%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2010-2013. 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%
%%
%%
%% Tests of the dictionary file compiler.
%%
-module(diameter_compiler_SUITE).
-export([suite/0,
all/0,
init_per_suite/1,
end_per_suite/1]).
%% testcases
-export([format/1, format/2,
replace/1, replace/2,
generate/1, generate/4,
flatten1/1, flatten1/3,
flatten2/1]).
-export([dict/0]). %% fake dictionary module
%% dictionary callbacks for flatten2/1
-export(['A1'/3, 'Unsigned32'/3]).
-define(base, "base_rfc3588.dia").
-define(util, diameter_util).
-define(S, atom_to_list).
-define(L, integer_to_list).
%% ===========================================================================
%% RE/Replacement (in the sense of re:replace/4) pairs for morphing
%% base_rfc3588.dia. The key is 'ok' or the the expected error as
%% returned in the first element of the error tuple returned by
%% diameter_make:codec/2.
-define(REPLACE,
[{ok,
"",
""},
{scan,
"@id 0",
"@id \\&"},
{scan,
"@name ",
"&'"},
{parse,
"@id 0",
"@id @id"},
{avp_code_already_defined,
"480",
"485"},
{uint32_out_of_range,
"@id 0",
"@id 4294967296"},
{uint32_out_of_range,
"@vendor 0",
"@vendor 4294967296"},
{uint32_out_of_range,
[{"^ *Failed-AVP .*$", "&V"},
{"@avp_types", "@avp_vendor_id 4294967296 Failed-AVP\n&"}]},
{imported_avp_already_defined,
"@avp_types",
"@inherits diameter_gen_base_rfc3588 &"},
{duplicate_import,
[{"@avp_types", "@inherits diameter_gen_base_rfc3588 Class\n&"},
{"@avp_types", "@inherits diameter_gen_base_rfc3588\n&"},
{"^@avp_types[^@]*", ""},
{"^@enum[^&]*", ""}]},
{duplicate_section,
"@prefix",
"@name"},
{already_declared,
"@enum Termination-Cause",
"& XXX 0\n &"},
{already_declared,
"@define Result-Code",
"& XXX 1000 &"},
{inherited_avp_already_defined,
"@id",
"@inherits nomod Origin-Host &"},
{avp_already_defined,
"@avp_types",
"@inherits m XXX\nXXX\n&"},
{avp_already_defined,
"@avp_types",
"@inherits mod1 XXX\n@inherits mod2 XXX\n&"},
{key_already_defined,
"DIAMETER_SUCCESS",
"& 2001\n&"},
{messages_without_id,
"@id 0",
""},
{avp_name_already_defined,
"Class",
"& 666 Time M\n&"},
{avp_has_unknown_type,
"Enumerated",
"Enum"},
{avp_has_invalid_flag,
" -",
" X"},
{avp_has_duplicate_flag,
" -",
" MM"},
{avp_has_vendor_id,
"@avp_types",
"@avp_vendor_id 667 Class\n&"},
{avp_has_no_vendor,
[{"^ *Class .*$", "&V"},
{"@vendor .*", ""}]},
{group_already_defined,
"@grouped",
"& Failed-AVP ::= < AVP Header: 279 > " "{AVP}\n&"},
{grouped_avp_code_mismatch,
"(Failed-AVP ::= [^0-9]*27)9",
"&8"},
{grouped_avp_has_wrong_type,
"(Failed-AVP *279 *)Grouped",
"\\1Time"},
{grouped_avp_not_defined,
"Failed-AVP *.*",
""},
{grouped_vendor_id_without_flag,
"(Failed-AVP .*)>",
"\\1 668>"},
{grouped_vendor_id_mismatch,
[{"(Failed-AVP .*)>", "\\1 17>"},
{"^ *Failed-AVP .*$", "&V"},
{"@avp_types", "@avp_vendor_id 18 Failed-AVP\n&"}]},
{ok,
[{"(Failed-AVP .*)>", "\\1 17>"},
{"^ *Failed-AVP .*$", "&V"}]},
{message_name_already_defined,
"CEA ::= .*:",
"& 257 > {Result-Code}\n&"},
{message_code_already_defined,
"CEA( ::= .*)",
"XXX\\1 {Result-Code}\n&"},
{message_has_duplicate_flag,
"(CER ::=.*)>",
"\\1, REQ>"},
{message_application_id_mismatch,
"(CER ::=.*)>",
"\\1 1>"},
{invalid_avp_order,
"CEA ::=",
"{Result-Code} &"},
{ok,
"{ Product-Name",
"* &"},
{required_avp_has_zero_max_arity,
"{ Product-Name",
"*0 &"},
{required_avp_has_zero_min_arity,
"{ Product-Name",
"0* &"},
{required_avp_has_zero_min_arity,
"{ Product-Name",
"0*0 &"},
{ok,
"{ Product-Name",
"*1 &"},
{ok,
"{ Product-Name",
"1* &"},
{ok,
"{ Product-Name",
"1*1 &"},
{ok,
"{ Product-Name",
"2* &"},
{ok,
"{ Product-Name",
"*2 &"},
{ok,
"{ Product-Name",
"2*2 &"},
{ok,
"{ Product-Name",
"2*3 &"},
{qualifier_has_min_greater_than_max,
"{ Product-Name",
"3*2 &"},
{ok,
"\\[ Origin-State-Id",
"* &"},
{ok,
"\\[ Origin-State-Id",
"0* &"},
{ok,
"\\[ Origin-State-Id",
"*0 &"},
{ok,
"\\[ Origin-State-Id",
"0*0 &"},
{ok,
"\\[ Origin-State-Id",
"0*1 &"},
{ok,
"\\[ Origin-State-Id",
"0*2 &"},
{ok,
"\\[ Origin-State-Id",
"*1 &"},
{optional_avp_has_nonzero_min_arity,
"\\[ Origin-State-Id",
"1* &"},
{optional_avp_has_nonzero_min_arity,
"\\[ Origin-State-Id",
"1*1 &"},
{ok,
"\\[ Origin-State-Id",
"*2 &"},
{optional_avp_has_nonzero_min_arity,
"\\[ Origin-State-Id",
"2* &"},
{optional_avp_has_nonzero_min_arity,
"\\[ Origin-State-Id",
"2*2 &"},
{optional_avp_has_nonzero_min_arity,
"\\[ Origin-State-Id",
"2*3 &"},
{optional_avp_has_nonzero_min_arity,
"\\[ Origin-State-Id",
"3*2 &"},
{ok,
"^ *< Session-Id",
"* &"},
{ok,
"^ *< Session-Id",
"*0 &"},
{ok,
"^ *< Session-Id",
"0* &"},
{ok,
"^ *< Session-Id",
"0*0 &"},
{ok,
"^ *< Session-Id",
"0*1 &"},
{ok,
"^ *< Session-Id",
"0*2 &"},
{ok,
"^ *< Session-Id",
"*1 &"},
{ok,
"^ *< Session-Id",
"1* &"},
{ok,
"^ *< Session-Id",
"1*1 &"},
{ok,
"^ *< Session-Id",
"*2 &"},
{ok,
"^ *< Session-Id",
"2* &"},
{ok,
"^ *< Session-Id",
"2*2 &"},
{ok,
"^ *< Session-Id",
"2*3 &"},
{qualifier_has_min_greater_than_max,
"^ *< Session-Id",
"3*2 &"},
{avp_already_referenced,
"CER ::=.*",
"& {Origin-Host}"},
{message_missing,
"CER ::=",
"XXR ::= < Diameter-Header: 666, REQ > {Origin-Host} &"},
{requested_avp_not_found,
[{"@id", "@inherits diameter_gen_base_rfc3588 XXX &"},
{"CEA ::=", "<XXX> &"}]},
{requested_avp_not_found,
[{"@id", "@inherits diameter_gen_base_rfc3588 'X X X' &"},
{"CEA ::=", "<'X X X'> &"}]},
{enumerated_avp_has_wrong_local_type,
"Enumerated",
"Time"},
{enumerated_avp_not_defined,
[{"{ Disconnect-Cause }", ""},
{"^ *Disconnect-Cause .*", ""}]},
{avp_not_defined,
"CEA ::=",
"<XXX> &"},
{not_loaded,
[{"@avp_types", "@inherits nomod XXX &"},
{"CEA ::=", "<XXX> &"}]},
{recompile,
[{"@avp_types", "@inherits " ++ ?S(?MODULE) ++ " XXX &"},
{"CEA ::=", "<XXX> &"}]},
{no_dict,
[{"@avp_types", "@inherits diameter XXX &"},
{"CEA ::=", "<XXX> &"}]},
{ok,
"@avp_types",
"@end & bad syntax"},
{parse,
"@avp_types",
"& bad syntax"},
{ok,
[{"@avp_types", "& 3XXX 666 Time M 'X X X' 667 Time -"},
{"^ *Class .*", "@avp_types"},
{"^ *Failed-AVP ", "@avp_types &"},
{"@grouped", "&&"},
{"^ *Failed-AVP ::=", "@grouped &"},
{"CEA ::=", "<'Class'> &"},
{"@avp_types", "@inherits diameter_gen_base_rfc3588 Class\n&"},
{"@avp_types", "@custom_types mymod "
"Product-Name Firmware-Revision\n"
"@codecs mymod "
"Origin-Host Origin-Realm\n&"}]}]).
%% ===========================================================================
suite() ->
[{timetrap, {minutes, 10}}].
all() ->
[format,
replace,
generate,
flatten1,
flatten2].
%% Error handling testcases will make an erroneous dictionary out of
%% the base dictionary and check that the expected error results.
%% ?REPLACE encodes the modifications and expected error.
init_per_suite(Config) ->
Path = filename:join([code:lib_dir(diameter, src), "dict", ?base]),
{ok, Bin} = file:read_file(Path),
[{base, Bin} | Config].
end_per_suite(_Config) ->
ok.
%% ===========================================================================
%% format/1
%%
%% Ensure that parse o format is the identity map.
format(Config) ->
Bin = proplists:get_value(base, Config),
[] = ?util:run([{?MODULE, [format, M, Bin]}
|| E <- ?REPLACE,
{ok, M} <- [norm(E)]]).
format(Mods, Bin) ->
B = modify(Bin, Mods),
{ok, Dict} = parse(B, []),
{ok, D} = parse(diameter_make:format(Dict), []),
{Dict, Dict} = {Dict, D}.
parse(File, Opts) ->
case diameter_make:codec(File, [parse, hrl, return | Opts]) of
{ok, [Dict, _]} ->
{ok, Dict};
{error, _} = E ->
E
end.
%% ===========================================================================
%% replace/1
%%
%% Ensure the expected success/error when parsing a morphed common
%% dictionary.
replace(Config) ->
Bin = proplists:get_value(base, Config),
[] = ?util:run([{?MODULE, [replace, N, Bin]}
|| E <- ?REPLACE,
N <- [norm(E)]]).
replace({E, Mods}, Bin) ->
B = modify(Bin, Mods),
case {E, parse(B, [{include, here()}]), Mods} of
{ok, {ok, Dict}, _} ->
Dict;
{_, {error, S}, _} ->
S
end.
re({RE, Repl}, Bin) ->
re:replace(Bin, RE, Repl, [multiline]).
%% ===========================================================================
%% generate/1
%%
%% Ensure success when generating code and compiling.
generate(Config) ->
Bin = proplists:get_value(base, Config),
Rs = lists:zip(?REPLACE, lists:seq(1, length(?REPLACE))),
[] = ?util:run([{?MODULE, [generate, M, Bin, N, T]}
|| {E,N} <- Rs,
{ok, M} <- [norm(E)],
T <- [erl, hrl, parse, forms]]).
generate(Mods, Bin, N, Mode) ->
B = modify(Bin, Mods ++ [{"@name .*", "@name dict" ++ ?L(N)}]),
{ok, Dict} = parse(B, []),
File = "dict" ++ integer_to_list(N),
{_, ok} = {Dict, diameter_make:codec(Dict,
[{name, File},
{prefix, "base"},
Mode])},
generate(Mode, File, Dict).
generate(erl, File, _) ->
{ok, _} = compile:file(File ++ ".erl", [return_errors]);
generate(forms, File, _) ->
{ok, [_]} = file:consult(File ++ ".F");
generate(parse, File, Dict) ->
{ok, [Dict]} = file:consult(File ++ ".D"), %% assert
{ok, [F]} = diameter_make:codec(Dict, [forms, return]),
{ok, _, _, _} = compile:forms(F, [return]);
generate(hrl, _, _) ->
ok.
%% ===========================================================================
%% flatten1/1
flatten1(_Config) ->
[Vsn | BaseD] = diameter_gen_base_rfc6733:dict(),
{ok, I} = parse("@inherits diameter_gen_base_rfc6733\n", []),
[Vsn | FlatD] = diameter_make:flatten(I),
[] = ?util:run([{?MODULE, [flatten1, K, BaseD, FlatD]}
|| K <- [avp_types, grouped, enum]]).
flatten1(Key, BaseD, FlatD) ->
Vs = orddict:fetch(Key, BaseD),
Vs = orddict:fetch(Key, FlatD).
%% ===========================================================================
%% flatten2/1
flatten2(_Config) ->
Dict1 =
"@name diameter_test1\n"
"@prefix diameter_test1\n"
"@vendor 666 test\n"
"@avp_vendor_id 111 A1 A3\n"
"@avp_vendor_id 222 A4 A6\n"
"@custom_types " ++ ?S(?MODULE) ++ " A1 A4\n"
"@codecs " ++ ?S(?MODULE) ++ " A3 A6\n"
"@avp_types\n"
"A1 1001 Unsigned32 V\n"
"A2 1002 Unsigned32 V\n"
"A3 1003 Unsigned32 V\n"
"A4 1004 Unsigned32 V\n"
"A5 1005 Unsigned32 V\n"
"A6 1006 Unsigned32 V\n"
"@end ignored\n",
Dict2 =
"@name diameter_test2\n"
"@prefix diameter_test2\n"
"@vendor 777 test\n"
"@inherits diameter_test1 A1 A2 A3\n"
"@inherits diameter_gen_base_rfc6733\n"
"@avp_vendor_id 333 A1\n",
{ok, [E1, F1]}
= diameter_make:codec(Dict1, [erl, forms, return]),
ct:pal("~s", [E1]),
diameter_test1 = M1 = load_forms(F1),
{ok, [D2, E2, F2]}
= diameter_make:codec(Dict2, [parse, erl, forms, return]),
ct:pal("~s", [E2]),
diameter_test2 = M2 = load_forms(F2),
Flat = lists:flatten(diameter_make:format(diameter_make:flatten(D2))),
ct:pal("~s", [Flat]),
{ok, [E3, F3]}
= diameter_make:codec(Flat, [erl, forms, return,
{name, "diameter_test3"}]),
ct:pal("~s", [E3]),
diameter_test3 = M3 = load_forms(F3),
[{1001, 111, M1, 'A1'}, %% @avp_vendor_id
{1002, 666, M1, 'A2'}, %% @vendor
{1003, 111, M1, 'A3'}, %% @avp_vendor_id
{1004, 222, M1, 'A4'}, %% @avp_vendor_id
{1005, 666, M1, 'A5'}, %% @vendor
{1006, 222, M1, 'A6'}, %% @avp_vendor_id
{1001, 333, M2, 'A1'}, %% M2 @avp_vendor_id
{1002, 666, M2, 'A2'}, %% M1 @vendor
{1003, 666, M2, 'A3'}, %% M1 @vendor
{1001, 333, M3, 'A1'}, %% (as for M2)
{1002, 666, M3, 'A2'}, %% "
{1003, 666, M3, 'A3'}] %% "
= [{Code, Vid, Mod, Name}
|| Mod <- [M1, M2, M3],
Code <- lists:seq(1001, 1006),
Vid <- [666, 111, 222, 777, 333],
{Name, 'Unsigned32'} <- [Mod:avp_name(Code, Vid)]],
[] = [{A,T,M,RC} || A <- ['A1', 'A3'],
T <- [encode, decode],
M <- [M2, M3],
Ref <- [make_ref()],
RC <- [M:avp(T, Ref, A)],
RC /= {T, Ref}].
'A1'(T, 'Unsigned32', Ref) ->
{T, Ref}.
'Unsigned32'(T, 'A3', Ref) ->
{T, Ref}.
load_forms(Forms) ->
{ok, Mod, Bin, _} = compile:forms(Forms, [return]),
{module, Mod} = code:load_binary(Mod, ?S(Mod), Bin),
Mod.
%% ===========================================================================
modify(Bin, Mods) ->
lists:foldl(fun re/2, Bin, Mods).
norm({E, RE, Repl}) ->
{E, [{RE, Repl}]};
norm({_,_} = T) ->
T.
here() ->
filename:dirname(code:which(?MODULE)).
dict() ->
[0 | orddict:new()].