%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2001-2009. 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:
%%----------------------------------------------------------------------
-module(megaco_binary_term_id_test).
%%----------------------------------------------------------------------
%% Include files
%%----------------------------------------------------------------------
-include_lib("megaco/include/megaco.hrl").
-include_lib("megaco/src/engine/megaco_message_internal.hrl").
%%----------------------------------------------------------------------
%% External exports
%%----------------------------------------------------------------------
-export([t/0]).
%% Test suite exports
-export([all/1, encode_first/1, decode_first/1,
init_per_testcase/2, fin_per_testcase/2]).
%%----------------------------------------------------------------------
%% Internal exports
%%----------------------------------------------------------------------
-export([te01/1,te02/1,te03/1,te04/1,te05/1,
te06/1,te07/1,te08/1,te09/1,te10/1,
te11/1,te12/1,te13/1,te14/1,te15/1,
te16/1,te17/1,te18/1,te19/1]).
-export([td01/1,td02/1,td03/1,td04/1,td05/1,td06/1]).
%% ---------------------------------------------------------------------
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Top test case
all(suite) ->
[
encode_first,
decode_first
].
encode_first(suite) ->
encode_first_cases().
decode_first(suite) ->
decode_first_cases().
%% Test server callbacks
init_per_testcase(Case, Config) ->
megaco_test_lib:init_per_testcase(Case, Config).
fin_per_testcase(Case, Config) ->
megaco_test_lib:fin_per_testcase(Case, Config).
%%======================================================================
%% External functions
%%======================================================================
t() ->
display([do(Case) || Case <- cases()]),
ok.
cases() -> encode_first_cases() ++ decode_first_cases().
encode_first_cases() -> [te01,te02,te03,te04,te05,
te06,te07,te08,te09,te10,
te11,te12,te13,te14,te15,
te16,te17,te18,te19].
decode_first_cases() -> [td01,td02,td03,td04,td05,td06].
do(Case) ->
case doc(Case) of
{'EXIT',_} ->
{Case,error};
Description ->
io:format("test case ~p~n",[Case]),
case suite(Case) of
{'EXIT',Reason} ->
Res = check_result(Case,Description,ok,{error,Reason}),
{Case,Res};
{Expected,Result} ->
Res = check_result(Case,Description,Expected,Result),
{Case,Res}
end
end.
doc(Case) -> (catch apply(?MODULE,Case,[doc])).
suite(Case) -> (catch apply(?MODULE,Case,[])).
display(R) ->
[display(Case,Result) || {Case,Result} <- R].
display(C,error) ->
io:format("Test case ~p failed~n",[C]);
display(C,warning) ->
io:format("Test case ~p conspicuous~n",[C]);
display(C,ok) ->
io:format("Test case ~p succeeded~n",[C]).
check(D,ok,{ok,T1,T2,T3}) ->
Result = case check_ok_result(T1,T3) of
ok ->
ok;
{error,Reason} ->
io:format(" => inconsistent result"
"~n Start and end record differ"
"~n ~s"
"~n ~s"
"~n ~w"
"~n",
[D,Reason,T2]),
warning
end,
Result;
check(D,error,{ok,T1,T2,T3}) ->
io:format(" => failed"
"~n ~s"
"~n ~p"
"~n ~p"
"~n ~p"
"~n",
[D,T1,T2,T3]),
error;
check(_D,error,{error,_Reason}) ->
ok;
check(D,ok,{error,Reason}) ->
io:format(" => failed"
"~n ~s"
"~n Failed for reason"
"~n ~p"
"~n",
[D,Reason]),
error.
check_result(_C,D,ok,{ok,T1,T2,T3}) ->
Result = case check_ok_result(T1,T3) of
ok ->
io:format(" => succeeded"
"~n ~s"
"~n ~p"
"~n ~w"
"~n ~p",
[D,T1,T2,T3]),
ok;
{error,Reason} ->
io:format(" => inconsistent result"
"~n Start and end record differ"
"~n ~s"
"~n ~s"
"~n ~w",
[D,Reason,T2]),
warning
end,
io:format("~n~n--------------------~n",[]),
Result;
check_result(_C,D,error,{ok,T1,T2,T3}) ->
io:format(" => failed"
"~n ~s"
"~n ~p"
"~n ~p"
"~n ~p"
"~n~n--------------------~n",
[D,T1,T2,T3]),
error;
check_result(_C,D,error,{error,Reason}) ->
io:format(" => succeeded"
"~n ~s"
"~n Operation failed (expectedly) for reason"
"~n ~p"
"~n~n--------------------~n",
[D,Reason]),
ok;
check_result(_C,D,ok,{error,Reason}) ->
io:format(" => failed"
"~n ~s"
"~n Failed for reason"
"~n ~p"
"~n~n--------------------~n",
[D,Reason]),
error.
check_ok_result(R,R) when is_record(R,megaco_term_id) ->
ok; % Same record type and same record content
check_ok_result(S,E) when is_record(S,megaco_term_id) andalso
is_record(E,megaco_term_id) ->
Reason = check_megaco_term_id_record(S,E),
{error,Reason}; % Same record type but different record content
check_ok_result(R,R) when is_record(R,'TerminationID') ->
ok;
check_ok_result(S,E) when is_record(S,'TerminationID') andalso
is_record(E,'TerminationID') ->
Reason = check_TerminationID_record(S,E),
{error,Reason}; % Same record type but different record content
check_ok_result(_S,_E) ->
{error,"NOT THE SAME RECORD TYPES"}. % OOPS, Not even the same record type
check_megaco_term_id_record(#megaco_term_id{contains_wildcards = Cw1,
id = Id1},
#megaco_term_id{contains_wildcards = Cw2,
id = Id2}) ->
Result = case check_megaco_term_id_cw(Cw1,Cw2) of
ok ->
check_megaco_term_id_id(Id1,Id2);
{error,R1} ->
R2 = check_megaco_term_id_id(Id1,Id2),
io_lib:format("~s~s",[R1,R2])
end,
lists:flatten(Result).
check_megaco_term_id_cw(Cw,Cw) ->
ok;
check_megaco_term_id_cw(Cw1,Cw2) ->
R = io_lib:format("~n The 'contains_wildcard' property of the start"
"~n megaco_term_id record "
"~n has value ~w "
"~n but the end record "
"~n has value ~w",
[Cw1,Cw2]),
{error,R}.
check_megaco_term_id_id(Id,Id) ->
ok;
check_megaco_term_id_id(Id1,Id2) ->
R = io_lib:format("~n The 'id' property of the start"
"~n megaco_term_id record "
"~n has value ~w "
"~n but the end record "
"~n has value ~w",
[Id1,Id2]),
{error,R}.
check_TerminationID_record(#'TerminationID'{wildcard = W1, id = Id1},
#'TerminationID'{wildcard = W2, id = Id2}) ->
Result = case check_TerminationID_w(W1,W2) of
ok ->
check_TerminationID_id(Id1,Id2);
{error,R1} ->
R2 = check_TerminationID_id(Id1,Id2),
io_lib:format("~s~s",[R1,R2])
end,
lists:flatten(Result).
check_TerminationID_w(W,W) ->
ok;
check_TerminationID_w(W1,W2) ->
R = io_lib:format("~n The 'wildcard' property of the start"
"~n 'TerminationID' record "
"~n has value ~w "
"~n but the end record "
"~n has value ~w",
[W1,W2]),
{error,R}.
check_TerminationID_id(Id,Id) ->
ok;
check_TerminationID_id(Id1,Id2) ->
R = io_lib:format("~n The 'id' property of the start"
"~n 'TerminationID' record "
"~n has value ~w "
"~n but the end record "
"~n has value ~w",
[Id1,Id2]),
{error,R}.
%% --------------------------------------------------------
%% Start test cases
%% --------------------------------------------------------
%% basic_enc_dec01
te01(doc) ->
"Basic encoding & then decoding test [1,1]\n (asn -> binary -> asn)";
te01(suite) ->
[];
te01(Config) when is_list(Config) ->
{Exp,Res} = te01(),
ok = check(te01(doc),Exp,Res).
te01() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid01()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec02
te02(doc) ->
"Basic encoding & then decoding test [1,2]";
te02(suite) ->
[];
te02(Config) when is_list(Config) ->
{Exp,Res} = te02(),
ok = check(te02(doc),Exp,Res).
te02() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid02()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec03
te03(doc) ->
"Basic encoding & then decoding test [1,3]";
te03(suite) ->
[];
te03(Config) when is_list(Config) ->
{Exp,Res} = te03(),
ok = check(te03(doc),Exp,Res).
te03() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid03()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec04
te04(doc) ->
"Basic encoding & then decoding test [1,4]\n (asn -> binary -> asn)";
te04(suite) ->
[];
te04(Config) when is_list(Config) ->
{Exp,Res} = te04(),
ok = check(te04(doc),Exp,Res).
te04() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid04()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec05
te05(doc) ->
"Basic encoding & then decoding test [1,5]\n (asn -> binary -> asn)";
te05(suite) ->
[];
te05(Config) when is_list(Config) ->
{Exp,Res} = te05(),
ok = check(te05(doc),Exp,Res).
te05() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid05()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% no_wildcard_spec_but_fond_some_enc_dec
te06(doc) ->
"Specified NO wildcards, but found some just the same [1,6]\n (asn -> binary -> asn)";
te06(suite) ->
[];
te06(Config) when is_list(Config) ->
{Exp,Res} = te06(),
ok = check(te06(doc),Exp,Res).
te06() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid06()),
erase(encode_debug),
erase(decode_debug),
{error,Res}.
%% --------------------------------------------------------
%% invalid_char_enc_dec
te07(doc) ->
"Invalid character found (2) [1,7]\n (asn -> binary -> asn)";
te07(suite) ->
[];
te07(Config) when is_list(Config) ->
{Exp,Res} = te07(),
ok = check(te07(doc),Exp,Res).
te07() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid07()),
erase(encode_debug),
erase(decode_debug),
{error,Res}.
%% --------------------------------------------------------
%% erroneous_first_level_length_enc_dec01
te08(doc) ->
"Erroneous length of first level (a character after wildcard) [1,8]\n (asn -> binary -> asn)";
te08(suite) ->
[];
te08(Config) when is_list(Config) ->
{Exp,Res} = te08(),
ok = check(te08(doc),Exp,Res).
te08() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid08()),
erase(encode_debug),
erase(decode_debug),
{error,Res}.
%% --------------------------------------------------------
%% erroneous_first_level_length_enc_dec02
te09(doc) ->
"Erroneous length of first level (a character after last valid) [1,9]\n (asn -> binary -> asn)";
te09(suite) ->
[];
te09(Config) when is_list(Config) ->
{Exp,Res} = te09(),
ok = check(te09(doc),Exp,Res).
te09() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid09()),
erase(encode_debug),
erase(decode_debug),
{error,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard01
te10(doc) ->
"Basic encode & decode with one recursive wildcard [1,10]\n (asn -> binary -> asn)\n (NOTE THAT THIS SHOULD LATER BE A LEVEL WILDCARD)";
te10(suite) ->
[];
te10(Config) when is_list(Config) ->
{Exp,Res} = te10(),
ok = check(te10(doc),Exp,Res).
te10() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid10()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard02
te11(doc) ->
"Basic encode & decode with one recursive wildcard [1,11]\n (asn -> binary -> asn)";
te11(suite) ->
[];
te11(Config) when is_list(Config) ->
{Exp,Res} = te11(),
ok = check(te11(doc),Exp,Res).
te11() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid11()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard03
te12(doc) ->
"Basic encode & decode with one recursive wildcard [1,12]\n (asn -> binary -> asn)";
te12(suite) ->
[];
te12(Config) when is_list(Config) ->
{Exp,Res} = te12(),
ok = check(te12(doc),Exp,Res).
te12() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid12()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard04
te13(doc) ->
"Basic encode & decode with one recursive wildcard [1,13]\n (asn -> binary -> asn)";
te13(suite) ->
[];
te13(Config) when is_list(Config) ->
{Exp,Res} = te13(),
ok = check(te13(doc),Exp,Res).
te13() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid13()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard05
te14(doc) ->
"Basic encode & decode with one recursive wildcard [2,13]\n (asn -> binary -> asn)";
te14(suite) ->
[];
te14(Config) when is_list(Config) ->
{Exp,Res} = te14(),
ok = check(te14(doc),Exp,Res).
te14() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config2(),mtid13()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_wildcard_1level
te15(doc) ->
"Basic encode & decode with one wildcard in the first level\nand then one empty level [1,15]\n (asn -> binary -> asn)";
te15(suite) ->
[];
te15(Config) when is_list(Config) ->
{Exp,Res} = te15(),
ok = check(te15(doc),Exp,Res).
te15() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config1(),mtid15()),
erase(encode_debug),
erase(decode_debug),
{error,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard06
te16(doc) ->
"Basic encode & decode with one recursive wildcard [2,15]\n (asn -> binary -> asn)";
te16(suite) ->
[];
te16(Config) when is_list(Config) ->
{Exp,Res} = te16(),
ok = check(te16(doc),Exp,Res).
te16() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config2(),mtid15()),
erase(encode_debug),
erase(decode_debug),
{error,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard07
te17(doc) ->
"Basic encode & decode with one recursive wildcard [2,11]\n (asn -> binary -> asn)";
te17(suite) ->
[];
te17(Config) when is_list(Config) ->
{Exp,Res} = te17(),
ok = check(te17(doc),Exp,Res).
te17() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config2(),mtid11()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard08
te18(doc) ->
"Basic encode & decode with one recursive wildcard [4,16]\n (asn -> binary -> asn)";
te18(suite) ->
[];
te18(Config) when is_list(Config) ->
{Exp,Res} = te18(),
ok = check(te18(doc),Exp,Res).
te18() ->
put(encode_debug,dbg),
put(decode_debug,dbg),
Res = encode_decode(config4(),mtid16()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_enc_dec_with_one_rec_wildcard09
te19(doc) ->
"Basic encode & decode with one recursive wildcard [4,17]\n (asn -> binary -> asn)";
te19(suite) ->
[];
te19(Config) when is_list(Config) ->
{Exp,Res} = te19(),
ok = check(te19(doc),Exp,Res).
te19() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = encode_decode(config4(),mtid17()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% root_term_dec_enc
td01(doc) ->
"Root termination decoding & then encoding test [1,1]\n (binary -> asn -> binary)";
td01(suite) ->
[];
td01(Config) when is_list(Config) ->
{Exp,Res} = td01(),
ok = check(td01(doc),Exp,Res).
td01() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = decode_encode(config1(),atid1()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% One byte to much (should be two bytes but is three)
%% basic_dec_enc01
td02(doc) ->
"Basic decoding & then encoding test [1,2]\n (binary -> asn -> binary)";
td02(suite) ->
[];
td02(Config) when is_list(Config) ->
{Exp,Res} = td02(),
ok = check(td02(doc),Exp,Res).
td02() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = decode_encode(config1(),atid2()),
erase(encode_debug),
erase(decode_debug),
{error,Res}.
%% --------------------------------------------------------
%% basic_dec_enc02
td03(doc) ->
"Basic decoding & then encoding test [2,2]\n (binary -> asn -> binary)";
td03(suite) ->
[];
td03(Config) when is_list(Config) ->
{Exp,Res} = td03(),
ok = check(td03(doc),Exp,Res).
td03() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = decode_encode(config2(),atid2()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_dec_enc03
td04(doc) ->
"Basic decoding & then encoding test [2,3]\n (binary -> asn -> binary)";
td04(suite) ->
[];
td04(Config) when is_list(Config) ->
{Exp,Res} = td04(),
ok = check(td04(doc),Exp,Res).
td04() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = decode_encode(config2(),atid3()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_dec_enc04
td05(doc) ->
"Basic decoding & then encoding test [2,4]\n (binary -> asn -> binary)";
td05(suite) ->
[];
td05(Config) when is_list(Config) ->
{Exp,Res} = td05(),
ok = check(td05(doc),Exp,Res).
td05() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = decode_encode(config2(),atid4()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% basic_dec_enc05
td06(doc) ->
"Basic decoding & then encoding test [3,5]\n (binary -> asn -> binary)";
td06(suite) ->
[];
td06(Config) when is_list(Config) ->
{Exp,Res} = td06(),
ok = check(td06(doc),Exp,Res).
td06() ->
%% put(encode_debug,dbg),
%% put(decode_debug,dbg),
Res = decode_encode(config3(),atid5()),
erase(encode_debug),
erase(decode_debug),
{ok,Res}.
%% --------------------------------------------------------
%% --------------------------------------------------------
encode_decode(C,T) ->
case encode(C,T) of
{ok,T1} ->
case decode(C,T1) of
{ok,T2} ->
{ok,T,T1,T2};
{error,R2} ->
{error,{decode_error,T,T1,R2}};
{exit,E2} ->
{error,{decode_exit,T,T1,E2}}
end;
{error,R1} ->
{error,{encode_error,T,R1}};
{exit,E1} ->
{error,{encode_exit,T,E1}}
end.
decode_encode(C,T) ->
case decode(C,T) of
{ok,T1} ->
case encode(C,T1) of
{ok,T2} ->
{ok,T,T1,T2};
{error,R2} ->
{error,{encode_error,T,T1,R2}};
{exit,E2} ->
{error,{encode_exit,T,T1,E2}}
end;
{error,R1} ->
{error,{decode_error,T,R1}};
{exit,E1} ->
{error,{decode_exit,T,E1}}
end.
%% ------------------
config1() -> [3,8,5].
config2() -> [3,5,4,8,4].
config3() -> [3,5,4,16,4].
config4() -> [8,8,8]. % Default config
mtid01() ->
#megaco_term_id{contains_wildcards = false,
id = [[$1,$0,$1],
[$1,$1,$0,$1,$0,$0,$0,$1],
[$1,$1,$0,$1,$1]]}.
mtid02() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$$],[$1,$1,$0,$1,$$],[$1,$1,$*]]}.
mtid03() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$1],[$1,$0,$1,$$],[$1,$1,$*]]}.
mtid04() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$$],[$1,$1,$0,$1,$$],[$1,$1,$1,$0,$0]]}.
mtid05() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$1],[$1,$1,$0,$1,$$],[$1,$1,$1,$0,$0]]}.
mtid06() ->
#megaco_term_id{contains_wildcards = false,
id = [[$1,$0,$$],[$1,$1,$0,$1,$$],[$1,$1,$*]]}.
mtid07() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$*],[$1,2,$0,$1,$$],[$1,$1,$1,$0,$0]]}.
mtid08() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$*,$1],[$1,$1,$0,$1,$$],[$1,$1,$1,$0,$0]]}.
mtid09() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$0,$1],[$1,$1,$0,$1,$$],[$1,$1,$1,$0,$0]]}.
mtid10() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$1],[$1,$0,$1,$$],[$$]]}.
mtid11() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$1],[$1,$0,$1,$$]]}.
mtid12() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$1],[$1,$0,$1,$0,$1,$1,$$]]}.
mtid13() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$*]]}.
%% Empty last level
%% mtid14() ->
%% #megaco_term_id{contains_wildcards = true,
%% id = [[$1,$0,$*],[$1,$0,$0,$$],[]]}.
%% Empty second level and missing last level
mtid15() ->
#megaco_term_id{contains_wildcards = true,
id = [[$1,$0,$*],[]]}.
%% Megaco all wildcard termination id
mtid16() ->
#megaco_term_id{contains_wildcards = true,
id = [[?megaco_all]]}.
%% Megaco choose wildcard termination id
mtid17() ->
#megaco_term_id{contains_wildcards = true,
id = [[?megaco_choose]]}.
aroot() ->
#'TerminationID'{wildcard = [],
id = [16#FF, 16#FF, 16#FF, 16#FF,
16#FF, 16#FF, 16#FF, 16#FF]}.
atid1() -> aroot().
atid2() ->
#'TerminationID'{wildcard = [],
id = [2#00000001, 02#00011110, 2#0]}.
atid3() ->
#'TerminationID'{wildcard = [[2#00010111], [2#00000111]],
id = [2#0, 2#00011110, 2#0]}.
atid4() ->
#'TerminationID'{wildcard = [[2#01001111]],
id = [2#0000001, 2#0, 2#0]}.
%%
atid5() ->
#'TerminationID'{wildcard = [[2#01001111]],
id = [2#00000001, 2#00110011,
2#00000000, 2#00000000]}.
%%--
%% ------------------
encode(C,T) ->
encode(get(encode_debug),C,T).
encode(L,C,T) ->
put(dsev,L),
Res = encode1(C,T),
erase(dsev),
Res.
encode1(C,T) ->
case (catch megaco_binary_term_id:encode(C,T)) of
{'EXIT',Reason} ->
{exit,Reason};
Else ->
Else
end.
decode(C,T) ->
decode(get(decode_debug),C,T).
decode(L,C,T) ->
put(dsev,L),
Res = decode1(C,T),
erase(dsev),
Res.
decode1(C,T) ->
case (catch megaco_binary_term_id:decode(C,T)) of
{'EXIT',Reason} ->
{exit,Reason};
Else ->
Else
end.