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authorBjörn Gustavsson <[email protected]>2014-12-01 12:31:19 +0100
committerBjörn Gustavsson <[email protected]>2015-01-12 11:40:29 +0100
commit80d35f40a69215cc1a2c883941a7b137a90db725 (patch)
tree8a76e661010b751ee32695299b85c00311b1a19d /lib/asn1/src
parent1c7802251322ea82ab7a7c5098034a88db69e787 (diff)
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Rewrite checking of ENUMERATED
Clean up the checking of ENUMERATED and modernize the error reporting. Also eliminate the unused constraints argument for check_enumerated().
Diffstat (limited to 'lib/asn1/src')
-rw-r--r--lib/asn1/src/asn1ct_check.erl200
1 files changed, 108 insertions, 92 deletions
diff --git a/lib/asn1/src/asn1ct_check.erl b/lib/asn1/src/asn1ct_check.erl
index c52d239ecd..19ecd78069 100644
--- a/lib/asn1/src/asn1ct_check.erl
+++ b/lib/asn1/src/asn1ct_check.erl
@@ -2697,7 +2697,7 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) ->
{'ENUMERATED',NamedNumberList} ->
TempNewDef#newt{type=
{'ENUMERATED',
- check_enumerated(S,NamedNumberList,Constr)},
+ check_enumerated(S, NamedNumberList)},
tag=
merge_tags(Tag,?TAG_PRIMITIVE(?N_ENUMERATED)),
constraint=[]};
@@ -3723,19 +3723,19 @@ resolve_value1(S, _HostType, #valuedef{}=VDef) ->
resolve_value1(_, _, V) ->
V.
-resolve_namednumber(S, #type{def=Def}=Type, Name) ->
+resolve_namednumber(S, #type{def=Def}, Name) ->
case Def of
{'ENUMERATED',NameList} ->
- resolve_namednumber_1(S, Name, NameList, Type);
+ resolve_namednumber_1(S, Name, NameList);
{'INTEGER',NameList} ->
- resolve_namednumber_1(S, Name, NameList, Type);
+ resolve_namednumber_1(S, Name, NameList);
_ ->
not_named
end.
-resolve_namednumber_1(S, Name, NameList, Type) ->
+resolve_namednumber_1(S, Name, NameList) ->
try
- NamedNumberList = check_enumerated(S, NameList, Type#type.constraint),
+ NamedNumberList = check_enumerated(S, NameList),
{_,N} = lookup_enum_value(S, Name, NamedNumberList),
N
catch _:_ ->
@@ -4318,93 +4318,100 @@ instance_of_constraints_1(S, Type) ->
valueindex=[]},
{TableCInf,[{simpletable,Name}],CRel,[{objfun,ObjectSetRef}]}.
-%% Check ENUMERATED
-%% ****************************************
-%% Check that all values are unique
-%% assign values to un-numbered identifiers
-%% check that the constraints are allowed and correct
-%% put the updated info back into database
-check_enumerated(_S,[{Name,Number}|_Rest]= NNList,_Constr) when is_atom(Name), is_integer(Number)->
- %% already checked , just return the same list
- NNList;
-check_enumerated(_S,{[{Name,Number}|_Rest],L}= NNList,_Constr) when is_atom(Name), is_integer(Number), is_list(L)->
- %% already checked , contains extension marker, just return the same lists
- NNList;
-check_enumerated(S,NamedNumberList,_Constr) ->
- check_enum(S,NamedNumberList,[],[],[]).
-
-%% identifiers are put in Acc2
-%% returns either [{Name,Number}] or {[{Name,Number}],[{ExtName,ExtNumber}]}
-%% the latter is returned if the ENUMERATION contains EXTENSIONMARK
-check_enum(S,[{'NamedNumber',Id,Num}|T],Acc1,Acc2,Root) when is_integer(Num) ->
- check_enum(S,T,[{Id,Num}|Acc1],Acc2,Root);
-check_enum(S,['EXTENSIONMARK'|T],Acc1,Acc2,_Root) ->
- NewAcc2 = lists:keysort(2,Acc1),
- NewList = enum_number(lists:reverse(Acc2),NewAcc2,0,[],[]),
- { NewList, check_enum(S,T,[],[],enum_counts(NewList))};
-check_enum(S,[Id|T],Acc1,Acc2,Root) when is_atom(Id) ->
- check_enum(S,T,Acc1,[Id|Acc2],Root);
-check_enum(_S,[],Acc1,Acc2,Root) ->
- NewAcc2 = lists:keysort(2,Acc1),
- enum_number(lists:reverse(Acc2),NewAcc2,0,[],Root).
-
-
-% assign numbers to identifiers , numbers from 0 ... but must not
-% be the same as already assigned to NamedNumbers
-enum_number(Identifiers,NamedNumbers,Cnt,Acc,[]) ->
- enum_number(Identifiers,NamedNumbers,Cnt,Acc);
-enum_number(Identifiers,NamedNumbers,_Cnt,Acc,CountL) ->
- enum_extnumber(Identifiers,NamedNumbers,Acc,CountL).
-
-enum_number([H|T],[{Id,Num}|T2],Cnt,Acc) when Num > Cnt ->
- enum_number(T,[{Id,Num}|T2],Cnt+1,[{H,Cnt}|Acc]);
-enum_number([H|T],[{Id,Num}|T2],Cnt,Acc) when Num < Cnt -> % negative Num
- enum_number(T,T2,Cnt+1,[{H,Cnt},{Id,Num}|Acc]);
-enum_number([],L2,_Cnt,Acc) ->
- lists:append([lists:reverse(Acc),L2]);
-enum_number(L,[{Id,Num}|T2],Cnt,Acc) -> % Num == Cnt
- enum_number(L,T2,Cnt+1,[{Id,Num}|Acc]);
-enum_number([H|T],[],Cnt,Acc) ->
- enum_number(T,[],Cnt+1,[{H,Cnt}|Acc]).
-
-enum_extnumber(Identifiers,NamedNumbers,Acc,[C]) ->
- check_add_enum_numbers(NamedNumbers,[C]),
- enum_number(Identifiers,NamedNumbers,C,Acc);
-enum_extnumber([H|T],[{Id,Num}|T2],Acc,[C|Counts]) when Num > C ->
- enum_extnumber(T,[{Id,Num}|T2],[{H,C}|Acc],Counts);
-enum_extnumber([],L2,Acc,Cnt) ->
- check_add_enum_numbers(L2, Cnt),
- lists:concat([lists:reverse(Acc),L2]);
-enum_extnumber(_Identifiers,[{Id,Num}|_T2],_Acc,[C|_]) when Num < C ->
-%% enum_extnumber(Identifiers,T2,[{Id,Num}|Acc],Counts);
- exit({error,{asn1,"AdditionalEnumeration element with same number as root element",{Id,Num}}});
-enum_extnumber(Identifiers,[{Id,Num}|T2],Acc,[_C|Counts]) -> % Num =:= C
- enum_extnumber(Identifiers,T2,[{Id,Num}|Acc],Counts);
-enum_extnumber([H|T],[],Acc,[C|Counts]) ->
- enum_extnumber(T,[],[{H,C}|Acc],Counts).
-
-enum_counts([]) ->
- [0];
-enum_counts(L) ->
- Used=[I||{_,I}<-L],
- AddEnumLb = lists:max(Used) + 1,
- lists:foldl(fun(El,AccIn)->lists:delete(El,AccIn) end,
- lists:seq(0,AddEnumLb),
- Used).
-check_add_enum_numbers(L, Cnt) ->
- Max = lists:max(Cnt),
- Fun = fun({_,N}=El) when N < Max ->
- case lists:member(N,Cnt) of
- false ->
- exit({error,{asn1,"AdditionalEnumeration element with same number as root element",El}});
- _ ->
- ok
- end;
- (_) ->
- ok
- end,
- lists:foreach(Fun,L).
+%%%
+%%% Check ENUMERATED.
+%%%
+
+check_enumerated(_S, [{Name,Number}|_]=NNL)
+ when is_atom(Name), is_integer(Number) ->
+ %% Already checked.
+ NNL;
+check_enumerated(_S, {[{Name,Number}|_],L}=NNL)
+ when is_atom(Name), is_integer(Number), is_list(L) ->
+ %% Already checked (with extension).
+ NNL;
+check_enumerated(S, NNL) ->
+ check_enum_ids(S, NNL, gb_sets:empty()),
+ check_enum(S, NNL, gb_sets:empty(), []).
+
+check_enum_ids(S, [{'NamedNumber',Id,_}|T], Ids0) ->
+ Ids = check_enum_update_ids(S, Id, Ids0),
+ check_enum_ids(S, T, Ids);
+check_enum_ids(S, ['EXTENSIONMARK'|T], Ids) ->
+ check_enum_ids(S, T, Ids);
+check_enum_ids(S, [Id|T], Ids0) when is_atom(Id) ->
+ Ids = check_enum_update_ids(S, Id, Ids0),
+ check_enum_ids(S, T, Ids);
+check_enum_ids(_, [], _) ->
+ ok.
+
+check_enum(S, [{'NamedNumber',Id,N}|T], Used0, Acc) ->
+ Used = check_enum_update_used(S, Id, N, Used0),
+ check_enum(S, T, Used, [{Id,N}|Acc]);
+check_enum(S, ['EXTENSIONMARK'|Ext0], Used0, Acc0) ->
+ Acc = lists:reverse(Acc0),
+ {Root,Used,Cnt} = check_enum_number_root(Acc, Used0, 0, []),
+ Ext = check_enum_ext(S, Ext0, Used, Cnt, []),
+ {Root,Ext};
+check_enum(S, [Id|T], Used, Acc) when is_atom(Id) ->
+ check_enum(S, T, Used, [Id|Acc]);
+check_enum(_, [], Used, Acc0) ->
+ Acc = lists:reverse(Acc0),
+ {Root,_,_} = check_enum_number_root(Acc, Used, 0, []),
+ lists:keysort(2, Root).
+
+check_enum_number_root([Id|T]=T0, Used0, Cnt, Acc) when is_atom(Id) ->
+ case gb_sets:is_element(Cnt, Used0) of
+ false ->
+ Used = gb_sets:insert(Cnt, Used0),
+ check_enum_number_root(T, Used, Cnt+1, [{Id,Cnt}|Acc]);
+ true ->
+ check_enum_number_root(T0, Used0, Cnt+1, Acc)
+ end;
+check_enum_number_root([H|T], Used, Cnt, Acc) ->
+ check_enum_number_root(T, Used, Cnt, [H|Acc]);
+check_enum_number_root([], Used, Cnt, Acc) ->
+ {lists:keysort(2, Acc),Used,Cnt}.
+
+check_enum_ext(S, [{'NamedNumber',Id,N}|T], Used0, C, Acc) ->
+ Used = check_enum_update_used(S, Id, N, Used0),
+ if
+ N < C ->
+ asn1_error(S, {enum_not_ascending,Id,N,C-1});
+ true ->
+ ok
+ end,
+ check_enum_ext(S, T, Used, N+1, [{Id,N}|Acc]);
+check_enum_ext(S, [Id|T]=T0, Used0, C, Acc) when is_atom(Id) ->
+ case gb_sets:is_element(C, Used0) of
+ true ->
+ check_enum_ext(S, T0, Used0, C+1, Acc);
+ false ->
+ Used = gb_sets:insert(C, Used0),
+ check_enum_ext(S, T, Used, C+1, [{Id,C}|Acc])
+ end;
+check_enum_ext(_, [], _, _, Acc) ->
+ lists:keysort(2, Acc).
+
+check_enum_update_ids(S, Id, Ids) ->
+ case gb_sets:is_element(Id, Ids) of
+ false ->
+ gb_sets:insert(Id, Ids);
+ true ->
+ asn1_error(S, {enum_illegal_redefinition,Id})
+ end.
+check_enum_update_used(S, Id, N, Used) ->
+ case gb_sets:is_element(N, Used) of
+ false ->
+ gb_sets:insert(N, Used);
+ true ->
+ asn1_error(S, {enum_reused_value,Id,N})
+ end.
+
+%%%
+%%% End of ENUMERATED checking.
+%%%
check_boolean(_S,_Constr) ->
ok.
@@ -5833,6 +5840,15 @@ format_error({already_defined,Name,PrevLine}) ->
format_error({duplicate_tags,Elements}) ->
io_lib:format("duplicate tags in the elements: ~s",
[format_elements(Elements)]);
+format_error({enum_illegal_redefinition,Id}) ->
+ io_lib:format("'~s' must not be redefined", [Id]);
+format_error({enum_not_ascending,Id,N,Prev}) ->
+ io_lib:format("the values for enumerations which follow '...' must "
+ "be in ascending order, but '~p(~p)' is less than the "
+ "previous value '~p'", [Id,N,Prev]);
+format_error({enum_reused_value,Id,Val}) ->
+ io_lib:format("'~s' has the value '~p' which is used more than once",
+ [Id,Val]);
format_error(illegal_bitstring_value) ->
"expecting a BIT STRING value";
format_error({illegal_class_name,Class}) ->