diff options
Diffstat (limited to 'lib/asn1/src')
-rw-r--r-- | lib/asn1/src/asn1ct_check.erl | 847 |
1 files changed, 343 insertions, 504 deletions
diff --git a/lib/asn1/src/asn1ct_check.erl b/lib/asn1/src/asn1ct_check.erl index aba0e6a9ef..14ffc61068 100644 --- a/lib/asn1/src/asn1ct_check.erl +++ b/lib/asn1/src/asn1ct_check.erl @@ -578,9 +578,8 @@ check_class(S = #state{mname=M,tname=T},ClassSpec) TmpParam <- Params], instantiate_pclass(S,PClassDef,NewParaList) end; -check_class(S,C) when is_record(C,objectclass) -> - NewFieldSpec = check_class_fields(S,C#objectclass.fields), - C#objectclass{fields=NewFieldSpec}; +check_class(S, #objectclass{}=C) -> + check_objectclass(S, C); check_class(_S,{poc,_ObjSet,_Params}) -> 'fix this later'; check_class(S,ClassName) -> @@ -610,6 +609,16 @@ check_class(S,ClassName) -> end end. +check_objectclass(S, #objectclass{fields=Fs0,syntax=Syntax0}=C) -> + Fs = check_class_fields(S, Fs0), + case Syntax0 of + {'WITH SYNTAX',Syntax1} -> + Syntax = preprocess_syntax(S, Syntax1, Fs), + C#objectclass{fields=Fs,syntax={preprocessed_syntax,Syntax}}; + _ -> + C#objectclass{fields=Fs} + end. + instantiate_pclass(S=#state{parameters=_OldArgs},PClassDef,Params) -> #ptypedef{args=Args,typespec=Type} = PClassDef, MatchedArgs = match_args(S,Args, Params, []), @@ -780,7 +789,7 @@ check_object(S,_ObjDef,#'Object'{classname=ClassRef,def=ObjectDef}) -> end, NewObj = case ObjectDef of - Def when is_tuple(Def), (element(1,Def)==object) -> + {object,_,_}=Def -> NewSettingList = check_objectdefn(S,Def,ClassDef), #'Object'{def=NewSettingList}; {po,{object,DefObj},ArgsList} -> @@ -1562,32 +1571,304 @@ gen_incl_set1(S,[Object|Rest],CFields)-> gen_incl_set1(S,Rest,CFields) end. -check_objectdefn(S,Def,CDef) when is_record(CDef,classdef) -> - WithSyntax = (CDef#classdef.typespec)#objectclass.syntax, - ClassFields = (CDef#classdef.typespec)#objectclass.fields, + +%%% +%%% Check an object definition. +%%% + +check_objectdefn(S, Def, #classdef{typespec=ObjClass}) -> + #objectclass{syntax=Syntax0,fields=ClassFields} = ObjClass, case Def of {object,defaultsyntax,Fields} -> - check_defaultfields(S,Fields,ClassFields); + check_defaultfields(S, Fields, ClassFields); {object,definedsyntax,Fields} -> - {_,WSSpec} = WithSyntax, - NewFields = - case catch( convert_definedsyntax(S,Fields,WSSpec, - ClassFields,[])) of - {asn1,{_ErrorType,ObjToken,ClassToken}} -> - throw({asn1,{'match error in object',ObjToken, - 'found in object',ClassToken,'found in class'}}); - Err={asn1,_} -> throw(Err); - Err={'EXIT',_} -> throw(Err); - DefaultFields when is_list(DefaultFields) -> - DefaultFields - end, - {object,defaultsyntax,NewFields}; - {object,_ObjectId} -> % This is a DefinedObject - fixa; - Other -> - exit({error,{objectdefn,Other}}) + Syntax = get_syntax(S, Syntax0, ClassFields), + case match_syntax(S, Syntax, Fields, []) of + {match,NewFields,[]} -> + {object,defaultsyntax,NewFields}; + {match,_,[What|_]} -> + syntax_match_error(S, What); + {nomatch,[What|_]} -> + syntax_match_error(S, What); + {nomatch,[]} -> + syntax_match_error(S) + end end. +get_syntax(_, {preprocessed_syntax,Syntax}, _) -> + Syntax; +get_syntax(S, {'WITH SYNTAX',Syntax}, ClassFields) -> + preprocess_syntax(S, Syntax, ClassFields). + + +%%% +%%% Pre-process the simplified syntax so that it can be more +%%% easily matched. +%%% + +preprocess_syntax(S, [H|T], Cs) when is_list(H) -> + [{optional,preprocess_syntax(S, H, Cs)}|preprocess_syntax(S, T, Cs)]; +preprocess_syntax(S, [{valuefieldreference,Name}|T], Cs) -> + case lists:keyfind(Name, 2, Cs) of + Tuple when is_tuple(Tuple) -> + [{field,Tuple}|preprocess_syntax(S, T, Cs)]; + false -> + asn1_error(S, S#state.type, {syntax_undefined_field,Name}) + end; +preprocess_syntax(S, [{typefieldreference,Name}|T], Cs) -> + case lists:keyfind(Name, 2, Cs) of + Tuple when is_tuple(Tuple) -> + [{field,Tuple}|preprocess_syntax(S, T, Cs)]; + false -> + asn1_error(S, S#state.type, {syntax_undefined_field,Name}) + end; +preprocess_syntax(S,[{Token,_}|T], Cs) when is_atom(Token) -> + [{token,Token}|preprocess_syntax(S, T, Cs)]; +preprocess_syntax(S, [Token|T], Cs) when is_atom(Token) -> + [{token,Token}|preprocess_syntax(S, T, Cs)]; +preprocess_syntax(_, [], _) -> []. + +match_syntax(S, [{token,Token}|T], [A|As]=Args, Acc) -> + case A of + {word_or_setting,_,#'Externaltypereference'{type=Token}} -> + match_syntax(S, T, As, Acc); + {Token,Line} when is_integer(Line) -> + match_syntax(S, T, As, Acc); + _ -> + {nomatch,Args} + end; +match_syntax(S, [{field,Field}|T]=Fs, [A|As0]=Args0, Acc) -> + try match_syntax_type(S, Field, A) of + {match,Match} -> + match_syntax(S, T, As0, lists:reverse(Match)++Acc); + {params,_Name,#ptypedef{args=Params}=P,Ref} -> + {Args,As} = lists:split(length(Params), As0), + Val = match_syntax_params(S, P, Ref, Args), + match_syntax(S, Fs, [Val|As], Acc) + catch + _:_ -> + {nomatch,Args0} + end; +match_syntax(S, [{optional,L}|T], As0, Acc) -> + case match_syntax(S, L, As0, []) of + {match,Match,As} -> + match_syntax(S, T, As, lists:reverse(Match)++Acc); + {nomatch,As0} -> + match_syntax(S, T, As0, Acc); + {nomatch,_}=NoMatch -> + NoMatch + end; +match_syntax(_, [_|_], [], _Acc) -> + {nomatch,[]}; +match_syntax(_, [], As, Acc) -> + {match,lists:reverse(Acc),As}. + +match_syntax_type(S, Type, {value_tag,Val}) -> + match_syntax_type(S, Type, Val); +match_syntax_type(S, Type, {setting,_,Val}) -> + match_syntax_type(S, Type, Val); +match_syntax_type(S, Type, {word_or_setting,_,Val}) -> + match_syntax_type(S, Type, Val); +match_syntax_type(_S, _Type, {Atom,Line}) + when is_atom(Atom), is_integer(Line) -> + throw(nomatch); +match_syntax_type(S, {fixedtypevaluefield,Name,#type{}=T,_,_}=Type, + #'Externalvaluereference'{}=ValRef0) -> + try get_referenced_type(S, ValRef0) of + {M,#valuedef{}=ValDef} -> + match_syntax_type(update_state(S, M), Type, ValDef) + catch + throw:{error,_} -> + ValRef = #valuedef{name=Name, + type=T, + value=ValRef0, + module=S#state.mname}, + match_syntax_type(S, Type, ValRef) + end; +match_syntax_type(S, {fixedtypevaluefield,Name,#type{},_,_}, #valuedef{}=Val0) -> + Val = check_value(S, Val0), + {match,[{Name,Val}]}; +match_syntax_type(S, {fixedtypevaluefield,Name,#type{},_,_}, + {'ValueFromObject',{object,Object},FieldNames}) -> + Val = extract_field(S, Object, FieldNames), + {match,[{Name,Val}]}; +match_syntax_type(S, {fixedtypevaluefield,Name,#type{}=T,_,_}=Type, Any) -> + ValDef = #valuedef{name=Name,type=T,value=Any,module=S#state.mname}, + match_syntax_type(S, Type, ValDef); +match_syntax_type(_S, {fixedtypevaluesetfield,Name,#type{},_}, Any) -> + {match,[{Name,Any}]}; +match_syntax_type(S, {objectfield,Name,_,_,_}, #'Externalvaluereference'{}=Ref) -> + {M,Obj} = get_referenced_type(S, Ref), + check_object(S, Obj, object_to_check(Obj)), + {match,[{Name,Ref#'Externalvaluereference'{module=M}}]}; +match_syntax_type(S, {objectfield,Name,Class,_,_}, {object,_,_}=ObjDef) -> + InlinedObjName = list_to_atom(lists:concat([S#state.tname, + '_',Name])), + ObjSpec = #'Object'{classname=Class,def=ObjDef}, + CheckedObj = check_object(S, #typedef{typespec=ObjSpec}, ObjSpec), + InlObj = #typedef{checked=true,name=InlinedObjName,typespec=CheckedObj}, + ObjKey = {InlinedObjName, InlinedObjName}, + insert_once(S, inlined_objects, ObjKey), + %% Which module to use here? Could it be other than top_module? + asn1_db:dbput(get(top_module), InlinedObjName, InlObj), + {match,[{Name,InlObj}]}; +match_syntax_type(_S, {objectfield,Name,_,_,_}, Any) -> + {match,[{Name,Any}]}; +match_syntax_type(S, {objectsetfield,Name,CDef0,_}, Any) -> + CDef = case CDef0 of + #type{def=CDef1} -> CDef1; + CDef1 -> CDef1 + end, + case match_syntax_objset(S, Any, CDef) of + #typedef{typespec=#'ObjectSet'{}=Ts0}=Def -> + Ts = check_object(S, Def, Ts0), + {match,[{Name,Def#typedef{checked=true,typespec=Ts}}]}; + _ -> + syntax_match_error(S, Any) + end; +match_syntax_type(S, {typefield,Name0,_}, #type{def={pt,_,_}=Def}=Actual) -> + %% This is an inlined type. If constructed type, save in data base. + T = check_type(S, #typedef{typespec=Actual}, Actual), + #'Externaltypereference'{type=PtName} = element(2, Def), + NameList = [PtName,S#state.tname], + Name = list_to_atom(asn1ct_gen:list2name(NameList)), + NewTDef = #typedef{checked=true,name=Name,typespec=T}, + asn1_db:dbput(S#state.mname, Name, NewTDef), + insert_once(S, parameterized_objects, {Name,type,NewTDef}), + {match,[{Name0,NewTDef}]}; +match_syntax_type(S, {typefield,Name,_}, #type{def=#'ObjectClassFieldType'{}}=Actual) -> + T = check_type(S, #typedef{typespec=Actual}, Actual), + {match,[{Name,ocft_def(T)}]}; +match_syntax_type(S, {typefield,Name,_}, #type{def=#'Externaltypereference'{}=Ref}) -> + match_syntax_external(S, Name, Ref); +match_syntax_type(S, {typefield,Name,_}, #type{def=Def}=Actual) -> + T = check_type(S, #typedef{typespec=Actual}, Actual), + TypeName = asn1ct_gen:type(asn1ct_gen:get_inner(Def)), + {match,[{Name,#typedef{checked=true,name=TypeName,typespec=T}}]}; +match_syntax_type(S, {typefield,Name,_}, #'Externaltypereference'{}=Ref) -> + match_syntax_external(S, Name, Ref); +match_syntax_type(_S, {variabletypevaluefield,Name,_,_}, Any) -> + {match,[{Name,Any}]}; +match_syntax_type(_S, {variabletypevaluesetfield,Name,_,_}, Any) -> + {match,[{Name,Any}]}; +match_syntax_type(_S, _Type, _Actual) -> + throw(nomatch). + +match_syntax_params(S0, #ptypedef{name=Name}=PtDef, + #'Externaltypereference'{module=M,type=N}=ERef0, Args) -> + S = S0#state{mname=M,module=load_asn1_module(S0, M), + type=PtDef,tname=Name}, + Type = check_type(S, PtDef, #type{def={pt,ERef0,Args}}), + ERefName = new_reference_name(N), + ERef = #'Externaltypereference'{type=ERefName,module=S0#state.mname}, + TDef = #typedef{checked=true,name=ERefName,typespec=Type}, + insert_once(S0, parameterized_objects, {ERefName,type,TDef}), + asn1_db:dbput(S0#state.mname, ERef#'Externaltypereference'.type, TDef), + ERef. + +match_syntax_external(#state{mname=Mname}=S0, Name, Ref0) -> + {M,T0} = get_referenced_type(S0, Ref0), + Ref1 = Ref0#'Externaltypereference'{module=M}, + case T0 of + #ptypedef{} -> + {params,Name,T0,Ref1}; + #typedef{checked=false}=TDef0 when Mname =/= M -> + %% This typedef is an imported type (or maybe a set.asn + %% compilation). + S = S0#state{mname=M,module=load_asn1_module(S0, M), + type=TDef0,tname=get_datastr_name(TDef0)}, + Type = check_type(S, TDef0, TDef0#typedef.typespec), + TDef = TDef0#typedef{checked=true,typespec=Type}, + asn1_db:dbput(M, get_datastr_name(TDef), TDef), + {match,[{Name,merged_name(S, Ref1)}]}; + TDef -> + %% This might be a renamed type in a set of specs, + %% so rename the ref. + Type = asn1ct:get_name_of_def(TDef), + Ref = Ref1#'Externaltypereference'{type=Type}, + {match,[{Name,Ref}]} + end. + +match_syntax_objset(S, #'Externaltypereference'{}=Ref, _) -> + {_,T} = get_referenced_type(S, Ref), + T; +match_syntax_objset(S, #'Externalvaluereference'{}=Ref, _) -> + {_,T} = get_referenced_type(S, Ref), + T; +match_syntax_objset(_, [_|_]=Set, ClassDef) -> + make_objset(ClassDef, Set); +match_syntax_objset(_, {'SingleValue',_}=Set, ClassDef) -> + make_objset(ClassDef, Set); +match_syntax_objset(_, {{'SingleValue',_},_}=Set, ClassDef) -> + make_objset(ClassDef, Set); +match_syntax_objset(S, {object,definedsyntax,Words}, ClassDef) -> + case Words of + [Word] -> + match_syntax_objset_1(S, Word, ClassDef); + [_|_] -> + %% More than one word does not make sense. + none + end; +match_syntax_objset(S, #type{def=#'Externaltypereference'{}=Set}, ClassDef) -> + match_syntax_objset(S, Set, ClassDef); +match_syntax_objset(_, #type{}, _) -> + none. + +match_syntax_objset_1(S, {setting,_,Set}, ClassDef) -> + %% Word that starts with an uppercase letter. + match_syntax_objset(S, Set, ClassDef); +match_syntax_objset_1(S, {word_or_setting,_,Set}, ClassDef) -> + %% Word in uppercase/hyphens only. + match_syntax_objset(S, Set, ClassDef); +match_syntax_objset_1(S, #type{def={'TypeFromObject', + {object,Object}, + FieldNames}}, _) -> + #typedef{checked=true,typespec=extract_field(S, Object, FieldNames)}; +match_syntax_objset_1(_, #type{def=#'ObjectClassFieldType'{}}=Set, ClassDef) -> + make_objset(ClassDef, Set). + +make_objset(ClassDef, Set) -> + #typedef{typespec=#'ObjectSet'{class=ClassDef,set=Set}}. + +syntax_match_error(#state{type=Type}=S) -> + asn1_error(S, Type, syntax_nomatch). + +syntax_match_error(#state{type=Type}=S, What0) -> + What = printable_string(What0), + asn1_error(S, Type, {syntax_nomatch,What}). + +printable_string(Def) -> + printable_string_1(Def). + +printable_string_1({word_or_setting,_,Def}) -> + printable_string_1(Def); +printable_string_1({value_tag,V}) -> + printable_string_1(V); +printable_string_1({#seqtag{val=Val1},Val2}) -> + atom_to_list(Val1) ++ " " ++ printable_string_1(Val2); +printable_string_1(#type{def=Def}) -> + atom_to_list(asn1ct_gen:get_inner(Def)); +printable_string_1(#'Externaltypereference'{type=Type}) -> + atom_to_list(Type); +printable_string_1(#'Externalvaluereference'{value=Type}) -> + atom_to_list(Type); +printable_string_1({Atom,Line}) when is_atom(Atom), is_integer(Line) -> + q(Atom); +printable_string_1({object,definedsyntax,L}) -> + q(string:join([printable_string_1(Item) || Item <- L], " ")); +printable_string_1([_|_]=Def) -> + case lists:all(fun is_integer/1, Def) of + true -> + lists:flatten(io_lib:format("~p", [Def])); + false -> + q(string:join([printable_string_1(Item) || Item <- Def], " ")) + end; +printable_string_1(Def) -> + lists:flatten(io_lib:format("~p", [Def])). + +q(S) -> + lists:concat(["\"",S,"\""]). + check_defaultfields(S, Fields, ClassFields) -> Present = ordsets:from_list([F || {F,_} <- Fields]), Mandatory0 = get_mandatory_class_fields(ClassFields), @@ -1611,23 +1892,8 @@ check_defaultfields_1(_S, [], _ClassFields, Acc) -> {object,defaultsyntax,lists:reverse(Acc)}; check_defaultfields_1(S, [{FName,Spec}|Fields], ClassFields, Acc) -> CField = lists:keyfind(FName, 2, ClassFields), - {NewField,RestFields} = - convert_to_defaultfield(S, FName, [Spec|Fields], CField), - check_defaultfields_1(S, RestFields, ClassFields, [NewField|Acc]). - -convert_definedsyntax(_S,[],[],_ClassFields,Acc) -> - lists:reverse(Acc); -convert_definedsyntax(S,Fields,WithSyntax,ClassFields,Acc) -> - {MatchedField,RestFields,RestWS} = - match_field(S,Fields,WithSyntax,ClassFields), - if - is_list(MatchedField) -> - convert_definedsyntax(S,RestFields,RestWS,ClassFields, - lists:append(MatchedField,Acc)); - true -> - convert_definedsyntax(S,RestFields,RestWS,ClassFields, - [MatchedField|Acc]) - end. + {match,Match} = match_syntax_type(S, CField, Spec), + check_defaultfields_1(S, Fields, ClassFields, Match++Acc). get_mandatory_class_fields([{fixedtypevaluefield,Name,_,_,'MANDATORY'}|T]) -> [Name|get_mandatory_class_fields(T)]; @@ -1646,395 +1912,6 @@ get_mandatory_class_fields([_|T]) -> get_mandatory_class_fields(T); get_mandatory_class_fields([]) -> []. -match_field(S,Fields,WithSyntax,ClassFields) -> - match_field(S,Fields,WithSyntax,ClassFields,[]). - -match_field(S,Fields,[W|Ws],ClassFields,Acc) when is_list(W) -> - case catch(match_optional_field(S,Fields,W,ClassFields,[])) of - {'EXIT',_} -> - match_field(Fields,Ws,ClassFields,Acc); %% add S -%% {[Result],RestFields} -> -%% {Result,RestFields,Ws}; - {Result,RestFields} when is_list(Result) -> - {Result,RestFields,Ws}; - _ -> - match_field(S,Fields,Ws,ClassFields,Acc) - end; -match_field(S,Fields,WithSyntax,ClassFields,_Acc) -> - match_mandatory_field(S,Fields,WithSyntax,ClassFields,[]). - -match_optional_field(_S,RestFields,[],_,Ret) -> - {Ret,RestFields}; -%% An additional optional field within an optional field -match_optional_field(S,Fields,[W|Ws],ClassFields,Ret) when is_list(W) -> - case catch match_optional_field(S,Fields,W,ClassFields,[]) of - {'EXIT',_} when length(Ws) > 0 -> - match_optional_field(S,Fields,Ws,ClassFields,Ret); - {'EXIT',_} -> - {Ret,Fields}; - {asn1,{optional_matcherror,_,_}} when length(Ws) > 0 -> - match_optional_field(S,Fields,Ws,ClassFields,Ret); - {asn1,{optional_matcherror,_,_}} -> - {Ret,Fields}; - {OptionalField,RestFields} -> - match_optional_field(S,RestFields,Ws,ClassFields, - lists:append(OptionalField,Ret)) - end; -%% identify and skip word -match_optional_field(S,[{_,_,#'Externaltypereference'{type=WorS}}|Rest], - [WorS|Ws],ClassFields,Ret) -> - match_optional_field(S,Rest,Ws,ClassFields,Ret); -match_optional_field(S,[],_,ClassFields,Ret) -> - match_optional_field(S,[],[],ClassFields,Ret); -%% identify and skip comma -match_optional_field(S,[{WorS,_}|Rest],[{WorS,_}|Ws],ClassFields,Ret) -> - match_optional_field(S,Rest,Ws,ClassFields,Ret); -%% am optional setting inside another optional setting may be "double-listed" -match_optional_field(S,[Setting],DefinedSyntax,ClassFields,Ret) - when is_list(Setting) -> - match_optional_field(S,Setting,DefinedSyntax,ClassFields,Ret); -%% identify and save field data -match_optional_field(S,[Setting|Rest],[{_,W}|Ws],ClassFields,Ret) -> - ?dbg("matching optional field setting: ~p with user friendly syntax: ~p~n",[Setting,W]), - WorS = - case Setting of - Type when is_record(Type,type) -> Type; - {'ValueFromObject',_,_} -> Setting; - {object,_,_} -> Setting; - {_,_,WordOrSetting} -> WordOrSetting; - Other -> Other - end, - case lists:keysearch(W,2,ClassFields) of - false -> - throw({asn1,{optional_matcherror,WorS,W}}); - {value,CField} -> - {NewField,RestFields} = - convert_to_defaultfield(S,W,[WorS|Rest],CField), - match_optional_field(S,RestFields,Ws,ClassFields,[NewField|Ret]) - end; -match_optional_field(_S,[WorS|_Rest],[W|_Ws],_ClassFields,_Ret) -> - throw({asn1,{optional_matcherror,WorS,W}}). - -match_mandatory_field(_S,[],[],_,[Acc]) -> - {Acc,[],[]}; -match_mandatory_field(_S,[],[],_,Acc) -> - {Acc,[],[]}; -match_mandatory_field(S,[],[H|T],CF,Acc) when is_list(H) -> - match_mandatory_field(S,[],T,CF,Acc); -match_mandatory_field(_S,[],WithSyntax,_,_Acc) -> - throw({asn1,{mandatory_matcherror,[],WithSyntax}}); -%match_mandatory_field(_S,Fields,WithSyntax=[W|_Ws],_ClassFields,[Acc]) when is_list(W) -> -match_mandatory_field(_S,Fields,WithSyntax=[W|_Ws],_ClassFields,Acc) when is_list(W), length(Acc) >= 1 -> - {Acc,Fields,WithSyntax}; -%% identify and skip word -%%match_mandatory_field(S,[{_,_,WorS}|Rest], -match_mandatory_field(S,[{_,_,#'Externaltypereference'{type=WorS}}|Rest], - [WorS|Ws],ClassFields,Acc) -> - match_mandatory_field(S,Rest,Ws,ClassFields,Acc); -%% identify and skip comma -match_mandatory_field(S,[{WorS,_}|Rest],[{WorS,_}|Ws],ClassFields,Ret) -> - match_mandatory_field(S,Rest,Ws,ClassFields,Ret); -%% identify and save field data -match_mandatory_field(S,[Setting|Rest],[{_,W}|Ws],ClassFields,Acc) -> - ?dbg("matching field setting: ~p with user friendly syntax: ~p~n",[Setting,W]), - WorS = - case Setting of - {object,_,_} -> Setting; - {_,_,WordOrSetting} -> WordOrSetting; - Type when is_record(Type,type) -> Type; - Other -> Other - end, - case lists:keysearch(W,2,ClassFields) of - false -> - throw({asn1,{mandatory_matcherror,WorS,W}}); - {value,CField} -> - {NewField,RestFields} = - convert_to_defaultfield(S,W,[WorS|Rest],CField), - match_mandatory_field(S,RestFields,Ws,ClassFields,[NewField|Acc]) - end; - -match_mandatory_field(_S,[WorS|_Rest],[W|_Ws],_ClassFields,_Acc) -> - throw({asn1,{mandatory_matcherror,WorS,W}}). - -%% Converts a field of an object from defined syntax to default syntax -%% A field may be a type, a fixed type value, an object, an objectset, -%% -convert_to_defaultfield(S,ObjFieldName,[OFS|RestOFS],CField)-> - ?dbg("convert field: ~p of type: ~p~n",[ObjFieldName,element(1,CField)]), - CurrMod = S#state.mname, - Strip_value_tag = - fun({value_tag,ValueSetting}) -> ValueSetting; - (VS) -> VS - end, - ObjFieldSetting = Strip_value_tag(OFS), - RestSettings = [Strip_value_tag(X)||X <- RestOFS], - case element(1,CField) of - typefield -> - TypeDef= - case ObjFieldSetting of - TypeRec when is_record(TypeRec,type) -> TypeRec#type.def; - TDef when is_record(TDef,typedef) -> - TDef#typedef{checked=true, - typespec=check_type(S,TDef, - TDef#typedef.typespec)}; - _ -> ObjFieldSetting - end, - {Type,SettingsLeft} = - if - is_record(TypeDef,typedef) -> {TypeDef,RestSettings}; - is_record(TypeDef,'ObjectClassFieldType') -> - T=check_type(S,#typedef{typespec=ObjFieldSetting},ObjFieldSetting), - {oCFT_def(S,T),RestSettings}; -% #typedef{checked=true,name=Name,typespec=IT}; - is_tuple(TypeDef), element(1,TypeDef) == pt -> - %% this is an inlined type. If constructed - %% type save in data base - T=check_type(S,#typedef{typespec=ObjFieldSetting},ObjFieldSetting), - #'Externaltypereference'{type=PtName} = - element(2,TypeDef), - NameList = [PtName,S#state.tname], - NewName = list_to_atom(asn1ct_gen:list2name(NameList)), - NewTDef=#typedef{checked=true,name=NewName, - typespec=T}, - asn1_db:dbput(S#state.mname,NewName,NewTDef), - %%asn1ct_gen:insert_once(parameterized_objects,{NewName,type,NewTDef}), - insert_once(S,parameterized_objects, - {NewName,type,NewTDef}), - {NewTDef,RestSettings}; - is_tuple(TypeDef), element(1,TypeDef)=='SelectionType' -> - T=check_type(S,#typedef{typespec=ObjFieldSetting}, - ObjFieldSetting), - Name = type_name(S,T), - {#typedef{checked=true,name=Name,typespec=T},RestSettings}; - true -> - case asn1ct_gen:type(asn1ct_gen:get_inner(TypeDef)) of - ERef = #'Externaltypereference'{module=CurrMod} -> - {RefMod,T} = get_referenced_type(S,ERef), - check_and_save(S,ERef#'Externaltypereference'{module=RefMod},T,RestSettings); - - ERef = #'Externaltypereference'{} -> - {RefMod,T} = get_referenced_type(S,ERef), - check_and_save(S,ERef#'Externaltypereference'{module=RefMod},T,RestSettings); - Bif when Bif=={primitive,bif};Bif=={constructed,bif} -> - T = check_type(S,#typedef{typespec=ObjFieldSetting}, - ObjFieldSetting), - {#typedef{checked=true,name=Bif,typespec=T},RestSettings}; - _ -> - %this case should not happen any more - {Mod,T} = - get_referenced_type(S,#'Externaltypereference'{module=S#state.mname,type=ObjFieldSetting}), - case Mod of - CurrMod -> - {T,RestSettings}; - ExtMod -> - #typedef{name=Name} = T, - {T#typedef{name={ExtMod,Name}},RestSettings} - end - end - end, - {{ObjFieldName,Type},SettingsLeft}; - fixedtypevaluefield -> - case ObjFieldName of - Val when is_atom(Val) -> - %% ObjFieldSetting can be a value,an objectidentifiervalue, - %% an element in an enumeration or namednumberlist etc. - ValRef = - case ObjFieldSetting of - ValSetting=#'Externalvaluereference'{} -> - ValSetting; - {'ValueFromObject',{_,ObjRef},FieldName} -> - {_,Object} = get_referenced_type(S,ObjRef), - ChObject = check_object(S,Object, - Object#typedef.typespec), - get_fieldname_element(S,Object#typedef{typespec=ChObject}, - FieldName); - ValSetting = #valuedef{} -> - ValSetting; - ValSetting -> - #valuedef{type=element(3,CField), - value=ValSetting, - module=S#state.mname} - end, - ?dbg("fixedtypevaluefield ValRef: ~p~n",[ValRef]), - case ValRef of - #valuedef{} -> - {{ObjFieldName,check_value(S,ValRef)},RestSettings}; - _ -> - ValDef = - case catch get_referenced_type(S,ValRef) of - {error,_} -> - NewValDef = - #valuedef{name=Val, - type=element(3,CField), - value=ObjFieldSetting, - module=S#state.mname}, - check_value(S,NewValDef); - {M,VDef} when is_record(VDef,valuedef) -> - check_value(update_state(S,M), - %%S#state{mname=M}, - VDef);%% XXX - {M,VDef} -> - check_value(update_state(S,M), - %%S#state{mname=M}, - #valuedef{name=Val, - type=element(3,CField), - value=VDef, - module=M}) - end, - {{ObjFieldName,ValDef},RestSettings} - end; - Val -> - {{ObjFieldName,Val},RestSettings} - end; - fixedtypevaluesetfield -> - {{ObjFieldName,ObjFieldSetting},RestSettings}; - objectfield -> - CheckObject = - fun(O) -> - O#typedef{checked=true,typespec= - check_object(S,O,O#typedef.typespec)} - end, - ObjectSpec = - case ObjFieldSetting of - Ref when is_record(Ref,'Externalvaluereference') -> - %% The object O might be a #valuedef{} if - %% e.g. the definition looks like - %% myobj SOMECLASS ::= referencedObject - {M,O} = get_referenced_type(S,Ref), - check_object(S,O,object_to_check(O)), - Ref#'Externalvaluereference'{module=M}; - - {'ValueFromObject',{_,ObjRef},FieldName} -> - %% This is an ObjectFromObject - {_,Object} = get_referenced_type(S,ObjRef), - ChObject = check_object(S,Object, - Object#typedef.typespec), - ObjFromObj= - get_fieldname_element(S,Object#typedef{ - typespec=ChObject}, - FieldName), - CheckObject(ObjFromObj); - ObjDef={object,_,_} -> - %% An object defined inlined in another object - %% class is an objectfield, that implies that - %% {objectsetfield,TypeFieldName,DefinedObjecClass, - %% OptionalitySpec} - %% DefinedObjecClass = #'Externaltypereference'{}| - %% 'TYPE-IDENTIFIER' | 'ABSTRACT-SYNTAX' - ClassName = element(3,CField), - InlinedObjName= - list_to_atom(lists:concat([S#state.tname]++ - ['_',ObjFieldName])), - - ObjSpec = #'Object'{classname=ClassName, - def=ObjDef}, - CheckedObj= - check_object(S,#typedef{typespec=ObjSpec},ObjSpec), - InlObj = #typedef{checked=true,name=InlinedObjName, - typespec=CheckedObj}, - ObjKey = {InlinedObjName,InlinedObjName}, - %% asn1ct_gen:insert_once(inlined_objects,ObjKey), - insert_once(S,inlined_objects,ObjKey), - %% Which module to use here? Could it be other than top_module ? - %% asn1_db:dbput(S#state.mname,InlinedObjName,InlObj), - asn1_db:dbput(get(top_module),InlinedObjName,InlObj), - InlObj; - #type{def=Eref} when is_record(Eref,'Externaltypereference') -> - {_,O} = get_referenced_type(S,Eref), - CheckObject(O); - Other -> - {_,O} = get_referenced_type(S,#'Externaltypereference'{module=S#state.mname,type=Other}), - CheckObject(O) - end, - {{ObjFieldName,ObjectSpec},RestSettings}; - variabletypevaluefield -> - {{ObjFieldName,ObjFieldSetting},RestSettings}; - variabletypevaluesetfield -> - {{ObjFieldName,ObjFieldSetting},RestSettings}; -%% objectset_or_fixedtypevalueset_field -> -%% ok; - objectsetfield -> - ObjSetSpec = get_objectset_def(S,ObjFieldSetting,CField), - ?dbg("objectsetfield, ObjSetSpec:~p~n",[ObjSetSpec]), - {{ObjFieldName, - ObjSetSpec#typedef{checked=true, - typespec=check_object(S,ObjSetSpec, - ObjSetSpec#typedef.typespec)}},RestSettings} - end. - -get_objectset_def(S,Ref,CField) - when is_record(Ref,'Externaltypereference'); - is_record(Ref,'Externalvaluereference') -> - {_M,T}=get_referenced_type(S,Ref), - get_objectset_def2(S,T,CField); -get_objectset_def(S,ObjectList,CField) when is_list(ObjectList) -> - %% an objctset defined in the object,though maybe - %% parsed as a SequenceOfValue - %% The ObjectList may be a list of references to - %% objects, a ValueFromObject - ?dbg("objectsetfield: ~p~n",[CField]), - get_objectset_def2(S,ObjectList,CField); -get_objectset_def(S,'EXTENSIONMARK',CField) -> - ?dbg("objectsetfield: ~p~n",[CField]), - get_objectset_def2(S,['EXTENSIONMARK'],CField); -get_objectset_def(_S,ObjFieldSetting={'SingleValue',_},CField) -> - %% a Union of defined objects - ?dbg("objectsetfield, SingleValue~n",[]), - union_of_defed_objs(CField,ObjFieldSetting); -get_objectset_def(_S,ObjFieldSetting={{'SingleValue',_},_},CField) -> - %% a Union of defined objects - ?dbg("objectsetfield, SingleValue~n",[]), - union_of_defed_objs(CField,ObjFieldSetting); -get_objectset_def(S, {object,_, - [#type{def={'TypeFromObject', - {object,Object}, - FieldNames}}]}, - CField) -> - %% This case occurs when an ObjectSetFromObject - %% production is used. - Def = #typedef{checked=true, - typespec=extract_field(S, Object, FieldNames)}, - get_objectset_def2(S, Def, CField); -get_objectset_def(S,{object,_,[{setting,_,ERef}]},CField) - when is_record(ERef,'Externaltypereference') -> - {_,T} = get_referenced_type(S,ERef), - get_objectset_def2(S,T,CField); -get_objectset_def(S,#type{def=ERef},_CField) - when is_record(ERef,'Externaltypereference') -> - {_,T} = get_referenced_type(S,ERef), - T; -get_objectset_def(S,ObjFieldSetting,CField) - when is_atom(ObjFieldSetting) -> - ERef = #'Externaltypereference'{module=S#state.mname, - type=ObjFieldSetting}, - {_,T} = get_referenced_type(S,ERef), - get_objectset_def2(S,T,CField). - -get_objectset_def2(_S,T = #typedef{typespec=#'Object'{}},_CField) -> - #typedef{typespec=#'Object'{classname=Class,def=Def}} = T, - T#typedef{typespec=#'ObjectSet'{class=Class,set=[Def]}}; -get_objectset_def2(_S,Set,CField) when is_list(Set) -> - {_,_,Type,_} = CField, - ClassDef = Type#type.def, - #typedef{typespec=#'ObjectSet'{class=ClassDef, - set=Set}}; -get_objectset_def2(_S,T = #typedef{typespec=#'ObjectSet'{}},_CField) -> - T; -get_objectset_def2(S,T,_CField) -> - asn1ct:warning("get_objectset_def2: uncontrolled object set structure:~n~p~n", - [T],S,"get_objectset_def2: uncontrolled object set structure"). - -type_name(S,#type{def=Def}) -> - CurrMod = S#state.mname, - case asn1ct_gen:type(asn1ct_gen:get_inner(Def)) of - #'Externaltypereference'{module=CurrMod,type=Name} -> - Name; - #'Externaltypereference'{module=Mod,type=Name} -> - {Mod,Name}; - Bif when Bif=={primitive,bif};Bif=={constructed,bif} -> - Bif - end. - merged_name(#state{inputmodules=[]},ERef) -> ERef; merged_name(S,ERef=#'Externaltypereference'{module=M}) -> @@ -2049,38 +1926,18 @@ merged_name(S,ERef=#'Externaltypereference'{module=M}) -> ERef end. -oCFT_def(S,T) -> - case get_OCFT_inner(S,T) of - ERef=#'Externaltypereference'{} -> ERef; - {Name,Type} -> #typedef{checked=true,name=Name,typespec=Type}; - 'ASN1_OPEN_TYPE' -> - #typedef{checked=true,typespec=T#type{def='ASN1_OPEN_TYPE'}} - end. - -get_OCFT_inner(_S,T) -> -% Module=S#state.mname, - Def = T#type.def, - case Def#'ObjectClassFieldType'.type of +ocft_def(#type{def=#'ObjectClassFieldType'{type=OCFT}}=T) -> + case OCFT of {fixedtypevaluefield,_,InnerType} -> case asn1ct_gen:type(asn1ct_gen:get_inner(InnerType#type.def)) of - Bif when Bif=={primitive,bif};Bif=={constructed,bif} -> - {Bif,InnerType}; - ERef = #'Externaltypereference'{} -> - ERef + Bif when Bif =:= {primitive,bif}; Bif =:= {constructed,bif} -> + #typedef{checked=true,name=Bif,typespec=InnerType}; + #'Externaltypereference'{}=Ref -> + Ref end; - 'ASN1_OPEN_TYPE' -> 'ASN1_OPEN_TYPE' + 'ASN1_OPEN_TYPE' -> + #typedef{checked=true,typespec=T#type{def='ASN1_OPEN_TYPE'}} end. - - - -union_of_defed_objs({_,_,_ObjClass=#type{def=ClassDef},_},ObjFieldSetting) -> - #typedef{typespec=#'ObjectSet'{class = ClassDef, - set = ObjFieldSetting}}; -union_of_defed_objs({_,_,DefObjClassRef,_},ObjFieldSetting) - when is_record(DefObjClassRef,'Externaltypereference') -> - #typedef{typespec=#'ObjectSet'{class = DefObjClassRef, - set = ObjFieldSetting}}. - check_value(OldS,V) when is_record(V,pvaluesetdef) -> #pvaluesetdef{checked=Checked,type=Type} = V, @@ -3046,7 +2903,9 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> Key); _ -> ok end, + Pos = Ext#'Externaltypereference'.pos, {RefType1,#'Externaltypereference'{module=RefMod, + pos=Pos, type=TmpName}} end, @@ -4581,37 +4440,6 @@ get_imported(S,Name,Module,Pos) -> get_renamed_reference(S,Name,Module) end. -check_and_save(S,#'Externaltypereference'{module=M}=ERef,#typedef{checked=false}=TDef,Settings) - when S#state.mname /= M -> - %% This ERef is an imported type (or maybe a set.asn compilation) - NewS = S#state{mname=M,module=load_asn1_module(S,M), - type=TDef,tname=get_datastr_name(TDef)}, - Type=check_type(NewS,TDef,TDef#typedef.typespec),%XXX - CheckedTDef = TDef#typedef{checked=true, - typespec=Type}, - asn1_db:dbput(M,get_datastr_name(TDef),CheckedTDef), - {merged_name(S,ERef),Settings}; -check_and_save(S,#'Externaltypereference'{module=M,type=N}=Eref, - #ptypedef{name=Name,args=Params} = PTDef,Settings) -> - %% instantiate a parameterized type - %% The parameterized type should be saved as a type in the module - %% it was instantiated. - NewS = S#state{mname=M,module=load_asn1_module(S,M), - type=PTDef,tname=Name}, - {Args,RestSettings} = lists:split(length(Params),Settings), - Type = check_type(NewS,PTDef,#type{def={pt,Eref,Args}}), - ERefName = new_reference_name(N), - ERefNew = #'Externaltypereference'{type=ERefName,module=S#state.mname}, - NewTDef=#typedef{checked=true,name=ERefName, - typespec=Type}, - insert_once(S,parameterized_objects,{ERefName,type,NewTDef}), - asn1_db:dbput(S#state.mname,ERefNew#'Externaltypereference'.type, - NewTDef), - {ERefNew,RestSettings}; -check_and_save(_S,ERef,TDef,Settings) -> - %% This might be a renamed type in a set of specs, so rename the ERef - {ERef#'Externaltypereference'{type=asn1ct:get_name_of_def(TDef)},Settings}. - save_object_set_instance(S,Name,ObjSetSpec) when is_record(ObjSetSpec,'ObjectSet') -> NewObjSet = #typedef{checked=true,name=Name,typespec=ObjSetSpec}, @@ -5169,7 +4997,7 @@ expand_components2(S,{_,PT={pt,_,_}}) -> expand_components2(S,{_,OCFT = #'ObjectClassFieldType'{}}) -> UncheckedType = #type{def=OCFT}, Type = check_type(S,#typedef{typespec=UncheckedType},UncheckedType), - expand_components2(S,{undefined,oCFT_def(S,Type)}); + expand_components2(S, {undefined,ocft_def(Type)}); expand_components2(S,{_,ERef}) when is_record(ERef,'Externaltypereference') -> expand_components2(S,get_referenced_type(S,ERef)); expand_components2(_S,Err) -> @@ -6703,6 +6531,14 @@ format_error({missing_mandatory_fields,Fields,Obj}) -> [format_fields(Fields),Obj]); format_error({namelist_redefinition,Name}) -> io_lib:format("the name '~s' can not be redefined", [Name]); +format_error(syntax_nomatch) -> + "unexpected end of object definition"; +format_error({syntax_nomatch,Actual}) -> + io_lib:format("~s is not the next item allowed according to the defined syntax", + [Actual]); +format_error({syntax_undefined_field,Field}) -> + io_lib:format("'&~s' is not a field of the class being defined", + [Field]); format_error({undefined,Name}) -> io_lib:format("'~s' is referenced, but is not defined", [Name]); format_error({undefined_import,Ref,Module}) -> @@ -6931,21 +6767,24 @@ default_type_list() -> ]. -include_default_class(S,Module) -> - NameAbsList = default_class_list(S), - include_default_class1(Module,NameAbsList). +include_default_class(S, Module) -> + _ = [include_default_class1(S, Module, ClassDef) || + ClassDef <- default_class_list(S)], + ok. -include_default_class1(_,[]) -> - ok; -include_default_class1(Module,[{Name,TS}|Rest]) -> - case asn1_db:dbget(Module,Name) of +include_default_class1(S, Module, {Name,Ts0}) -> + case asn1_db:dbget(Module, Name) of undefined -> - C = #classdef{checked=true,module=Module,name=Name, - typespec=TS}, - asn1_db:dbput(Module,Name,C); - _ -> ok - end, - include_default_class1(Module,Rest). + #objectclass{fields=Fields, + syntax={'WITH SYNTAX',Syntax0}} = Ts0, + Syntax = preprocess_syntax(S, Syntax0, Fields), + Ts = Ts0#objectclass{syntax={preprocessed_syntax,Syntax}}, + C = #classdef{checked=true,module=Module, + name=Name,typespec=Ts}, + asn1_db:dbput(Module, Name, C); + _ -> + ok + end. default_class_list(S) -> [{'TYPE-IDENTIFIER', |