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-rw-r--r--lib/asn1/src/asn1ct_check.erl129
1 files changed, 77 insertions, 52 deletions
diff --git a/lib/asn1/src/asn1ct_check.erl b/lib/asn1/src/asn1ct_check.erl
index 59e82b7a57..e1911d8170 100644
--- a/lib/asn1/src/asn1ct_check.erl
+++ b/lib/asn1/src/asn1ct_check.erl
@@ -2,7 +2,7 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 1997-2012. All Rights Reserved.
+%% Copyright Ericsson AB 1997-2013. 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
@@ -61,13 +61,13 @@
-define(TAG_PRIMITIVE(Num),
case S#state.erule of
- ber_bin_v2 ->
+ ber ->
#tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=0};
_ -> []
end).
-define(TAG_CONSTRUCTED(Num),
case S#state.erule of
- ber_bin_v2 ->
+ ber ->
#tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=32};
_ -> []
end).
@@ -1263,13 +1263,13 @@ check_object_list(S,ClassRef,[ObjOrSet|Objs],Acc) ->
check_object_list(S,ClassRef,Objs,[{{no_mod,no_name},Def}|Acc]);
{'ObjectSetFromObjects',Os,FieldName} when is_tuple(Os) ->
NewSet =
- check_ObjectSetFromObjects(S,element(size(Os),Os),
+ check_ObjectSetFromObjects(S, element(tuple_size(Os), Os),
FieldName,[]),
check_object_list(S,ClassRef,Objs,NewSet++Acc);
{{'ObjectSetFromObjects',Os,FieldName},InterSection}
when is_tuple(Os) ->
NewSet =
- check_ObjectSetFromObjects(S, element(size(Os),Os),
+ check_ObjectSetFromObjects(S, element(tuple_size(Os), Os),
FieldName,InterSection),
check_object_list(S,ClassRef,Objs,NewSet++Acc);
Other ->
@@ -1570,7 +1570,7 @@ gen_incl_set(S,Fields,#typedef{typespec=#type{def=Eref}})
gen_incl_set(S,Fields,CDef);
gen_incl_set(S,Fields,ClassDef) ->
case catch get_unique_fieldname(S,ClassDef) of
- Tuple when is_tuple(Tuple), size(Tuple) =:= 3 ->
+ Tuple when tuple_size(Tuple) =:= 3 ->
false;
_ ->
gen_incl_set1(S,Fields,
@@ -1589,7 +1589,7 @@ gen_incl_set1(_,['EXTENSIONMARK'],_) ->
gen_incl_set1(_,['EXTENSIONMARK'|_],_) ->
true;
gen_incl_set1(S,[Object|Rest],CFields)->
- Fields = element(size(Object),Object),
+ Fields = element(tuple_size(Object), Object),
case gen_incl1(S,Fields,CFields) of
true ->
true;
@@ -3028,7 +3028,7 @@ is_record_normalized(S,Name,V = #'Externalvaluereference'{},NumComps) ->
_ -> false
end;
is_record_normalized(_S,Name,Value,NumComps) when is_tuple(Value) ->
- (size(Value) =:= (NumComps + 1)) andalso (element(1,Value)=:=Name);
+ (tuple_size(Value) =:= (NumComps + 1)) andalso (element(1, Value) =:= Name);
is_record_normalized(_,_,_,_) ->
false.
@@ -3262,7 +3262,7 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) ->
inlined=IsInlined},
TestFun =
fun(Tref) ->
- {_,MaybeChoice} = get_referenced_type(S,Tref),
+ MaybeChoice = get_non_typedef(S, Tref),
case catch((MaybeChoice#typedef.typespec)#type.def) of
{'CHOICE',_} ->
maybe_illicit_implicit_tag(choice,Tag);
@@ -3347,7 +3347,7 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) ->
TempNewDef#newt{
type = check_externaltypereference(S,NewExt),
tag = case S#state.erule of
- ber_bin_v2 ->
+ ber ->
merge_tags(Ct,RefType#type.tag);
_ ->
Ct
@@ -3617,6 +3617,14 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) ->
check_type(_S,Type,Ts) ->
exit({error,{asn1,internal_error,Type,Ts}}).
+get_non_typedef(S, Tref0) ->
+ case get_referenced_type(S, Tref0) of
+ {_,#typedef{typespec=#type{def=#'Externaltypereference'{}=Tref}}} ->
+ get_non_typedef(S, Tref);
+ {_,Type} ->
+ Type
+ end.
+
%% tablecinf_choose. A SEQUENCE or SET may be inserted in another
%% SEQUENCE or SET by the COMPONENTS OF directive. If this inserted
%% type is a referenced type that already has been checked it already
@@ -3712,7 +3720,7 @@ maybe_open_type(S,ClassSpec=#objectclass{fields=Fs},
{typefieldreference,_} ->
case {catch get_unique_fieldname(S,#classdef{typespec=ClassSpec}),
asn1ct_gen:get_constraint(Constr,componentrelation)}of
- {Tuple,_} when is_tuple(Tuple), size(Tuple) =:= 3 ->
+ {Tuple,_} when tuple_size(Tuple) =:= 3 ->
OCFT#'ObjectClassFieldType'{fieldname=FieldNames,
type='ASN1_OPEN_TYPE'};
{_,no} ->
@@ -4159,7 +4167,7 @@ check_constraint(S,Ext) when is_record(Ext,'Externaltypereference') ->
check_constraint(S,{'SizeConstraint',{Lb,Ub}})
- when is_list(Lb);is_tuple(Lb),size(Lb)==2 ->
+ when is_list(Lb); tuple_size(Lb) =:= 2 ->
NewLb = range_check(resolv_tuple_or_list(S,Lb)),
NewUb = range_check(resolv_tuple_or_list(S,Ub)),
{'SizeConstraint',{NewLb,NewUb}};
@@ -4332,11 +4340,33 @@ permitted_alphabet_merge([C1|Rest],UorI,Acc) ->
%% there will be no extension if the last constraint is without extension.
%% The rootset of all constraints are considered in the "outermoust
%% intersection". See section 13.1.2 in Dubuisson.
-constraint_merge(_S,C=[H])when is_tuple(H) ->
+constraint_merge(St, Cs0) ->
+ Cs = constraint_merge_1(St, Cs0),
+ normalize_cs(Cs).
+
+normalize_cs([{'SingleValue',[V]}|Cs]) ->
+ [{'SingleValue',V}|normalize_cs(Cs)];
+normalize_cs([{'SingleValue',[_|_]=L0}|Cs]) ->
+ [H|T] = L = lists:usort(L0),
+ [case is_range(H, T) of
+ false -> {'SingleValue',L};
+ true -> {'ValueRange',{H,lists:last(T)}}
+ end|normalize_cs(Cs)];
+normalize_cs([{'ValueRange',{Sv,Sv}}|Cs]) ->
+ [{'SingleValue',Sv}|normalize_cs(Cs)];
+normalize_cs([{'ValueRange',{'MIN','MAX'}}|Cs]) ->
+ normalize_cs(Cs);
+normalize_cs(Other) -> Other.
+
+is_range(Prev, [H|T]) when Prev =:= H - 1 -> is_range(H, T);
+is_range(_, [_|_]) -> false;
+is_range(_, []) -> true.
+
+constraint_merge_1(_S, [H]=C) when is_tuple(H) ->
C;
-constraint_merge(_S,[]) ->
+constraint_merge_1(_S, []) ->
[];
-constraint_merge(S,C) ->
+constraint_merge_1(S, C) ->
%% skip all extension but the last extension
C1 = filter_extensions(C),
%% perform all internal level intersections, intersections first
@@ -4359,17 +4389,16 @@ constraint_merge(S,C) ->
%% get the least common size constraint
SZs = get_constraints(C3,'SizeConstraint'),
CombSZ = intersection_of_size(S,SZs),
- CminusSVs=ordsets:subtract(ordsets:from_list(C3),ordsets:from_list(SVs)),
- % CminusSVsVRs = ordsets:subtract(ordsets:from_list(CminusSVs),
-% ordsets:from_list(VRs)),
- RestC = ordsets:subtract(ordsets:from_list(CminusSVs),
- ordsets:from_list(SZs)),
+ RestC = ordsets:subtract(ordsets:from_list(C3),
+ ordsets:from_list(SZs ++ VRs ++ SVs)),
%% get the least common combined constraint. That is the union of each
- %% deep costraint and merge of single value and value range constraints
- NewCs = combine_constraints(S,CombSV,CombVR,CombSZ++RestC),
- [X||X <- lists:flatten(NewCs),
- X /= intersection,
- X /= union].
+ %% deep constraint and merge of single value and value range constraints.
+ %% FIXME: Removing 'intersection' from the flattened list essentially
+ %% means that intersections are converted to unions!
+ Cs = combine_constraints(S, CombSV, CombVR, CombSZ++RestC),
+ [X || X <- lists:flatten(Cs),
+ X =/= intersection,
+ X =/= union].
%% constraint_union(S,C) takes a list of constraints as input and
%% merge them to a union. Unions are performed when two
@@ -4399,16 +4428,16 @@ constraint_union(_S,C) ->
constraint_union1(S,[A={'ValueRange',_},union,B={'ValueRange',_}|Rest],Acc) ->
AunionB = constraint_union_vr([A,B]),
- constraint_union1(S,Rest,Acc ++ AunionB);
+ constraint_union1(S, AunionB++Rest, Acc);
constraint_union1(S,[A={'SingleValue',_},union,B={'SingleValue',_}|Rest],Acc) ->
AunionB = constraint_union_sv(S,[A,B]),
constraint_union1(S,Rest,Acc ++ AunionB);
constraint_union1(S,[A={'SingleValue',_},union,B={'ValueRange',_}|Rest],Acc) ->
AunionB = union_sv_vr(S,A,B),
- constraint_union1(S,Rest,Acc ++ AunionB);
+ constraint_union1(S, AunionB++Rest, Acc);
constraint_union1(S,[A={'ValueRange',_},union,B={'SingleValue',_}|Rest],Acc) ->
AunionB = union_sv_vr(S,B,A),
- constraint_union1(S,Rest,Acc ++ AunionB);
+ constraint_union1(S, AunionB++Rest, Acc);
constraint_union1(S,[union|Rest],Acc) -> %skip when unsupported constraints
constraint_union1(S,Rest,Acc);
constraint_union1(S,[A|Rest],Acc) ->
@@ -4441,15 +4470,8 @@ constraint_union_vr(VR) ->
({_,{A1,_B1}},{_,{A2,_B2}}) when is_integer(A1),is_integer(A2),A1<A2 -> true;
({_,{A,B1}},{_,{A,B2}}) when B1=<B2->true;
(_,_)->false end,
- % sort and remove duplicates
- SortedVR = lists:sort(Fun,VR),
- RemoveDup = fun([],_) ->[];
- ([H],_) -> [H];
- ([H,H|T],F) -> F([H|T],F);
- ([H|T],F) -> [H|F(T,F)]
- end,
-
- constraint_union_vr(RemoveDup(SortedVR,RemoveDup),[]).
+ SortedVR = lists:usort(Fun,VR),
+ constraint_union_vr(SortedVR, []).
constraint_union_vr([],Acc) ->
lists:reverse(Acc);
@@ -4459,8 +4481,8 @@ constraint_union_vr([{_,{Lb,Ub2}}|Rest],[{_,{Lb,_Ub1}}|Acc]) -> %Ub2 > Ub1
constraint_union_vr(Rest,[{'ValueRange',{Lb,Ub2}}|Acc]);
constraint_union_vr([{_,{_,Ub}}|Rest],A=[{_,{_,Ub}}|_Acc]) ->
constraint_union_vr(Rest,A);
-constraint_union_vr([{_,{Lb2,Ub2}}|Rest],[{_,{Lb1,Ub1}}|Acc]) when Lb2=<Ub1,
- Ub2>Ub1->
+constraint_union_vr([{_,{Lb2,Ub2}}|Rest], [{_,{Lb1,Ub1}}|Acc])
+ when Ub1 =< Lb2, Ub1 < Ub2 ->
constraint_union_vr(Rest,[{'ValueRange',{Lb1,Ub2}}|Acc]);
constraint_union_vr([{_,{_,Ub2}}|Rest],A=[{_,{_,Ub1}}|_Acc]) when Ub2=<Ub1->
constraint_union_vr(Rest,A);
@@ -4581,9 +4603,11 @@ constraint_intersection(_S,C) ->
constraint_intersection1(S,[A,intersection,B|Rest],Acc) ->
AisecB = c_intersect(S,A,B),
- constraint_intersection1(S,Rest,AisecB++Acc);
+ constraint_intersection1(S, AisecB++Rest, Acc);
constraint_intersection1(S,[A|Rest],Acc) ->
constraint_intersection1(S,Rest,[A|Acc]);
+constraint_intersection1(_, [], [C]) ->
+ C;
constraint_intersection1(_,[],Acc) ->
lists:reverse(Acc).
@@ -5193,7 +5217,7 @@ imported1(_Name,[]) ->
check_integer(_S,[],_C) ->
[];
check_integer(S,NamedNumberList,_C) ->
- case [X||X<-NamedNumberList,is_tuple(X),size(X)=:=2] of
+ case [X || X <- NamedNumberList, tuple_size(X) =:= 2] of
NamedNumberList ->
%% An already checked integer with NamedNumberList
NamedNumberList;
@@ -5289,7 +5313,7 @@ iof_associated_type(S,[]) ->
AssociateSeq = iof_associated_type1(S,[]),
Tag =
case S#state.erule of
- ber_bin_v2 ->
+ ber ->
[?TAG_CONSTRUCTED(?N_INSTANCE_OF)];
_ -> []
end,
@@ -5320,7 +5344,7 @@ iof_associated_type1(S,C) ->
end,
{ObjIdTag,C1TypeTag}=
case S#state.erule of
- ber_bin_v2 ->
+ ber ->
{[{'UNIVERSAL',8}],
[#tag{class='UNIVERSAL',
number=6,
@@ -5551,8 +5575,9 @@ complist_as_tuple(_Per,[],Acc,Ext,_Acc2,ext) ->
complist_as_tuple(_Per,[],Acc,Ext,Acc2,root2) ->
{lists:reverse(Acc),lists:reverse(Ext),lists:reverse(Acc2)}.
-is_erule_per(Erule) ->
- lists:member(Erule,[per,per_bin,uper_bin]).
+is_erule_per(per) -> true;
+is_erule_per(uper) -> true;
+is_erule_per(ber) -> false.
expand_components(S, [{'COMPONENTS OF',Type}|T]) ->
CompList = expand_components2(S,get_referenced_type(S,Type#type.def)),
@@ -5641,7 +5666,7 @@ check_set(S,Type,Components) ->
{true,_} ->
{Sorted,SortedComponents} = sort_components(der,S,NewComponents),
{Sorted,TableCInf,SortedComponents};
- {_,PER} when PER =:= per; PER =:= per_bin; PER =:= uper_bin ->
+ {_,PER} when PER =:= per; PER =:= uper ->
{Sorted,SortedComponents} = sort_components(per,S,NewComponents),
{Sorted,TableCInf,SortedComponents};
_ ->
@@ -5765,7 +5790,7 @@ sort_universal_type(Components) ->
decode_type(I) when is_integer(I) ->
I;
decode_type(T) ->
- asn1ct_gen_ber:decode_type(T).
+ asn1ct_gen_ber_bin_v2:decode_type(T).
untagged_choice(_S,[#'ComponentType'{typespec=#type{tag=[],def={'CHOICE',_}}}|_Rest]) ->
true;
@@ -6884,16 +6909,16 @@ get_taglist(S,{ObjCl,FieldNameList}) when is_record(ObjCl,objectclass),
{TypeFieldName,_} when is_atom(TypeFieldName) -> []%should check if allowed
end;
get_taglist(S,Def) ->
- case lists:member(S#state.erule,[ber_bin_v2]) of
- false ->
+ case S#state.erule of
+ ber ->
+ [];
+ _ ->
case Def of
'ASN1_OPEN_TYPE' -> % open_type has no UNIVERSAL tag as such
[];
_ ->
[asn1ct_gen:def_to_tag(Def)]
- end;
- _ ->
- []
+ end
end.
get_taglist1(S,[#'ComponentType'{name=_Cname,tags=TagL}|Rest]) when is_list(TagL) ->