M1, M2);
chk_MId(domainName,M1,M2) -> chk_DomainName(M1, M2);
chk_MId(deviceName,M1,M2) -> chk_PathName(M1, M2);
chk_MId(mtpAddress,M1,M2) -> chk_mtpAddress(M1, M2);
chk_MId(Tag,M1,M2) ->
wrong_type({invalid_tag,Tag,M1,M2}).
chk_IP4Address(M, M) ->
ok;
chk_IP4Address(M1, M2) ->
not_equal({ip4Address,M1,M2}).
chk_IP6Address(M, M) ->
ok;
chk_IP6Address(M1, M2) ->
not_equal({ip6Address,M1,M2}).
chk_DomainName(D, D) when is_record(D,'DomainName') ->
ok;
chk_DomainName(#'DomainName'{name = Name1,
portNumber = Port1},
#'DomainName'{name = Name2,
portNumber = Port2}) ->
chk_DomainName_name(Name1,Name2),
chk_DomainName_opt_portNumber(Port1,Port2),
equal('DomainName');
chk_DomainName(D1,D2) ->
wrong_type({'DomainName',D1,D2}).
chk_DomainName_name(N,N) when is_list(N) ->
ok;
chk_DomainName_name(N1,N2) when is_list(N1) andalso is_list(N2) ->
not_equal({'DomainName',name,N1,N2});
chk_DomainName_name(N1,N2) ->
wrong_type({'DomainName',name,N1,N2}).
chk_DomainName_opt_portNumber(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_DomainName_opt_portNumber(P,P)
when is_integer(P) andalso (P >= 0) ->
ok;
chk_DomainName_opt_portNumber(P1,P2)
when (is_integer(P1) andalso (P1 >= 0) andalso
is_integer(P2) andalso (P2 >= 0)) ->
not_equal({'DomainName',portNumber,P1,P2});
chk_DomainName_opt_portNumber(P1,P2) ->
wrong_type({'DomainName',portNumber,P1,P2}).
chk_PathName(P, P) ->
ok;
chk_PathName(P1, P2) ->
not_equal({pathname,P1,P2}).
chk_mtpAddress(M, M) ->
ok;
chk_mtpAddress(M1, M2) ->
not_equal({mtpAddress, M1, M2}).
chk_messageBody({messageError, B},
{messageError, B}) when is_record(B,'ErrorDescriptor') ->
ok;
chk_messageBody({messageError,B1},{messageError,B2}) ->
chk_ErrorDescriptor(B1,B2),
equal({messageBody, messageError});
chk_messageBody({transactions,T},{transactions,T}) when is_list(T) ->
ok;
chk_messageBody({transactions,T1},{transactions,T2}) ->
chk_transactions(T1,T2),
ok;
chk_messageBody(B1,B2) ->
wrong_type({messageBody,B1,B2}).
chk_transactions(T,T) when is_list(T) ->
ok;
chk_transactions(T1,T2)
when is_list(T1) andalso is_list(T2) andalso (length(T1) =:= length(T2)) ->
chk_transactions1(T1,T2);
chk_transactions(T1,T2)
when is_list(T1) andalso is_list(T2) ->
not_equal({transactions, T1, T2});
chk_transactions(T1, T2) ->
wrong_type({transactions,T1,T2}).
chk_transactions1([],[]) ->
equal(transactions);
chk_transactions1([T|Ts1],[T|Ts2]) ->
chk_transactions1(Ts1,Ts2);
chk_transactions1([T1|_Ts1],[T2|_Ts2]) ->
chk_transaction(T1,T2),
ok.
chk_transaction(T,T) ->
ok;
chk_transaction({transactionRequest,T1},{transactionRequest,T2}) ->
chk_transactionRequest(T1,T2),
ok;
chk_transaction({transactionPending,T1},{transactionPending,T2}) ->
chk_transactionPending(T1,T2),
equal({transactionPending,T1,T2});
chk_transaction({transactionReply,T1},{transactionReply,T2}) ->
chk_transactionReply(T1,T2),
equal({transactionReply,T1,T2});
chk_transaction({transactionResponseAck,T1},{transactionResponseAck,T2}) ->
chk_transactionAck(T1,T2),
equal({transactionResponseAck,T1,T2});
chk_transaction({Tag1,_T1},{Tag2,_T2}) ->
wrong_type({transaction_tag,Tag1,Tag2}).
chk_transactionRequest(T,T) when is_record(T,'TransactionRequest') ->
ok;
chk_transactionRequest(T1,T2) when is_record(T1,'TransactionRequest') andalso
is_record(T2,'TransactionRequest') ->
chk_transactionId(T1#'TransactionRequest'.transactionId,
T2#'TransactionRequest'.transactionId),
chk_actionRequests(T1#'TransactionRequest'.actions,
T2#'TransactionRequest'.actions),
ok;
chk_transactionRequest(T1,T2) ->
wrong_type({transactionRequest,T1,T2}).
chk_transactionPending(T,T) when is_record(T,'TransactionPending') ->
ok;
chk_transactionPending(#'TransactionPending'{transactionId = Id1},
#'TransactionPending'{transactionId = Id2}) ->
chk_transactionId(Id1,Id2),
equal(transactionPending);
chk_transactionPending(T1,T2) ->
wrong_type({transactionPending,T1,T2}).
chk_transactionReply(T,T) when is_record(T,'TransactionReply') ->
ok;
chk_transactionReply(#'TransactionReply'{transactionId = Id1,
immAckRequired = ImmAck1,
transactionResult = TransRes1},
#'TransactionReply'{transactionId = Id2,
immAckRequired = ImmAck2,
transactionResult = TransRes2}) ->
chk_transactionId(Id1,Id2),
ImmAck1 = ImmAck2,
chk_transactionReply_transactionResult(TransRes1,TransRes2),
equal(transactionReply);
chk_transactionReply(T1,T2) ->
wrong_type({transactionReply,T1,T2}).
chk_transactionReply_transactionResult(R,R) ->
ok;
chk_transactionReply_transactionResult(R1,R2) ->
not_equal({transactionReply_transactionResult,R1,R2}).
chk_transactionAck(T,T) when is_record(T,'TransactionAck') ->
ok;
chk_transactionAck(#'TransactionAck'{firstAck = F1,
lastAck = L1},
#'TransactionAck'{firstAck = F2,
lastAck = L2}) ->
chk_transactionId(F1,F2),
chk_opt_transactionId(L1,L2),
equal('TransactionAck');
chk_transactionAck(T1,T2) ->
wrong_type({transactionAck,T1,T2}).
chk_actionRequests(A,A) when is_list(A) andalso (length(A) =:= 0) ->
ok;
chk_actionRequests(A,A) when is_list(A) ->
case hd(A) of
A when is_record(A,'ActionRequest') ->
ok;
Else ->
wrong_type({'ActionRequest',Else})
end;
chk_actionRequests(A1,A2)
when is_list(A1) andalso is_list(A2) andalso (length(A1) =:= length(A2)) ->
chk_actionRequests1(A1,A2);
chk_actionRequests(A1,A2) ->
wrong_type({actionRequests,A1,A2}).
chk_actionRequests1([],[]) ->
equal(actionRequests);
chk_actionRequests1([A|As1],[A|As2]) when is_record(A,'ActionRequest') ->
chk_actionRequests1(As1,As2);
chk_actionRequests1([A1|_As1],[A2|_As2]) ->
chk_actionRequest(A1,A2),
ok.
chk_actionRequest(A,A) when is_record(A,'ActionRequest') ->
ok;
chk_actionRequest(#'ActionRequest'{contextId = Id1,
contextRequest = Req1,
contextAttrAuditReq = AuditReq1,
commandRequests = CmdReqs1},
#'ActionRequest'{contextId = Id2,
contextRequest = Req2,
contextAttrAuditReq = AuditReq2,
commandRequests = CmdReqs2}) ->
t("chk_actionRequest -> entry with"
"~n CmdReqs1: ~p"
"~n CmdReqs2: ~p",[CmdReqs1,CmdReqs2]),
chk_contextId(Id1,Id2),
chk_opt_contextRequest(Req1,Req2),
chk_opt_contextAttrAuditReq(AuditReq1,AuditReq2),
chk_commandRequests(CmdReqs1,CmdReqs2),
ok.
chk_contextId(Id,Id) when is_integer(Id) ->
ok;
chk_contextId(Id1,Id2) when is_integer(Id1) andalso is_integer(Id2) ->
not_equal({contextId,Id1,Id2});
chk_contextId(Id1,Id2) ->
wrong_type({contextId,Id1,Id2}).
chk_opt_contextRequest(asn1_NOVALUE, asn1_NOVALUE) ->
ok;
chk_opt_contextRequest(R,R) when is_record(R,'ContextRequest') ->
ok;
chk_opt_contextRequest(#'ContextRequest'{priority = Prio1,
emergency = Em1,
topologyReq = TopReq1} = C1,
#'ContextRequest'{priority = Prio2,
emergency = Em2,
topologyReq = TopReq2} = C2) ->
chk_contextRequest_priority(Prio1,Prio2),
chk_contextRequest_emergency(Em1,Em2),
chk_topologyRequest(TopReq1,TopReq2),
equal({'ContextRequest',C1,C2}).
chk_contextRequest_priority(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_contextRequest_priority(P,P) when is_integer(P) ->
ok;
chk_contextRequest_priority(P1,P2) when is_integer(P1) andalso is_integer(P2) ->
not_equal({contextRequest_priority,P1,P2});
chk_contextRequest_priority(P1,P2) ->
wrong_type({contextRequest_priority,P1,P2}).
chk_contextRequest_emergency(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_contextRequest_emergency(true,true) ->
ok;
chk_contextRequest_emergency(false,false) ->
ok;
chk_contextRequest_emergency(E1,E2) ->
not_equal({contextRequest_emergency,E1,E2}).
chk_topologyRequest(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_topologyRequest(T,T) when is_record(T,'TopologyRequest') ->
ok;
chk_topologyRequest(#'TopologyRequest'{terminationFrom = F1,
terminationTo = T1,
topologyDirection = D1} = T1,
#'TopologyRequest'{terminationFrom = F2,
terminationTo = T2,
topologyDirection = D2} = T2) ->
chk_terminationId(F1,F2),
chk_terminationId(T1,T2),
chk_topologyRequest_topologyDirection(D1,D2),
equal({'TopologyRequest',D1,D2}).
chk_topologyRequest_topologyDirection(bothway,bothway) ->
ok;
chk_topologyRequest_topologyDirection(isolate,isolate) ->
ok;
chk_topologyRequest_topologyDirection(oneway,oneway) ->
ok;
chk_topologyRequest_topologyDirection(D1,D2) ->
not_equal({topologyRequest_topologyDirection, D1, D2}).
chk_opt_contextAttrAuditReq(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_contextAttrAuditReq(R,R) when is_record(R,'ContextAttrAuditRequest') ->
ok;
chk_opt_contextAttrAuditReq(#'ContextAttrAuditRequest'{topology = T1,
emergency = E1,
priority = P1} = R1,
#'ContextAttrAuditRequest'{topology = T2,
emergency = E2,
priority = P2} = R2) ->
T1 = T2,
E1 = E2,
P1 = P2,
equal({'ContextAttrAuditRequest',R1,R2}).
chk_commandRequests(C1,C2)
when is_list(C1) andalso is_list(C2) andalso (length(C1) =:= length(C2)) ->
t("chk_commandRequests -> entry with"
"~n C1: ~p"
"~n C2: ~p", [C1, C2]),
chk_commandRequests1(C1,C2);
chk_commandRequests(C1,C2) ->
t("chk_commandRequests -> entry",[]),
wrong_type({commandRequests,C1,C2}).
chk_commandRequests1([],[]) ->
ok;
chk_commandRequests1([C1|Cs1],[C2|Cs2]) ->
chk_commandRequest(C1,C2),
chk_commandRequests1(Cs1,Cs2).
chk_commandRequest(C,C) when is_record(C,'CommandRequest') ->
ok;
chk_commandRequest(#'CommandRequest'{command = Cmd1,
optional = O1,
wildcardReturn = W1},
#'CommandRequest'{command = Cmd2,
optional = O2,
wildcardReturn = W2}) ->
t("chk_commandRequest -> entry with"
"~n C1: ~p"
"~n C2: ~p", [Cmd1, Cmd2]),
chk_commandRequest_command(Cmd1,Cmd2),
O1 = O2,
W1 = W2,
ok;
chk_commandRequest(C1,C2) ->
wrong_type({commandRequest,C1,C2}).
chk_commandRequest_command({addReq,C1},{addReq,C2}) ->
chk_AmmRequest(C1,C2);
chk_commandRequest_command({moveReq,C1},{moveReq,C2}) ->
chk_AmmRequest(C1,C2);
chk_commandRequest_command({modReq,C1},{modReq,C2}) ->
chk_AmmRequest(C1,C2);
chk_commandRequest_command({subtractReq,C1},{subtractReq,C2}) ->
chk_SubtractRequest(C1,C2);
chk_commandRequest_command({auditCapRequest,C1},{auditCapRequest,C2}) ->
chk_AuditRequest(C1,C2);
chk_commandRequest_command({auditValueRequest,C1},{auditValueRequest,C2}) ->
chk_AuditRequest(C1,C2);
chk_commandRequest_command({notifyReq,C1},{notifyReq,C2}) ->
chk_NotifyRequest(C1,C2);
chk_commandRequest_command({serviceChangeReq,C1},{serviceChangeReq,C2}) ->
chk_ServiceChangeRequest(C1,C2);
chk_commandRequest_command(C1,C2) ->
wrong_type({commandRequest_command,C1,C2}).
chk_AmmRequest(R,R) when is_record(R,'AmmRequest') ->
ok;
chk_AmmRequest(#'AmmRequest'{terminationID = Tids1,
descriptors = D1},
#'AmmRequest'{terminationID = Tids2,
descriptors = D2}) ->
chk_terminationIds(Tids1,Tids2),
chk_AmmRequest_descriptors(D1,D2),
ok;
chk_AmmRequest(R1,R2) ->
wrong_type({'AmmRequest',R1,R2}).
chk_AmmRequest_descriptors([],[]) ->
ok;
chk_AmmRequest_descriptors(D1,D2)
when is_list(D1) andalso is_list(D2) andalso (length(D1) =:= length(D2)) ->
chk_AmmRequest_descriptors1(D1,D2);
chk_AmmRequest_descriptors(D1,D2) ->
wrong_type({ammRequest_descriptors,D1,D2}).
chk_AmmRequest_descriptors1([],[]) ->
ok;
chk_AmmRequest_descriptors1([D1|Ds1],[D2|Ds2]) ->
chk_AmmRequest_descriptor(D1,D2),
chk_AmmRequest_descriptors1(Ds1,Ds2).
chk_AmmRequest_descriptor({mediaDescriptor,D1},{mediaDescriptor,D2}) ->
chk_MediaDescriptor(D1,D2);
chk_AmmRequest_descriptor({modemDescriptor,D1},{modemDescriptor,D2}) ->
chk_ModemDescriptor(D1,D2);
chk_AmmRequest_descriptor({muxDescriptor,D1},{muxDescriptor,D2}) ->
chk_MuxDescriptor(D1,D2);
chk_AmmRequest_descriptor({eventsDescriptor,D1},{eventsDescriptor,D2}) ->
chk_EventsDescriptor(D1,D2);
chk_AmmRequest_descriptor({eventBufferDescriptor,D1},{eventBufferDescriptor,D2}) ->
chk_EventBufferDescriptor(D1,D2);
chk_AmmRequest_descriptor({signalsDescriptor,D1},{signalsDescriptor,D2}) ->
chk_SignalsDescriptor(D1,D2);
chk_AmmRequest_descriptor({digitMapDescriptor,D1},{digitMapDescriptor,D2}) ->
chk_DigitMapDescriptor(D1,D2);
chk_AmmRequest_descriptor({auditDescriptor,D1},{auditDescriptor,D2}) ->
chk_AuditDescriptor(D1,D2);
chk_AmmRequest_descriptor({Tag1,_D1},{Tag2,_D2}) ->
wrong_type({ammRequest_descriptor_tag,Tag1,Tag2}).
chk_SubtractRequest(R,R) when is_record(R,'SubtractRequest') ->
ok;
chk_SubtractRequest(#'SubtractRequest'{terminationID = Tids1,
auditDescriptor = D1} = R1,
#'SubtractRequest'{terminationID = Tids2,
auditDescriptor = D2} = R2) ->
chk_terminationIds(Tids1, Tids2),
chk_opt_AuditDescriptor(D1, D2),
equal({'SubtractRequest',R1,R2});
chk_SubtractRequest(R1,R2) ->
wrong_type({'SubtractRequest',R1,R2}).
chk_AuditRequest(R,R) when is_record(R,'AuditRequest') ->
ok;
chk_AuditRequest(#'AuditRequest'{terminationID = Tid1,
auditDescriptor = D1} = R1,
#'AuditRequest'{terminationID = Tid2,
auditDescriptor = D2} = R2) ->
chk_terminationId(Tid1,Tid2),
chk_AuditDescriptor(D1,D2),
equal({'AuditRequest',R1,R2});
chk_AuditRequest(R1,R2) ->
wrong_type({'AuditRequest',R1,R2}).
chk_NotifyRequest(R,R) when is_record(R,'NotifyRequest') ->
ok;
chk_NotifyRequest(#'NotifyRequest'{terminationID = Tids1,
observedEventsDescriptor = ObsDesc1,
errorDescriptor = ErrDesc1} = R1,
#'NotifyRequest'{terminationID = Tids2,
observedEventsDescriptor = ObsDesc2,
errorDescriptor = ErrDesc2} = R2) ->
chk_terminationIds(Tids1,Tids2),
chk_ObservedEventsDescriptor(ObsDesc1,ObsDesc2),
chk_opt_ErrorDescriptor(ErrDesc1,ErrDesc2),
equal({'NotifyRequest',R1,R2});
chk_NotifyRequest(R1,R2) ->
wrong_type({'NotifyRequest',R1,R2}).
chk_ServiceChangeRequest(R,R) when is_record(R,'ServiceChangeRequest') ->
ok;
chk_ServiceChangeRequest(#'ServiceChangeRequest'{terminationID = Tids1,
serviceChangeParms = P1} = R1,
#'ServiceChangeRequest'{terminationID = Tids2,
serviceChangeParms = P2} = R2) ->
chk_terminationIds(Tids1,Tids2),
chk_ServiceChangeParm(P1,P2),
equal({'ServiceChangeRequest',R1,R2});
chk_ServiceChangeRequest(R1,R2) ->
wrong_type({'ServiceChangeRequest',R1,R2}).
chk_MediaDescriptor(D, D) when is_record(D,'MediaDescriptor') ->
ok;
chk_MediaDescriptor(#'MediaDescriptor'{termStateDescr = Tsd1,
streams = S1} = D1,
#'MediaDescriptor'{termStateDescr = Tsd2,
streams = S2} = D2) ->
%% io:format("chk_MediaDescriptor -> entry with"
%% "~n Tsd1: ~p"
%% "~n Tsd2: ~p"
%% "~n S1: ~p"
%% "~n S2: ~p"
%% "~n", [Tsd1, Tsd2, S1, S2]),
chk_MediaDescriptor_tsd(Tsd1, Tsd2),
chk_MediaDescriptor_streams(S1, S2),
equal({'MediaDescriptor',D1,D2});
chk_MediaDescriptor(D1,D2) ->
wrong_type({'MediaDescriptor',D1,D2}).
chk_MediaDescriptor_tsd(D, D) ->
ok;
chk_MediaDescriptor_tsd(D1, D2) ->
not_equal({termStateDescr, D1, D2}).
chk_MediaDescriptor_streams({oneStream, S}, {oneStream, S}) ->
ok;
chk_MediaDescriptor_streams({oneStream, S1}, {oneStream, S2}) ->
not_equal({oneStream, S1, S2});
chk_MediaDescriptor_streams({multiStream, MS}, {multiStream, MS}) ->
ok;
chk_MediaDescriptor_streams({multiStream, MS1}, {multiStream, MS2}) ->
chk_StreamDescriptors(MS1, MS2);
chk_MediaDescriptor_streams(S1, S2) ->
not_equal({streams, S1, S2}).
chk_StreamDescriptors([], []) ->
ok;
chk_StreamDescriptors([SD1|MS1], [SD2|MS2]) ->
chk_StreamDescriptor(SD1, SD2),
chk_StreamDescriptors(MS1, MS2).
chk_StreamDescriptor(SD, SD) when is_record(SD, 'StreamDescriptor') ->
ok;
chk_StreamDescriptor(#'StreamDescriptor'{streamID = SID1,
streamParms = SP1} = SD1,
#'StreamDescriptor'{streamID = SID2,
streamParms = SP2} = SD2) ->
SID1 = SID2,
chk_StreamParms(SP1, SP2),
equal({'StreamDescriptor',SD1, SD2});
chk_StreamDescriptor(SD1, SD2) ->
wrong_type({'StreamDescriptor',SD1,SD2}).
chk_StreamParms(SP, SP) when is_record(SP, 'StreamParms') ->
ok;
chk_StreamParms(#'StreamParms'{localControlDescriptor = LCD1,
localDescriptor = LD1,
remoteDescriptor = RD1} = SP1,
#'StreamParms'{localControlDescriptor = LCD2,
localDescriptor = LD2,
remoteDescriptor = RD2} = SP2) ->
LCD1 = LCD2,
LD1 = LD2,
RD1 = RD2,
equal({'StreamParms', SP1, SP2});
chk_StreamParms(SP1, SP2) ->
wrong_type({'StreamDescriptor', SP1, SP2}).
chk_ModemDescriptor(D,D) when is_record(D,'ModemDescriptor') ->
ok;
chk_ModemDescriptor(#'ModemDescriptor'{mtl = T1,
mpl = P1} = D1,
#'ModemDescriptor'{mtl = T2,
mpl = P2} = D2) ->
T1 = T2,
P1 = P2,
equal({'ModemDescriptor',D1,D2});
chk_ModemDescriptor(D1,D2) ->
wrong_type({'ModemDescriptor',D1,D2}).
chk_MuxDescriptor(D,D) when is_record(D,'MuxDescriptor') ->
ok;
chk_MuxDescriptor(#'MuxDescriptor'{muxType = T1,
termList = I1} = D1,
#'MuxDescriptor'{muxType = T2,
termList = I2} = D2) ->
T1 = T2,
I1 = I2,
equal({'MuxDescriptor',D1,D2});
chk_MuxDescriptor(D1,D2) ->
wrong_type({'MuxDescriptor',D1,D2}).
chk_EventsDescriptor(D,D) when is_record(D,'EventsDescriptor') ->
ok;
chk_EventsDescriptor(#'EventsDescriptor'{requestID = I1,
eventList = E1} = D1,
#'EventsDescriptor'{requestID = I2,
eventList = E2} = D2) ->
I1 = I2,
E1 = E2,
equal({'EventsDescriptor',D1,D2});
chk_EventsDescriptor(D1,D2) ->
wrong_type({'EventsDescriptor',D1,D2}).
chk_EventBufferDescriptor(D1,D2)
when is_list(D1) andalso is_list(D2) andalso (length(D1) =:= length(D2)) ->
chk_EventBufferDescriptor1(D1,D2);
chk_EventBufferDescriptor(D1,D2) ->
wrong_type({eventBufferDescriptor,D1,D2}).
chk_EventBufferDescriptor1([],[]) ->
ok;
chk_EventBufferDescriptor1([ES1|D1],[ES2|D2]) ->
chk_EventSpec(ES1,ES2),
chk_EventBufferDescriptor1(D1,D2).
chk_EventSpec(ES,ES) when is_record(ES,'EventSpec') ->
ok;
chk_EventSpec(#'EventSpec'{eventName = N1,
streamID = I1,
eventParList = P1} = ES1,
#'EventSpec'{eventName = N2,
streamID = I2,
eventParList = P2} = ES2) ->
N1 = N2,
chk_opt_StreamId(I1,I2),
chk_EventParameters(P1,P2),
equal({'EventSpec',ES1,ES2});
chk_EventSpec(ES1,ES2) ->
wrong_type({'EventSpec',ES1,ES2}).
chk_opt_ErrorDescriptor(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_ErrorDescriptor(E1,E2) ->
chk_ErrorDescriptor(E1,E2).
chk_ErrorDescriptor(E,E) when is_record(E,'ErrorDescriptor') ->
ok;
chk_ErrorDescriptor(#'ErrorDescriptor'{errorCode = Code1,
errorText = Text1} = E1,
#'ErrorDescriptor'{errorCode = Code2,
errorText = Text2} = E2) ->
chk_ErrorCode(Code1,Code2),
chk_opt_ErrorText(Text1,Text2),
equal({'ErrorDescriptor',E1,E2});
chk_ErrorDescriptor(E1,E2) ->
wrong_type({'ErrorDescriptor',E1,E2}).
chk_ErrorCode(C,C) when is_integer(C) ->
ok;
chk_ErrorCode(C1,C2) when is_integer(C1) andalso is_integer(C2) ->
not_equal({errorCode,C1,C2});
chk_ErrorCode(C1,C2) ->
throw({wrong_type,{errorCode,C1,C2}}).
chk_opt_ErrorText(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_ErrorText(T,T) when is_list(T) ->
ok;
chk_opt_ErrorText(T1,T2) when is_list(T1) andalso is_list(T2) ->
not_equal({errorText,T1,T2});
chk_opt_ErrorText(T1,T2) ->
wrong_type({errorText,T1,T2}).
chk_SignalsDescriptor(D1,D2)
when is_list(D1) andalso is_list(D2) andalso (length(D1) =:= length(D2)) ->
chk_SignalsDescriptor1(D1,D2);
chk_SignalsDescriptor(D1,D2) ->
wrong_type({signalsDescriptor,D1,D2}).
chk_SignalsDescriptor1([],[]) ->
ok;
chk_SignalsDescriptor1([S1|D1],[S2|D2]) ->
chk_SignalRequest(S1,S2),
chk_SignalsDescriptor1(D1,D2).
chk_SignalRequest({signal,S1},{signal,S2}) ->
chk_Signal(S1,S2);
chk_SignalRequest({seqSigList,S1},{seqSigList,S2}) ->
chk_SeqSignalList(S1,S2);
chk_SignalRequest(R1,R2) ->
wrong_type({signalRequest,R1,R2}).
chk_SeqSignalList(S,S) when is_record(S,'SeqSigList') ->
ok;
chk_SeqSignalList(#'SeqSigList'{id = Id1,
signalList = SigList1} = S1,
#'SeqSigList'{id = Id2,
signalList = SigList2} = S2) ->
Id1 = Id2,
chk_Signals(SigList1,SigList2),
equal({'SeqSigList',S1,S2});
chk_SeqSignalList(S1,S2) ->
wrong_type({'SeqSigList',S1,S2}).
chk_Signals([],[]) ->
ok;
chk_Signals([Sig1|Sigs1],[Sig2|Sigs2]) ->
chk_Signal(Sig1,Sig2),
chk_Signals(Sigs1,Sigs2).
chk_Signal(S,S) when is_record(S,'Signal') ->
ok;
chk_Signal(#'Signal'{signalName = N1,
streamID = I1,
sigType = T1,
duration = D1,
notifyCompletion = C1,
keepActive = K1,
sigParList = P1} = S1,
#'Signal'{signalName = N2,
streamID = I2,
sigType = T2,
duration = D2,
notifyCompletion = C2,
keepActive = K2,
sigParList = P2} = S2) ->
N1 = N2,
chk_opt_StreamId(I1,I2),
chk_opt_SignalType(T1,T2),
chk_opt_duration(D1,D2),
chk_opt_NotifyCompletion(C1,C2),
chk_opt_keepAlive(K1,K2),
chk_sigParameters(P1,P2),
equal({'Signal',S1,S2});
chk_Signal(S1,S2) ->
wrong_type({'Signal',S1,S2}).
chk_DigitMapDescriptor(D,D) when is_record(D,'DigitMapDescriptor') ->
ok;
chk_DigitMapDescriptor(#'DigitMapDescriptor'{digitMapName = N1,
digitMapValue = V1},
#'DigitMapDescriptor'{digitMapName = N2,
digitMapValue = V2}) ->
chk_opt_digitMapName(N1,N2),
chk_opt_digitMapValue(V1,V2),
ok;
chk_DigitMapDescriptor(D1,D2) ->
wrong_type({'DigitMapDescriptor',D1,D2}).
chk_opt_digitMapName(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_digitMapName(N1,N2) ->
chk_digitMapName(N1,N2).
chk_digitMapName(N,N) ->
ok;
chk_digitMapName(N1,N2) ->
not_equal({digitMapName,N1,N2}).
chk_opt_digitMapValue(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_digitMapValue(V1,V2) ->
chk_digitMapValue(V1,V2).
chk_digitMapValue(V,V) when is_record(V,'DigitMapValue') ->
ok;
chk_digitMapValue(#'DigitMapValue'{digitMapBody = Body1,
startTimer = Start1,
shortTimer = Short1,
longTimer = Long1},
#'DigitMapValue'{digitMapBody = Body2,
startTimer = Start2,
shortTimer = Short2,
longTimer = Long2}) ->
chk_digitMapValue_digitMapBody(Body1,Body2), % Could contain trailing '\n', ...
chk_opt_timer(Start1,Start2),
chk_opt_timer(Short1,Short2),
chk_opt_timer(Long1,Long2),
ok;
chk_digitMapValue(V1,V2) ->
wrong_type({digitMapValue,V1,V2}).
chk_digitMapValue_digitMapBody(B,B) when is_list(B) ->
ok;
chk_digitMapValue_digitMapBody(B1, B2)
when is_list(B1) andalso is_list(B2) andalso (length(B1) > length(B2)) ->
case string:str(B2, B1) of
0 ->
ok;
_ ->
not_equal({digitMapValue_digitMapBody,B1,B2})
end;
chk_digitMapValue_digitMapBody(B1, B2)
when is_list(B1) andalso is_list(B2) andalso (length(B1) < length(B2)) ->
case string:str(B1, B2) of
0 ->
ok;
_ ->
not_equal({digitMapValue_digitMapBody,B1,B2})
end;
chk_digitMapValue_digitMapBody(B1,B2) when is_list(B1) andalso is_list(B2) ->
not_equal({digitMapValue_digitMapBody,B1,B2});
chk_digitMapValue_digitMapBody(B1,B2) ->
wrong_type({digitMapValue_digitMapBody,B1,B2}).
chk_opt_AuditDescriptor(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_AuditDescriptor(D1,D2) ->
chk_AuditDescriptor(D1,D2).
chk_AuditDescriptor(D,D) when is_record(D,'AuditDescriptor') ->
ok;
chk_AuditDescriptor(#'AuditDescriptor'{auditToken = T1} = D1,
#'AuditDescriptor'{auditToken = T2} = D2) ->
chk_opt_auditToken(T1,T2),
equal({'AuditDescriptor',D1,D2});
chk_AuditDescriptor(D1,D2) ->
wrong_type({'AuditDescriptor',D1,D2}).
chk_opt_auditToken(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_auditToken(T1,T2) ->
chk_auditToken(T1,T2).
chk_auditToken(T1,T2)
when is_list(T1) andalso is_list(T2) andalso (length(T1) =:= length(T2)) ->
chk_auditToken1(T1,T2);
chk_auditToken(T1,T2) ->
wrong_type({auditToken,T1,T2}).
chk_auditToken1([],[]) ->
ok;
chk_auditToken1([H1|T1],[H2|T2]) ->
chk_auditToken2(H1,H2),
chk_auditToken1(T1,T2).
chk_auditToken2(muxToken,muxToken) ->
ok;
chk_auditToken2(modemToken,modemToken) ->
ok;
chk_auditToken2(mediaToken,mediaToken) ->
ok;
chk_auditToken2(eventsToken,eventsToken) ->
ok;
chk_auditToken2(signalsToken,signalsToken) ->
ok;
chk_auditToken2(digitMapToken,digitMapToken) ->
ok;
chk_auditToken2(statsToken,statsToken) ->
ok;
chk_auditToken2(observedEventsToken,observedEventsToken) ->
ok;
chk_auditToken2(packagesToken,packagesToken) ->
ok;
chk_auditToken2(eventBufferToken,eventBufferToken) ->
ok;
chk_auditToken2(T1,T2) when is_atom(T1) andalso is_atom(T2) ->
not_equal({auditToken,T1,T2});
chk_auditToken2(T1,T2) ->
wrong_type({auditToken,T1,T2}).
chk_ObservedEventsDescriptor(D,D)
when is_record(D,'ObservedEventsDescriptor') ->
ok;
chk_ObservedEventsDescriptor(
#'ObservedEventsDescriptor'{requestId = Id1,
observedEventLst = E1} = D1,
#'ObservedEventsDescriptor'{requestId = Id2,
observedEventLst = E2} = D2) ->
Id1 = Id2,
chk_ObservedEvents(E1,E2),
equal({'ObservedEventsDescriptor',D1,D2});
chk_ObservedEventsDescriptor(D1,D2) ->
wrong_type({'ObservedEventsDescriptor',D1,D2}).
chk_ObservedEvents(E1,E2)
when is_list(E1) andalso is_list(E2) andalso (length(E1) =:= length(E2)) ->
chk_ObservedEvents1(E1,E2);
chk_ObservedEvents(E1,E2) ->
wrong_type({observedEvents,E1,E2}).
chk_ObservedEvents1([],[]) ->
ok;
chk_ObservedEvents1([Ev1|Evs1],[Ev2|Evs2]) ->
chk_ObservedEvent(Ev1,Ev2),
chk_ObservedEvents1(Evs1,Evs2).
chk_ObservedEvent(#'ObservedEvent'{eventName = N1,
streamID = I1,
eventParList = P1,
timeNotation = T1} = E1,
#'ObservedEvent'{eventName = N2,
streamID = I2,
eventParList = P2,
timeNotation = T2} = E2) ->
N1 = N2,
chk_opt_StreamId(I1,I2),
chk_EventParameters(P1,P2),
chk_opt_TimeNotation(T1,T2),
equal({'ObservedEvent',E1,E2});
chk_ObservedEvent(E1,E2) ->
wrong_type({'ObservedEvent',E1,E2}).
chk_opt_TimeNotation(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_TimeNotation(T1,T2) ->
chk_TimeNotation(T1,T2).
chk_TimeNotation(T,T) when is_record(T,'TimeNotation') ->
ok;
chk_TimeNotation(#'TimeNotation'{date = Date1,
time = Time1} = T1,
#'TimeNotation'{date = Date2,
time = Time2} = T2) ->
Date1 = Date2,
Time1 = Time2,
equal({'TimeNotation',T1,T2});
chk_TimeNotation(T1,T2) ->
wrong_type({'TimeNotation',T1,T2}).
chk_opt_timer(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_timer(T1,T2) ->
chk_timer(T1,T2).
chk_timer(T,T) when is_integer(T) ->
{equal,timer};
chk_timer(T1,T2) when is_integer(T1) andalso is_integer(T2) ->
throw({not_equal,{timer,T1,T2}});
chk_timer(T1,T2) ->
throw({wrong_type,{timer,T1,T2}}).
chk_opt_SignalType(asn1_NOVALUE,asn1_NOVALUE) ->
{equal,signalType};
chk_opt_SignalType(T1,T2) ->
chk_SignalType(T1,T2).
chk_SignalType(brief,brief) ->
{equal,signalType};
chk_SignalType(onOffonOff,onOffonOff) ->
{equal,signalType};
chk_SignalType(timeOut,timeOut) ->
{equal,signalType};
chk_SignalType(T1,T2) ->
throw({wrong_type,{signalType,T1,T2}}).
chk_opt_duration(asn1_NOVALUE,asn1_NOVALUE) ->
{equal,duration};
chk_opt_duration(D1,D2) ->
chk_duration(D1,D2).
chk_duration(D,D) when is_integer(D) ->
{equal,duration};
chk_duration(D1,D2) when is_integer(D1) andalso is_integer(D2) ->
throw({not_equal,{duration,D1,D2}});
chk_duration(D1,D2) ->
throw({wrong_type,{duration,D1,D2}}).
chk_opt_NotifyCompletion(asn1_NOVALUE,asn1_NOVALUE) ->
{equal,notifyCompletion};
chk_opt_NotifyCompletion(N1,N2) ->
chk_NotifyCompletion(N1,N2).
chk_NotifyCompletion([],[]) ->
{equal,notifyCompletion};
chk_NotifyCompletion([Item1|Items1],[Item2|Items2]) ->
chk_NotifyCompletion1(Item1,Item2),
chk_NotifyCompletion(Items1,Items2);
chk_NotifyCompletion(C1,C2) ->
throw({wrong_type,{notifyCompletion,C1,C2}}).
chk_NotifyCompletion1(onTimeOut,onTimeOut) ->
{equal,notifyCompletion_part};
chk_NotifyCompletion1(onInterruptByEvent,onInterruptByEvent) ->
{equal,notifyCompletion_part};
chk_NotifyCompletion1(onInterruptByNewSignalDescr,onInterruptByNewSignalDescr) ->
{equal,notifyCompletion_part};
chk_NotifyCompletion1(otherReason,otherReason) ->
{equal,notifyCompletion_part};
chk_NotifyCompletion1(C1,C2) ->
throw({wrong_type,{notifyCompletion_part,C1,C2}}).
chk_opt_keepAlive(asn1_NOVALUE,asn1_NOVALUE) ->
{equal,keepAlive};
chk_opt_keepAlive(K1,K2) ->
chk_keepAlive(K1,K2).
chk_keepAlive(true,true) ->
ok;
chk_keepAlive(false,false) ->
ok;
chk_keepAlive(K1,K2) ->
wrong_type({keepAlive,K1,K2}).
chk_ServiceChangeParm(P,P) when is_record(P,'ServiceChangeParm') ->
ok;
chk_ServiceChangeParm(#'ServiceChangeParm'{serviceChangeMethod = M1,
serviceChangeAddress = A1,
serviceChangeVersion = V1,
serviceChangeProfile = P1,
serviceChangeReason = R1,
serviceChangeDelay = D1,
serviceChangeMgcId = Mid1,
timeStamp = T1} = P1,
#'ServiceChangeParm'{serviceChangeMethod = M2,
serviceChangeAddress = A2,
serviceChangeVersion = V2,
serviceChangeProfile = P2,
serviceChangeReason = R2,
serviceChangeDelay = D2,
serviceChangeMgcId = Mid2,
timeStamp = T2} = P2) ->
M1 = M2,
A1 = A2,
V1 = V2,
P1 = P2,
R1 = R2,
D1 = D2,
Mid1 = Mid2,
T1 = T2,
equal({'ServiceChangeParm',P1,P2});
chk_ServiceChangeParm(P1,P2) ->
wrong_type({'ServiceChangeParm',P1,P2}).
chk_sigParameters(S1,S2)
when is_list(S1) andalso is_list(S2) andalso (length(S1) =:= length(S2)) ->
chk_sigParameters1(S1,S2);
chk_sigParameters(S1,S2) ->
wrong_type({sigParameters,S1,S2}).
chk_sigParameters1([],[]) ->
ok;
chk_sigParameters1([H1|T1],[H2|T2]) ->
chk_sigParameter(H1,H2),
chk_sigParameters1(T1,T2);
chk_sigParameters1(P1,P2) ->
wrong_type({sigParameters,P1,P2}).
chk_sigParameter(#'SigParameter'{sigParameterName = N1,
value = V1,
extraInfo = E1},
#'SigParameter'{sigParameterName = N2,
value = V2,
extraInfo = E2}) ->
N1 = N2,
chk_Value(V1,V2),
chk_opt_extraInfo(E1,E2),
ok;
chk_sigParameter(P1,P2) ->
wrong_type({'SigParameter',P1,P2}).
chk_opt_StreamId(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_StreamId(I1,I2) ->
chk_StreamId(I1,I2).
chk_StreamId(I,I) when is_integer(I) ->
ok;
chk_StreamId(I1,I2) when is_integer(I1) andalso is_integer(I2) ->
not_equal({streamId,I1,I2});
chk_StreamId(I1,I2) ->
wrong_type({streamId,I1,I2}).
chk_EventParameters(EP1,EP2)
when is_list(EP1) andalso is_list(EP2) andalso (length(EP1) =:= length(EP2)) ->
chk_EventParameters1(EP1,EP2);
chk_EventParameters(EP1,EP2) ->
wrong_type({eventParameters,EP1,EP2}).
chk_EventParameters1([],[]) ->
ok;
chk_EventParameters1([EP1|EPS1],[EP2|EPS2]) ->
chk_EventParameter(EP1,EP2),
chk_EventParameters1(EPS1,EPS2).
chk_EventParameter(EP,EP) when is_record(EP,'EventParameter') ->
ok;
chk_EventParameter(#'EventParameter'{eventParameterName = N1,
value = V1,
extraInfo = E1} = EP1,
#'EventParameter'{eventParameterName = N2,
value = V2,
extraInfo = E2} = EP2) ->
N1 = N2,
chk_Value(V1,V2),
chk_opt_extraInfo(E1,E2),
equal({'EventParameter',EP1,EP2});
chk_EventParameter(EP1,EP2) ->
wrong_type({'EventParameter',EP1,EP2}).
chk_Value(V,V) when is_list(V) ->
chk_Value(V);
chk_Value(V1,V2)
when is_list(V1) andalso is_list(V2) andalso (length(V1) =:= length(V2)) ->
chk_Value1(V1,V2);
chk_Value(V1,V2) ->
wrong_type({value,V1,V2}).
chk_Value([]) ->
ok;
chk_Value([H|T]) when is_list(H) ->
chk_Value(T);
chk_Value([H|_T]) ->
wrong_type({value_part,H}).
chk_Value1([],[]) ->
ok;
chk_Value1([H|T1],[H|T2]) when is_list(H) ->
chk_Value1(T1,T2);
chk_Value1([H|_T1],[H|_T2]) ->
wrong_type({value_part,H});
chk_Value1([H1|_T1],[H2|_T2]) when is_list(H1) andalso is_list(H2) ->
not_equal({value_part,H1,H2});
chk_Value1(V1,V2) ->
wrong_type({value,V1,V2}).
chk_opt_extraInfo(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_extraInfo(E1,E2) ->
chk_extraInfo(E1,E2).
chk_extraInfo({relation,greaterThan},{relation,greaterThan}) ->
ok;
chk_extraInfo({relation,smallerThan},{relation,smallerThan}) ->
ok;
chk_extraInfo({relation,unequalTo},{relation,unequalTo}) ->
ok;
chk_extraInfo({range,true},{range,true}) ->
ok;
chk_extraInfo({range,false},{range,false}) ->
ok;
chk_extraInfo({sublist,true},{sublist,true}) ->
ok;
chk_extraInfo({sublist,false},{sublist,false}) ->
ok;
chk_extraInfo(E1,E2) ->
wrong_type({extraInfo,E1,E2}).
chk_opt_transactionId(asn1_NOVALUE,asn1_NOVALUE) ->
ok;
chk_opt_transactionId(Id1,Id2) ->
chk_transactionId(Id1,Id2).
chk_transactionId(Id,Id) when is_integer(Id) ->
ok;
chk_transactionId(Id1,Id2) when is_integer(Id1) andalso is_integer(Id2) ->
not_equal({transactionId,Id1,Id2});
chk_transactionId(Id1,Id2) ->
wrong_type({transactionId,Id1,Id2}).
chk_terminationIds(Tids1,Tids2)
when is_list(Tids1) andalso is_list(Tids2) andalso (length(Tids1) =:= length(Tids2)) ->
chk_terminationIds1(Tids1,Tids2);
chk_terminationIds(Tids1,Tids2) ->
wrong_type({terminationIds,Tids1,Tids2}).
chk_terminationIds1([],[]) ->
ok;
chk_terminationIds1([Tid1|Tids1],[Tid2|Tids2]) ->
chk_terminationId(Tid1,Tid2),
chk_terminationIds1(Tids1,Tids2).
chk_terminationId(Id,Id) when is_record(Id,'TerminationID') ->
ok;
chk_terminationId(Id,Id) when is_record(Id,megaco_term_id) ->
ok;
chk_terminationId(#'TerminationID'{wildcard = W1,
id = I1} = Tid1,
#'TerminationID'{wildcard = W2,
id = I2} = Tid2) ->
chk_terminationId_wildcard(W1,W2),
chk_terminationId_id(I1,I2),
equal({'TerminationID',Tid1,Tid2});
chk_terminationId(#megaco_term_id{contains_wildcards = W1,
id = I1} = Tid1,
#megaco_term_id{contains_wildcards = W2,
id = I2} = Tid2) ->
chk_terminationId_wildcard(W1,W2),
chk_terminationId_id(I1,I2),
equal({megaco_term_id,Tid1,Tid2});
chk_terminationId(Tid1,Tid2) ->
wrong_type({terminationId,Tid1,Tid2}).
chk_terminationId_wildcard(W,W) ->
ok;
chk_terminationId_wildcard(W1,W2) ->
not_equal({terminationId_wildcard,W1,W2}).
chk_terminationId_id(I,I) ->
ok;
chk_terminationId_id(I1,I2) ->
not_equal({terminationId_id,I1,I2}).
equal(What) ->
error({equal, What}).
not_equal(What) ->
error({not_equal, What}).
wrong_type(What) ->
error({wrong_type, What}).
error(Reason) ->
throw({error, Reason}).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
cre_MegacoMessage(Mess) ->
?MSG_LIB:cre_MegacoMessage(Mess).
cre_megacoMessage(V, Mid, Body) ->
#'MegacoMessage'{mess = #'Message'{version = V,
mId = Mid,
messageBody = Body}}.
cre_Msg(Mid, Body) ->
cre_Msg(?VERSION, Mid, Body).
cre_Msg(V, Mid, Body) ->
?MSG_LIB:cre_Message(V, Mid, Body).
cre_authHeader() ->
SecParmIdx = [239, 205, 171, 137],
SeqNum = [18, 52, 86, 120],
AD = [18, 52, 86, 120, 137, 171, 205, 239, 118, 84, 50, 16],
cre_authHeader(SecParmIdx, SeqNum, AD).
cre_authHeader(Idx, Num, D) ->
#'AuthenticationHeader'{secParmIndex = Idx,
seqNum = Num,
ad = D}.
cre_TransId(TransId) ->
?MSG_LIB:cre_TransactionId(TransId).
cre_Trans(Trans) ->
?MSG_LIB:cre_Transaction(Trans).
cre_TransReq(TransId, Actions) ->
?MSG_LIB:cre_TransactionRequest(TransId, Actions).
cre_transactionReply(TransId, Actions) ->
#'TransactionReply'{transactionId = TransId,
transactionResult = {actionReplies, Actions}}.
cre_transactionAck(Serial, Serial) ->
#'TransactionAck'{firstAck = Serial};
cre_transactionAck(First, Last) ->
#'TransactionAck'{firstAck = First, lastAck = Last}.
cre_ActReq(CtxId, CmdReqs) ->
?MSG_LIB:cre_ActionRequest(CtxId, CmdReqs).
cre_actionReply(CtxId, CmdReply) ->
#'ActionReply'{contextId = CtxId,
commandReply = CmdReply}.
cre_CtxID(Id) ->
?MSG_LIB:cre_ContextID(Id).
%% Parameter related
cre_propertyParm(Name, Val) ->
#'PropertyParm'{name = Name, value = [Val]}.
%% Statistics related
cre_statisticsParm(Name, Val) ->
#'StatisticsParameter'{statName = Name, statValue = [Val]}.
% Event related
cre_eventParm(Name, Val) ->
#'EventParameter'{eventParameterName = Name, value = Val}.
cre_observedEvent(Name, Not) ->
#'ObservedEvent'{eventName = Name, timeNotation = Not}.
cre_observedEvent(Name, Not, Par) ->
#'ObservedEvent'{eventName = Name, timeNotation = Not, eventParList = Par}.
cre_requestedEvent(Name) ->
#'RequestedEvent'{pkgdName = Name}.
cre_requestedEvent(Name, ParList) when is_list(ParList) ->
#'RequestedEvent'{pkgdName = Name, evParList = ParList};
cre_requestedEvent(Name, Action) when is_tuple(Action) ->
#'RequestedEvent'{pkgdName = Name, eventAction = Action}.
cre_observedEventsDesc(Id, EvList) ->
#'ObservedEventsDescriptor'{requestId = Id, observedEventLst = EvList}.
cre_eventsDesc(Id, EvList) ->
#'EventsDescriptor'{requestID = Id, eventList = EvList}.
%% Service change related
cre_serviceChangeParm(M,A,R,P) ->
#'ServiceChangeParm'{serviceChangeMethod = M, serviceChangeAddress = A,
serviceChangeReason = R, serviceChangeProfile = P}.
cre_serviceChangeResParm(A,P) ->
#'ServiceChangeResParm'{serviceChangeAddress = A,
serviceChangeProfile = P}.
cre_serviceChangeReq(Tid, P) ->
#'ServiceChangeRequest'{terminationID = Tid, serviceChangeParms = P}.
cre_serviceChangeProf(Name, Ver) when is_list(Name) andalso is_integer(Ver) ->
#'ServiceChangeProfile'{profileName = Name, version = Ver}.
cre_serviceChangeReply(Tid, Res) ->
#'ServiceChangeReply'{terminationID = Tid, serviceChangeResult = Res}.
%% Stream related
cre_streamParms(Lcd) ->
#'StreamParms'{localControlDescriptor = Lcd}.
cre_streamParms(Lcd, Ld) ->
#'StreamParms'{localControlDescriptor = Lcd, localDescriptor = Ld}.
cre_streamParms(Lcd, Ld, Rd) ->
#'StreamParms'{localControlDescriptor = Lcd,
localDescriptor = Ld,
remoteDescriptor = Rd}.
cre_streamParmsL(Ld) ->
#'StreamParms'{localDescriptor = Ld}.
cre_streamParmsR(Rd) ->
#'StreamParms'{remoteDescriptor = Rd}.
cre_streamDesc(Id, P) ->
#'StreamDescriptor'{streamID = Id, streamParms = P}.
%% "Local" related
cre_localControlDesc(Mode) ->
#'LocalControlDescriptor'{streamMode = Mode}.
cre_localControlDesc(Mode, Parms) ->
#'LocalControlDescriptor'{streamMode = Mode, propertyParms = Parms }.
cre_localRemoteDesc(Grps) ->
#'LocalRemoteDescriptor'{propGrps = Grps}.
%% DigitMap related
cre_digitMapDesc(Value) when is_record(Value, 'DigitMapValue') ->
#'DigitMapDescriptor'{digitMapValue = Value};
cre_digitMapDesc(Name) ->
#'DigitMapDescriptor'{digitMapName = Name}.
cre_digitMapDesc(Name, Val) ->
#'DigitMapDescriptor'{digitMapName = Name, digitMapValue = Val}.
cre_digitMapValue(Body) ->
#'DigitMapValue'{digitMapBody = Body}.
cre_digitMapValue(Body, Start, Short, Long) ->
#'DigitMapValue'{startTimer = Start,
shortTimer = Short,
longTimer = Long,
digitMapBody = Body}.
%% Media related
cre_mediaDesc(StreamDesc) ->
#'MediaDescriptor'{streams = {multiStream, [StreamDesc]}}.
%% Notify related
cre_notifyReq(Tid, EvsDesc) ->
#'NotifyRequest'{terminationID = Tid, observedEventsDescriptor = EvsDesc}.
cre_notifyReply(Tid) ->
#'NotifyReply'{terminationID = Tid}.
%% Subtract related
cre_subtractReq(Tid, Desc) ->
#'SubtractRequest'{terminationID = Tid, auditDescriptor = Desc}.
%% Audit related
cre_auditDesc(Tokens) ->
#'AuditDescriptor'{auditToken = Tokens}.
cre_auditReq(Tid, Desc) ->
#'AuditRequest'{terminationID = Tid, auditDescriptor = Desc}.
cre_auditRes(Tid, Res) ->
#'AuditResult'{terminationID = Tid, terminationAuditResult = Res}.
%% AMM/AMMS related
cre_ammReq(Tid, Descs) ->
#'AmmRequest'{terminationID = Tid, descriptors = Descs}.
cre_ammsReply(Tid) ->
#'AmmsReply'{terminationID = Tid}.
cre_ammsReply(Tid, Descs) ->
#'AmmsReply'{terminationID = Tid, terminationAudit = Descs}.
%% Command related
cre_commandReq(Cmd) ->
#'CommandRequest'{command = Cmd}.
%% Actions related
cre_requestedActions(DmName) ->
#'RequestedActions'{eventDM = {digitMapName, DmName}}.
%% Signal related
cre_signal(Name) ->
#'Signal'{signalName = Name}.
%% Others
cre_timeNotation(D,T) ->
#'TimeNotation'{date = D, time = T}.
cre_packagesItem(_Name, _Ver) ->
#'PackagesItem'{packageName = "nt", packageVersion = 1}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
flex_init(Config) ->
megaco_codec_flex_lib:init(Config).
flex_finish(Config) ->
megaco_codec_flex_lib:finish(Config).
flex_scanner_conf(Config) ->
megaco_codec_flex_lib:scanner_conf(Config).
start_flex_scanner() ->
megaco_codec_flex_lib:start().
stop_flex_scanner(Pid) ->
megaco_codec_flex_lib:stop(Pid).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
t(F,A) ->
p(printable(get(severity),trc),trc,F,A).
d(F,A) ->
p(printable(get(severity),dbg),dbg,F,A).
l(F,A) ->
p(printable(get(severity),log),log,F,A).
e(F,A) ->
p(printable(get(severity),err),err,F,A).
printable(trc,_) ->
true;
printable(dbg,trc) ->
false;
printable(dbg,_) ->
true;
printable(log,log) ->
true;
printable(log,err) ->
true;
printable(err,err) ->
true;
printable(_,_) ->
false.
p(true,L,F,A) ->
io:format("~s: " ++ F ++ "~n", [image_of(L)|A]);
p(_,_,_,_) ->
ok.
image_of(trc) ->
"T";
image_of(dbg) ->
"D";
image_of(log) ->
"L";
image_of(err) ->
"E";
image_of(L) ->
io_lib:format("~p",[L]).