diff options
Diffstat (limited to 'lib/asn1/src')
-rw-r--r-- | lib/asn1/src/Makefile | 1 | ||||
-rw-r--r-- | lib/asn1/src/asn1.app.src | 2 | ||||
-rw-r--r-- | lib/asn1/src/asn1_db.erl | 8 | ||||
-rw-r--r-- | lib/asn1/src/asn1_records.hrl | 16 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct.erl | 71 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_check.erl | 5271 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_constructed_per.erl | 155 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_gen.erl | 75 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_gen_ber_bin_v2.erl | 109 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_imm.erl | 42 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_parser.yrl | 1177 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_parser2.erl | 2517 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_tok.erl | 332 | ||||
-rw-r--r-- | lib/asn1/src/asn1ct_value.erl | 5 |
14 files changed, 3354 insertions, 6427 deletions
diff --git a/lib/asn1/src/Makefile b/lib/asn1/src/Makefile index 6798da0072..40f440423d 100644 --- a/lib/asn1/src/Makefile +++ b/lib/asn1/src/Makefile @@ -206,6 +206,7 @@ $(EBIN)/asn1ct_constructed_per.beam: asn1ct_constructed_per.erl asn1_records.hrl $(EBIN)/asn1ct_func.beam: asn1ct_func.erl $(EBIN)/asn1ct_gen.beam: asn1ct_gen.erl asn1_records.hrl $(EBIN)/asn1ct_gen_ber_bin_v2.beam: asn1ct_gen_ber_bin_v2.erl asn1_records.hrl +$(EBIN)/asn1ct_gen_check.beam: asn1_records.hrl $(EBIN)/asn1ct_gen_per.beam: asn1ct_gen_per.erl asn1_records.hrl $(EBIN)/asn1ct_gen_per_rt2ct.beam: asn1ct_gen_per_rt2ct.erl asn1_records.hrl $(EBIN)/asn1ct_imm.beam: asn1ct_imm.erl diff --git a/lib/asn1/src/asn1.app.src b/lib/asn1/src/asn1.app.src index 02cbba0f10..1f8805ff5e 100644 --- a/lib/asn1/src/asn1.app.src +++ b/lib/asn1/src/asn1.app.src @@ -11,5 +11,5 @@ ]}, {env, []}, {applications, [kernel, stdlib]}, - {runtime_dependencies, ["stdlib-2.0","kernel-3.0","erts-6.0"]} + {runtime_dependencies, ["stdlib-2.0","kernel-3.0","erts-7.0"]} ]}. diff --git a/lib/asn1/src/asn1_db.erl b/lib/asn1/src/asn1_db.erl index 48d9dd16d7..5577969727 100644 --- a/lib/asn1/src/asn1_db.erl +++ b/lib/asn1/src/asn1_db.erl @@ -19,7 +19,8 @@ %% -module(asn1_db). --export([dbstart/1,dbnew/2,dbload/1,dbload/3,dbsave/2,dbput/3,dbget/2]). +-export([dbstart/1,dbnew/2,dbload/1,dbload/3,dbsave/2,dbput/2, + dbput/3,dbget/2]). -export([dbstop/0]). -record(state, {parent, monitor, includes, table}). @@ -44,6 +45,7 @@ dbload(Module) -> dbnew(Module, Erule) -> req({new, Module, Erule}). dbsave(OutFile, Module) -> cast({save, OutFile, Module}). dbput(Module, K, V) -> cast({set, Module, K, V}). +dbput(Module, Kvs) -> cast({set, Module, Kvs}). dbget(Module, K) -> req({get, Module, K}). dbstop() -> Resp = req(stop), erase(?MODULE), Resp. @@ -82,6 +84,10 @@ loop(#state{parent = Parent, monitor = MRef, table = Table, [{_, Modtab}] = ets:lookup(Table, Mod), ets:insert(Modtab, {K2, V}), loop(State); + {set, Mod, Kvs} -> + [{_, Modtab}] = ets:lookup(Table, Mod), + ets:insert(Modtab, Kvs), + loop(State); {From, {get, Mod, K2}} -> %% XXX If there is no information for Mod, get_table/3 %% will attempt to load information from an .asn1db diff --git a/lib/asn1/src/asn1_records.hrl b/lib/asn1/src/asn1_records.hrl index 6c1cf1b12a..84435b2d21 100644 --- a/lib/asn1/src/asn1_records.hrl +++ b/lib/asn1/src/asn1_records.hrl @@ -81,9 +81,19 @@ module :: atom(), val :: atom()}). --record(state,{module,mname,type,tname,value,vname,erule,parameters=[], - inputmodules,abscomppath=[],recordtopname=[],options, - sourcedir}). +-record(state, + {module, + mname, + tname, + erule, + parameters=[], + inputmodules=[], + abscomppath=[], + recordtopname=[], + options, + sourcedir, + error_context %Top-level thingie (contains line numbers) + }). %% state record used by back-end at partial decode %% active is set to 'yes' when a partial decode function is generated. diff --git a/lib/asn1/src/asn1ct.erl b/lib/asn1/src/asn1ct.erl index df341e5aab..a26d63c97d 100644 --- a/lib/asn1/src/asn1ct.erl +++ b/lib/asn1/src/asn1ct.erl @@ -34,7 +34,8 @@ %% Application internal exports -export([compile_asn/3,compile_asn1/3,compile_py/3,compile/3, vsn/0, - get_name_of_def/1,get_pos_of_def/1]). + get_name_of_def/1,get_pos_of_def/1, + unset_pos_mod/1]). -export([read_config_data/1,get_gen_state_field/1, partial_inc_dec_toptype/1,update_gen_state/2, get_tobe_refed_func/1,reset_gen_state/0,is_function_generated/1, @@ -166,46 +167,26 @@ set_scan_parse_pass(#st{files=Files}=St) -> {error,St#st{error=Error}} end. -set_scan_parse_pass_1([F|Fs], St) -> +set_scan_parse_pass_1([F|Fs], #st{file=File}=St) -> case asn1ct_tok:file(F) of {error,Error} -> throw(Error); Tokens when is_list(Tokens) -> - case catch asn1ct_parser2:parse(Tokens) of + case asn1ct_parser2:parse(File, Tokens) of {ok,M} -> [M|set_scan_parse_pass_1(Fs, St)]; - {error,ErrorTerm} -> - throw(handle_parse_error(ErrorTerm, St)) + {error,Errors} -> + throw(Errors) end end; set_scan_parse_pass_1([], _) -> []. -parse_pass(#st{code=Tokens}=St) -> - case catch asn1ct_parser2:parse(Tokens) of +parse_pass(#st{file=File,code=Tokens}=St) -> + case asn1ct_parser2:parse(File, Tokens) of {ok,M} -> {ok,St#st{code=M}}; - {error,ErrorTerm} -> - {error,St#st{error=handle_parse_error(ErrorTerm, St)}} - end. - -handle_parse_error(ErrorTerm, #st{file=File,opts=Opts}) -> - case ErrorTerm of - {{Line,_Mod,Message},_TokTup} -> - if - is_integer(Line) -> - BaseName = filename:basename(File), - error("syntax error at line ~p in module ~s:~n", - [Line,BaseName], Opts); - true -> - error("syntax error in module ~p:~n", - [File], Opts) - end, - print_error_message(Message), - Message; - {Line,_Mod,[Message,Token]} -> - error("syntax error: ~p ~p at line ~p~n", - [Message,Token,Line], Opts), - {Line,[Message,Token]} + {error,Errors} -> + {error,St#st{error=Errors}} end. merge_pass(#st{file=Base,code=Code}=St) -> @@ -559,7 +540,10 @@ unset_pos_mod(Def) when is_record(Def,pvaluesetdef) -> unset_pos_mod(Def) when is_record(Def,pobjectdef) -> Def#pobjectdef{pos=undefined}; unset_pos_mod(Def) when is_record(Def,pobjectsetdef) -> - Def#pobjectsetdef{pos=undefined}. + Def#pobjectsetdef{pos=undefined}; +unset_pos_mod(#'ComponentType'{} = Def) -> + Def#'ComponentType'{pos=undefined}; +unset_pos_mod(Def) -> Def. get_pos_of_def(#typedef{pos=Pos}) -> Pos; @@ -1406,33 +1390,6 @@ prepare_bytes(Bytes) -> list_to_binary(Bytes). vsn() -> ?vsn. - - -print_error_message([got,H|T]) when is_list(H) -> - io:format(" got:"), - print_listing(H,"and"), - print_error_message(T); -print_error_message([expected,H|T]) when is_list(H) -> - io:format(" expected one of:"), - print_listing(H,"or"), - print_error_message(T); -print_error_message([H|T]) -> - io:format(" ~p",[H]), - print_error_message(T); -print_error_message([]) -> - io:format("~n"). - -print_listing([H1,H2|[]],AndOr) -> - io:format(" ~p ~s ~p",[H1,AndOr,H2]); -print_listing([H1,H2|T],AndOr) -> - io:format(" ~p,",[H1]), - print_listing([H2|T],AndOr); -print_listing([H],_AndOr) -> - io:format(" ~p",[H]); -print_listing([],_) -> - ok. - - specialized_decode_prepare(Erule,M,TsAndVs,Options) -> case lists:member(asn1config,Options) of true -> diff --git a/lib/asn1/src/asn1ct_check.erl b/lib/asn1/src/asn1ct_check.erl index 240f1cbb16..99392d6eaa 100644 --- a/lib/asn1/src/asn1ct_check.erl +++ b/lib/asn1/src/asn1ct_check.erl @@ -23,8 +23,6 @@ %% Main Module for ASN.1 compile time functions %-compile(export_all). -%% Avoid warning for local function error/1 clashing with autoimported BIF. --compile({no_auto_import,[error/1]}). -export([check/2,storeindb/2,format_error/1]). %-define(debug,1). -include("asn1_records.hrl"). @@ -60,17 +58,9 @@ -define(N_BMPString, 30). -define(TAG_PRIMITIVE(Num), - case S#state.erule of - ber -> - #tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=0}; - _ -> [] - end). + #tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=0}). -define(TAG_CONSTRUCTED(Num), - case S#state.erule of - ber -> - #tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=32}; - _ -> [] - end). + #tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=32}). -record(newt,{type=unchanged,tag=unchanged,constraint=unchanged,inlined=no}). % used in check_type to update type and tag @@ -249,26 +239,18 @@ check_exports(S,Module = #module{}) -> {exports,all} -> []; {exports,ExportList} when is_list(ExportList) -> - IsNotDefined = + IsNotDefined = fun(X) -> - case catch get_referenced_type(S,X) of - {error,{asn1,_}} -> - true; - _ -> false + try + _ = get_referenced_type(S,X), + false + catch {error,_} -> + true end end, - case lists:filter(IsNotDefined,ExportList) of - [] -> - []; - NoDefExp -> - GetName = - fun(T = #'Externaltypereference'{type=N})-> - %%{exported,undefined,entity,N} - NewS=S#state{type=T,tname=N}, - error({export,"exported undefined entity",NewS}) - end, - lists:map(GetName,NoDefExp) - end + [return_asn1_error(S, Ext, {undefined_export, Undef}) || + Ext = #'Externaltypereference'{type=Undef} <- ExportList, + IsNotDefined(Ext)] end. check_imports(S, #module{imports={imports,Imports}}) -> @@ -276,53 +258,18 @@ check_imports(S, #module{imports={imports,Imports}}) -> check_imports_1(_S, [], Acc) -> Acc; -check_imports_1(S, [#'SymbolsFromModule'{symbols=Imports,module=ModuleRef}|SFMs], Acc0) -> +check_imports_1(S, [#'SymbolsFromModule'{symbols=Imports,module=ModuleRef}|SFMs], Acc) -> Module = name_of_def(ModuleRef), - Refs0 = [{catch get_referenced_type(S, Ref),Ref} || Ref <- Imports], - Refs = [{M,R} || {{M,_},R} <- Refs0], - {Illegal,Other} = lists:splitwith(fun({error,_}) -> true; - (_) -> false - end, Refs), - ChainedRefs = [R || {M,R} <- Other, M =/= Module], - IllegalRefs = [R || {error,R} <- Illegal] ++ - [R || {M,R} <- ChainedRefs, - ok =/= chained_import(S, Module, M, name_of_def(R))], - Acc = [return_asn1_error(S, Ref, {undefined_import,name_of_def(Ref),Module}) || - Ref <- IllegalRefs] ++ Acc0, - check_imports_1(S, SFMs, Acc). - -chained_import(S,ImpMod,DefMod,Name) -> - %% Name is a referenced structure that is not defined in ImpMod, - %% but must be present in the Imports list of ImpMod. The chain of - %% imports of Name must end in DefMod. - GetImports = - fun(_M_) -> - case asn1_db:dbget(_M_,'MODULE') of - #module{imports={imports,ImportList}} -> - ImportList; - _ -> [] - end - end, - FindNameInImports = - fun([],N,_) -> {no_mod,N}; - ([#'SymbolsFromModule'{symbols=Imports,module=ModuleRef}|SFMs],N,F) -> - case [name_of_def(X) || X <- Imports, name_of_def(X) =:= N] of - [] -> F(SFMs,N,F); - [N] -> {name_of_def(ModuleRef),N} - end - end, - case GetImports(ImpMod) of - [] -> - error; - Imps -> - case FindNameInImports(Imps,Name,FindNameInImports) of - {no_mod,_} -> - error; - {DefMod,_} -> ok; - {OtherMod,_} -> - chained_import(S,OtherMod,DefMod,Name) - end - end. + Refs = [{try get_referenced_type(S, Ref) + catch throw:Error -> Error end, + Ref} + || Ref <- Imports], + CreateError = fun(Ref) -> + Error = {undefined_import,name_of_def(Ref),Module}, + return_asn1_error(S, Ref, Error) + end, + Errors = [CreateError(Ref) || {{error, _}, Ref} <- Refs], + check_imports_1(S, SFMs, Errors ++ Acc). checkt(S0, Names) -> Check = fun do_checkt/3, @@ -335,7 +282,7 @@ checkt(S0, Names) -> check_fold(S0, lists:reverse(CtxtSwitch), Check) ++ Types. do_checkt(S, Name, #typedef{typespec=TypeSpec}=Type0) -> - NewS = S#state{type=Type0,tname=Name}, + NewS = S#state{tname=Name}, try check_type(NewS, Type0, TypeSpec) of #type{}=Ts -> case Type0#typedef.checked of @@ -350,7 +297,7 @@ do_checkt(S, Name, #typedef{typespec=TypeSpec}=Type0) -> end catch {error,Reason} -> - error({type,Reason,NewS}); + Reason; {asn1_class,_ClassDef} -> {asn1_class,Name}; pobjectsetdef -> @@ -384,33 +331,32 @@ do_checkv(S, Name, Value) is_record(Value, typedef); %Value set may be parsed as object set. is_record(Value, pvaluedef); is_record(Value, pvaluesetdef) -> - NewS = S#state{value=Value}, - try check_value(NewS, Value) of + try check_value(S, Value) of {valueset,VSet} -> Pos = asn1ct:get_pos_of_def(Value), CheckedVSDef = #typedef{checked=true,pos=Pos, name=Name,typespec=VSet}, - asn1_db:dbput(NewS#state.mname, Name, CheckedVSDef), + asn1_db:dbput(S#state.mname, Name, CheckedVSDef), {valueset,Name}; V -> %% update the valuedef - asn1_db:dbput(NewS#state.mname, Name, V), + asn1_db:dbput(S#state.mname, Name, V), ok catch {error,Reason} -> - error({value,Reason,NewS}); + Reason; {pobjectsetdef} -> {pobjectsetdef,Name}; {objectsetdef} -> {objectsetdef,Name}; - {objectdef} -> + {asn1_class, _} -> %% this is an object, save as typedef #valuedef{checked=C,pos=Pos,name=N,type=Type, value=Def} = Value, ClassName = Type#type.def, NewSpec = #'Object'{classname=ClassName,def=Def}, NewDef = #typedef{checked=C,pos=Pos,name=N,typespec=NewSpec}, - asn1_db:dbput(NewS#state.mname, Name, NewDef), + asn1_db:dbput(S#state.mname, Name, NewDef), {objectdef,Name} end. @@ -419,7 +365,7 @@ checkp(S, Names) -> check_fold(S, Names, fun do_checkp/3). do_checkp(S0, Name, #ptypedef{typespec=TypeSpec}=Type0) -> - S = S0#state{type=Type0,tname=Name}, + S = S0#state{tname=Name}, try check_ptype(S, Type0, TypeSpec) of #type{}=Ts -> Type = Type0#ptypedef{checked=true,typespec=Ts}, @@ -427,7 +373,7 @@ do_checkp(S0, Name, #ptypedef{typespec=TypeSpec}=Type0) -> ok catch {error,Reason} -> - error({type,Reason,S}); + Reason; {asn1_class,_ClassDef} -> {asn1_class,Name}; {asn1_param_class,_} -> @@ -438,100 +384,81 @@ do_checkp(S0, Name, #ptypedef{typespec=TypeSpec}=Type0) -> checkc(S, Names) -> check_fold(S, Names, fun do_checkc/3). -do_checkc(S0, Name, Class0) -> - {Class1,ClassSpec} = - case Class0 of - #classdef{} -> - {Class0,Class0}; - #typedef{} -> - {#classdef{name=Name},Class0#typedef.typespec} - end, - S = S0#state{type=Class0,tname=Name}, - try check_class(S, ClassSpec) of - C -> - Class = Class1#classdef{checked=true,typespec=C}, - asn1_db:dbput(S#state.mname, Name, Class), - ok - catch - {error,Reason} -> - error({class,Reason,S}) - end. +do_checkc(S, Name, Class) -> + try + case is_classname(Name) of + false -> + asn1_error(S, {illegal_class_name,Name}); + true -> + do_checkc_1(S, Name, Class) + end + catch {error,Reason} -> Reason + end. + +do_checkc_1(S, Name, #classdef{}=Class) -> + C = check_class(S, Class), + store_class(S, true, Class#classdef{typespec=C}, Name), + ok; +do_checkc_1(S, Name, #typedef{typespec=#type{def=Def}=TS}) -> + C = check_class(S, TS), + {Mod,Pos} = case Def of + #'Externaltypereference'{module=M, pos=P} -> + {M,P}; + {pt, #'Externaltypereference'{module=M, pos=P}, _} -> + {M,P} + end, + Class = #classdef{name=Name, typespec=C, pos=Pos, module=Mod}, + store_class(S, true, Class, Name), + ok. + +%% is_classname(Atom) -> true|false. +is_classname(Name) when is_atom(Name) -> + lists:all(fun($-) -> true; + (D) when $0 =< D, D =< $9 -> true; + (UC) when $A =< UC, UC =< $Z -> true; + (_) -> false + end, atom_to_list(Name)). -checko(S,[Name|Os],Acc,ExclO,ExclOS) -> - ?dbg("Checking object ~p~n",[Name]), - Result = - case asn1_db:dbget(S#state.mname,Name) of - undefined -> - error({type,{internal_error,'???'},S}); - Object when is_record(Object,typedef) -> - NewS = S#state{type=Object,tname=Name}, - case catch(check_object(NewS,Object,Object#typedef.typespec)) of - {error,Reason} -> - error({type,Reason,NewS}); - {'EXIT',Reason} -> - error({type,{internal_error,Reason},NewS}); - {asn1,Reason} -> - error({type,Reason,NewS}); - O -> - NewObj = Object#typedef{checked=true,typespec=O}, - asn1_db:dbput(NewS#state.mname,Name,NewObj), - if - is_record(O,'Object') -> - case O#'Object'.gen of - true -> - {ok,ExclO,ExclOS}; - false -> - {ok,[Name|ExclO],ExclOS} - end; - is_record(O,'ObjectSet') -> - case O#'ObjectSet'.gen of - true -> - {ok,ExclO,ExclOS}; - false -> - {ok,ExclO,[Name|ExclOS]} - end - end - end; - PObject when is_record(PObject,pobjectdef) -> - NewS = S#state{type=PObject,tname=Name}, - case (catch check_pobject(NewS,PObject)) of - {error,Reason} -> - error({type,Reason,NewS}); - {'EXIT',Reason} -> - error({type,{internal_error,Reason},NewS}); - {asn1,Reason} -> - error({type,Reason,NewS}); - PO -> - NewPObj = PObject#pobjectdef{def=PO}, - asn1_db:dbput(NewS#state.mname,Name,NewPObj), - {ok,[Name|ExclO],ExclOS} - end; - PObjSet when is_record(PObjSet,pvaluesetdef) -> - %% this is a parameterized object set. Might be a parameterized - %% value set, couldn't it? - NewS = S#state{type=PObjSet,tname=Name}, - case (catch check_pobjectset(NewS,PObjSet)) of - {error,Reason} -> - error({type,Reason,NewS}); - {'EXIT',Reason} -> - error({type,{internal_error,Reason},NewS}); - {asn1,Reason} -> - error({type,Reason,NewS}); - POS -> - %%NewPObjSet = PObjSet#pvaluesetdef{valueset=POS}, - asn1_db:dbput(NewS#state.mname,Name,POS), - {ok,ExclO,[Name|ExclOS]} - end - end, - case Result of - {ok,NewExclO,NewExclOS} -> - checko(S,Os,Acc,NewExclO,NewExclOS); - _ -> - checko(S,Os,[Result|Acc],ExclO,ExclOS) +checko(S0,[Name|Os],Acc,ExclO,ExclOS) -> + Item = asn1_db:dbget(S0#state.mname, Name), + S = S0#state{error_context=Item}, + try checko_1(S, Item, Name, ExclO, ExclOS) of + {NewExclO,NewExclOS} -> + checko(S, Os, Acc, NewExclO, NewExclOS) + catch + throw:{error, Error} -> + checko(S, Os, [Error|Acc], ExclO, ExclOS) end; checko(_S,[],Acc,ExclO,ExclOS) -> {lists:reverse(Acc),lists:reverse(ExclO),lists:reverse(ExclOS)}. +checko_1(S, #typedef{typespec=TS}=Object, Name, ExclO, ExclOS) -> + NewS = S#state{tname=Name}, + O = check_object(NewS, Object, TS), + NewObj = Object#typedef{checked=true,typespec=O}, + asn1_db:dbput(NewS#state.mname, Name, NewObj), + case O of + #'Object'{gen=true} -> + {ExclO,ExclOS}; + #'Object'{gen=false} -> + {[Name|ExclO],ExclOS}; + #'ObjectSet'{gen=true} -> + {ExclO,ExclOS}; + #'ObjectSet'{gen=false} -> + {ExclO,[Name|ExclOS]} + end; +checko_1(S, #pobjectdef{}=PObject, Name, ExclO, ExclOS) -> + NewS = S#state{tname=Name}, + PO = check_pobject(NewS, PObject), + NewPObj = PObject#pobjectdef{def=PO}, + asn1_db:dbput(NewS#state.mname, Name, NewPObj), + {[Name|ExclO],ExclOS}; +checko_1(S, #pvaluesetdef{}=PObjSet, Name, ExclO, ExclOS) -> + NewS = S#state{tname=Name}, + POS = check_pobjectset(NewS, PObjSet), + asn1_db:dbput(NewS#state.mname, Name, POS), + {ExclO,[Name|ExclOS]}. + check_class(S,CDef=#classdef{checked=Ch,name=Name,typespec=TS}) -> case Ch of true -> TS; @@ -551,22 +478,16 @@ check_class(S = #state{mname=M,tname=T},ClassSpec) Tref = #'Externaltypereference'{type=TName} -> {MName,RefType} = get_referenced_type(S,Tref), #classdef{} = CD = get_class_def(S, RefType), - NewState = update_state(S#state{type=RefType, - tname=TName}, MName), + NewState = update_state(S#state{tname=TName}, MName), check_class(NewState, CD); {pt,ClassRef,Params} -> %% parameterized class {_,PClassDef} = get_referenced_type(S,ClassRef), - NewParaList = - [match_parameters(S,TmpParam,S#state.parameters)|| - TmpParam <- Params], + NewParaList = match_parameters(S, 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,{poc,_ObjSet,_Params}) -> - 'fix this later'; +check_class(S, #objectclass{}=C) -> + check_objectclass(S, C); check_class(S,ClassName) -> {RefMod,Def} = get_referenced_type(S,ClassName), case Def of @@ -579,8 +500,7 @@ check_class(S,ClassName) -> false -> Name=ClassName#'Externaltypereference'.type, store_class(S,idle,ClassDef,Name), -% NewS = S#state{mname=RefMod,type=Def,tname=Name}, - NewS = update_state(S#state{type=Def,tname=Name},RefMod), + NewS = update_state(S#state{tname=Name}, RefMod), CheckedTS = check_class(NewS,ClassDef#classdef.typespec), store_class(S,true,ClassDef#classdef{typespec=CheckedTS},Name), CheckedTS @@ -594,11 +514,20 @@ 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, []), -% NewS = S#state{type=Type,parameters=MatchedArgs++OldArgs,abscomppath=[]}, - NewS = S#state{type=Type,parameters=MatchedArgs,abscomppath=[]}, + NewS = S#state{parameters=MatchedArgs,abscomppath=[]}, check_class(NewS,#classdef{name=S#state.tname,typespec=Type}). store_class(S,Mode,ClassDef,ClassName) -> @@ -613,6 +542,12 @@ check_class_fields(S,[F|Fields],Acc) -> case element(1,F) of fixedtypevaluefield -> {_,Name,Type,Unique,OSpec} = F, + case {Unique,OSpec} of + {'UNIQUE',{'DEFAULT',_}} -> + asn1_error(S, {unique_and_default,Name}); + {_,_} -> + ok + end, RefType = check_type(S,#typedef{typespec=Type},Type), {fixedtypevaluefield,Name,RefType,Unique,OSpec}; object_or_fixedtypevalue_field -> @@ -621,7 +556,7 @@ check_class_fields(S,[F|Fields],Acc) -> Cat = case asn1ct_gen:type(asn1ct_gen:get_inner(Type2#type.def)) of Def when is_record(Def,'Externaltypereference') -> - {_,D} = get_referenced_type(S,Def), + {_,D} = get_referenced_type(S, Def, true), D; {undefined,user} -> %% neither of {primitive,bif} or {constructed,bif} @@ -644,18 +579,14 @@ check_class_fields(S,[F|Fields],Acc) -> objectset_or_fixedtypevalueset_field -> {_,Name,Type,OSpec} = F, RefType = - case (catch check_type(S,#typedef{typespec=Type},Type)) of - {asn1_class,_ClassDef} -> + try check_type(S,#typedef{typespec=Type},Type) of + #type{} = CheckedType -> + CheckedType + catch {asn1_class,_ClassDef} -> case if_current_checked_type(S,Type) of - true -> - Type#type.def; - _ -> - check_class(S,Type) - end; - CheckedType when is_record(CheckedType,type) -> - CheckedType; - _ -> - error({class,"internal error, check_class_fields",S}) + true -> Type#type.def; + _ -> check_class(S,Type) + end end, if is_record(RefType,'Externaltypereference') -> @@ -733,38 +664,34 @@ check_pobjectset(S,PObjSet) -> PObjSet end. +-record(osi, %Object set information. + {st, + classref, + uniq, + ext + }). + check_object(_S,ObjDef,ObjSpec) when (ObjDef#typedef.checked == true) -> ObjSpec; check_object(S,_ObjDef,#'Object'{classname=ClassRef,def=ObjectDef}) -> ?dbg("check_object ~p~n",[ObjectDef]), -%% io:format("check_object,object: ~p~n",[ObjectDef]), -% {MName,_ClassDef} = get_referenced_type(S,ClassRef), - NewClassRef = check_externaltypereference(S,ClassRef), - ClassDef = - case get_referenced_type(S,ClassRef) of - {MName,ClDef=#classdef{checked=false}} -> - NewState = update_state(S#state{type=ClDef, - tname=ClassRef#'Externaltypereference'.type},MName), - ObjClass= - check_class(NewState,ClDef), - #classdef{checked=true, - typespec=ObjClass}; - {_,_ClDef} when is_record(_ClDef,classdef) -> - _ClDef; - {MName,_TDef=#typedef{checked=false,pos=Pos, - name=_TName,typespec=TS}} -> - ClDef = #classdef{pos=Pos,name=_TName,typespec=TS}, - NewState = update_state(S#state{type=_TDef, - tname=ClassRef#'Externaltypereference'.type},MName), - ObjClass = - check_class(NewState,ClDef), - ClDef#classdef{checked=true,typespec=ObjClass}; - {_,_ClDef} -> - _ClDef + _ = check_externaltypereference(S,ClassRef), + {ClassDef, NewClassRef} = + case get_referenced_type(S, ClassRef, true) of + {MName,#classdef{checked=false, name=CLName}=ClDef} -> + Type = ClassRef#'Externaltypereference'.type, + NewState = update_state(S#state{tname=Type}, MName), + ObjClass = check_class(NewState, ClDef), + {ClDef#classdef{checked=true, typespec=ObjClass}, + #'Externaltypereference'{module=MName, type=CLName}}; + {MName,#classdef{name=CLName}=ClDef} -> + {ClDef, #'Externaltypereference'{module=MName, type=CLName}}; + _ -> + asn1_error(S, illegal_object) 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} -> @@ -778,425 +705,287 @@ check_object(S,_ObjDef,#'Object'{classname=ClassRef,def=ObjectDef}) -> instantiate_po(S,ClassDef,Object,ArgList); #'Externalvaluereference'{} -> {_,Object} = get_referenced_type(S,ObjectDef), - check_object(S,Object,Object#typedef.typespec); + check_object(S, Object, object_to_check(S, Object)); [] -> - %% An object with no fields. All class fields must be - %% optional or default. Check that all fields in - %% class are 'OPTIONAL' or 'DEFAULT' - class_fields_optional_check(S,ClassDef), - #'Object'{def={object,defaultsyntax,[]}}; - _ -> - exit({error,{no_object,ObjectDef},S}) + %% An object with no fields (parsed as a value). + Def = {object,defaultsyntax,[]}, + NewSettingList = check_objectdefn(S, Def, ClassDef), + #'Object'{def=NewSettingList}; + _ -> + asn1_error(S, illegal_object) end, - Gen = gen_incl(S,NewObj#'Object'.def, - (ClassDef#classdef.typespec)#objectclass.fields), + Fields = (ClassDef#classdef.typespec)#objectclass.fields, + Gen = gen_incl(S,NewObj#'Object'.def, Fields), NewObj#'Object'{classname=NewClassRef,gen=Gen}; - - -check_object(S, - _ObjSetDef, - ObjSet=#'ObjectSet'{class=ClassRef}) -> -%% io:format("check_object,SET: ~p~n",[ObjSet#'ObjectSet'.set]), - ?dbg("check_object set: ~p~n",[ObjSet#'ObjectSet'.set]), - {_,ClassDef} = get_referenced_type(S,ClassRef), - NewClassRef = check_externaltypereference(S,ClassRef), - {UniqueFieldName,UniqueInfo} = - case (catch get_unique_fieldname(S,ClassDef)) of - {error,'__undefined_',_} -> - {{unique,undefined},{unique,undefined}}; - {asn1,Msg,_} -> error({class,Msg,S}); - {'EXIT',Msg} -> error({class,{internal_error,Msg},S}); +check_object(S, _, #'ObjectSet'{class=ClassRef0,set=Set0}=ObjSet0) -> + {_,ClassDef} = get_referenced_type(S, ClassRef0), + ClassRef = check_externaltypereference(S, ClassRef0), + {UniqueFieldName,UniqueInfo} = + case get_unique_fieldname(S, ClassDef) of + no_unique -> {{unique,undefined},{unique,undefined}}; Other -> {element(1,Other),Other} end, - NewObjSet= - case prepare_objset(ObjSet#'ObjectSet'.set) of - {set,SET,EXT} -> - CheckedSet = check_object_list(S,NewClassRef,SET), - NewSet = get_unique_valuelist(S,CheckedSet,UniqueInfo), - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=extensionmark(NewSet,EXT)}; - - {'SingleValue',ERef = #'Externalvaluereference'{}} -> - {RefedMod,ObjDef} = get_referenced_type(S,ERef), - #'Object'{def=CheckedObj} = - check_object(S,ObjDef,ObjDef#typedef.typespec), - - NewSet = get_unique_valuelist(S,[{{RefedMod,get_datastr_name(ObjDef)}, - CheckedObj}], - UniqueInfo), - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=NewSet}; - ['EXTENSIONMARK'] -> - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=['EXTENSIONMARK']}; - - OSref when is_record(OSref,'Externaltypereference') -> - {_,OS=#typedef{typespec=OSdef}} = get_referenced_type(S,OSref), - check_object(S,OS,OSdef); - - {Type,{'EXCEPT',Exclusion}} when is_record(Type,type) -> - {_,TDef} = get_referenced_type(S,Type#type.def), - OS = TDef#typedef.typespec, - NewSet = reduce_objectset(OS#'ObjectSet'.set,Exclusion), - NewOS = OS#'ObjectSet'{set=NewSet}, - check_object(S,TDef#typedef{typespec=NewOS}, - NewOS); - #type{def={pt,DefinedObjSet,ParamList}} -> - {_,PObjSetDef} = get_referenced_type(S,DefinedObjSet), - NewParamList = - [match_parameters(S,TmpParam,S#state.parameters)|| - TmpParam <- ParamList], - instantiate_pos(S,ClassRef,PObjSetDef,NewParamList); - - %% actually this is an ObjectSetFromObjects construct, it - %% is when the object set is retrieved from an object - %% field. - #type{def=#'ObjectClassFieldType'{classname=ObjName, - fieldname=FieldName}} -> - {RefedObjMod,TDef} = get_referenced_type(S,ObjName), - OS=TDef#typedef.typespec, - %% should get the right object set here. Get the field - %% FieldName out of the object set OS of class - %% OS#'ObjectSet'.class - OS2=check_object(S,TDef,OS), - NewSet=object_set_from_objects(S,RefedObjMod,FieldName,OS2), - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=NewSet}; - {'ObjectSetFromObjects',{_,_,ObjName},FieldName} -> - {RefedObjMod,TDef} = get_referenced_type(S,ObjName), - OS=TDef#typedef.typespec, - %% should get the right object set here. Get the field - %% FieldName out of the object set OS of class - %% OS#'ObjectSet'.class - OS2=check_object(S,TDef,OS), - NewSet=object_set_from_objects(S,RefedObjMod,FieldName,OS2), - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=NewSet}; - {'ObjectSetFromObjects',{_,ObjName},FieldName} -> - %% This is a ObjectSetFromObjects, i.e. - %% ObjectSetFromObjects ::= ReferencedObjects "." FieldName - %% with a defined object as ReferencedObjects. And - %% the FieldName of the Class (object) contains an object set. - {RefedObjMod,TDef} = get_referenced_type(S,ObjName), - O1 = TDef#typedef.typespec, - O2 = check_object(S,TDef,O1), - NewSet = object_set_from_objects(S,RefedObjMod,FieldName,O2), - OS2=ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=NewSet}, - %%io:format("ObjectSet: ~p~n",[OS2]), - OS2; - {pos,{objectset,_,DefinedObjSet},Params} -> - {_,PObjSetDef} = get_referenced_type(S,DefinedObjSet), - NewParamList = - [match_parameters(S,TmpParam,S#state.parameters)|| - TmpParam <- Params], - instantiate_pos(S,ClassRef,PObjSetDef,NewParamList); - Unknown -> - exit({error,{unknown_object_set,Unknown},S}) - end, - NewSet2 = remove_duplicate_objects(NewObjSet#'ObjectSet'.set), - NewObjSet2 = NewObjSet#'ObjectSet'{set=NewSet2}, - Gen = gen_incl_set(S,NewObjSet2#'ObjectSet'.set, - ClassDef), - ?dbg("check_object done~n",[]), - NewObjSet2#'ObjectSet'{class=NewClassRef,gen=Gen}. + OSI0 = #osi{st=S,classref=ClassRef,uniq=UniqueInfo,ext=false}, + {Set1,OSI1} = if + is_list(Set0) -> + check_object_set_list(Set0, OSI0); + true -> + check_object_set(Set0, OSI0) + end, + Ext = case Set1 of + [] -> + %% FIXME: X420 does not compile unless we force + %% empty sets to be extensible. There should be + %% a better way. + true; + [_|_] -> + OSI1#osi.ext + end, + Set2 = remove_duplicate_objects(S, Set1), + Set = case Ext of + false -> Set2; + true -> Set2 ++ ['EXTENSIONMARK'] + end, + ObjSet = ObjSet0#'ObjectSet'{uniquefname=UniqueFieldName,set=Set}, + Gen = gen_incl_set(S, Set, ClassDef), + ObjSet#'ObjectSet'{class=ClassRef,gen=Gen}. + +check_object_set({element_set,Root0,Ext0}, OSI0) -> + OSI = case Ext0 of + none -> OSI0; + _ -> OSI0#osi{ext=true} + end, + case {Root0,Ext0} of + {empty,empty} -> {[],OSI}; + {empty,Ext} -> check_object_set(Ext, OSI); + {Root,none} -> check_object_set(Root, OSI); + {Root,empty} -> check_object_set(Root, OSI); + {Root,Ext} -> check_object_set_list([Root,Ext], OSI) + end; +check_object_set(#'Externaltypereference'{}=Ref, #osi{st=S}=OSI) -> + {_,#typedef{typespec=OSdef}=OS} = get_referenced_type(S, Ref), + ObjectSet = check_object(S, OS, OSdef), + check_object_set_objset(ObjectSet, OSI); +check_object_set(#'Externalvaluereference'{}=Ref, #osi{st=S}=OSI) -> + {RefedMod,ObjName,#'Object'{def=Def}} = check_referenced_object(S, Ref), + ObjList = check_object_set_mk(RefedMod, ObjName, Def, OSI), + {ObjList,OSI}; +check_object_set({'EXCEPT',Incl0,Excl0}, OSI) -> + {Incl1,_} = check_object_set(Incl0, OSI), + {Excl1,_} = check_object_set(Excl0, OSI), + Exclude = sofs:set([N || {N,_} <- Excl1], [name]), + Incl2 = [{Name,Obj} || {Name,_,_}=Obj <- Incl1], + Incl3 = sofs:relation(Incl2, [{name,object}]), + Incl4 = sofs:drestriction(Incl3, Exclude), + Incl5 = sofs:to_external(Incl4), + Incl = [Obj || {_,Obj} <- Incl5], + {Incl,OSI}; +check_object_set({object,_,_}=Obj0, OSI) -> + #osi{st=S,classref=ClassRef} = OSI, + #'Object'{def=Def} = + check_object(S, #typedef{typespec=Obj0}, + #'Object'{classname=ClassRef,def=Obj0}), + ObjList = check_object_set_mk(Def, OSI), + {ObjList,OSI}; +check_object_set(#'ObjectClassFieldType'{classname=ObjName, + fieldname=FieldNames}, + #osi{st=S}=OSI) -> + Set = check_ObjectSetFromObjects(S, ObjName, FieldNames), + check_object_set_objset_list(Set, OSI); +check_object_set({'ObjectSetFromObjects',Obj,FieldNames}, #osi{st=S}=OSI) -> + ObjName = element(tuple_size(Obj), Obj), + Set = check_ObjectSetFromObjects(S, ObjName, FieldNames), + check_object_set_objset_list(Set, OSI); +check_object_set({pt,DefinedObjSet,ParamList0}, OSI) -> + #osi{st=S,classref=ClassRef} = OSI, + {_,PObjSetDef} = get_referenced_type(S, DefinedObjSet), + ParamList = match_parameters(S, ParamList0), + ObjectSet = instantiate_pos(S, ClassRef, PObjSetDef, ParamList), + check_object_set_objset(ObjectSet, OSI); +check_object_set({pos,{objectset,_,DefinedObjSet},Params0}, OSI) -> + #osi{st=S,classref=ClassRef} = OSI, + {_,PObjSetDef} = get_referenced_type(S, DefinedObjSet), + Params = match_parameters(S, Params0), + ObjectSet = instantiate_pos(S, ClassRef, PObjSetDef, Params), + check_object_set_objset(ObjectSet, OSI); +check_object_set({pv,{simpledefinedvalue,DefinedObject},Params}=PV, OSI) -> + #osi{st=S,classref=ClassRef} = OSI, + Args = match_parameters(S, Params), + #'Object'{def=Def} = + check_object(S, PV, + #'Object'{classname=ClassRef , + def={po,{object,DefinedObject},Args}}), + ObjList = check_object_set_mk(Def, OSI), + {ObjList,OSI}; +check_object_set({'SingleValue',Val}, OSI) -> + check_object_set(Val, OSI); +check_object_set({'ValueFromObject',{object,Object},FieldNames}, OSI) -> + #osi{st=S} = OSI, + case extract_field(S, Object, FieldNames) of + #'Object'{def=Def} -> + ObjList = check_object_set_mk(Def, OSI), + {ObjList,OSI}; + _ -> + asn1_error(S, illegal_object) + end; +check_object_set(#type{def=Def}, OSI) -> + check_object_set(Def, OSI); +check_object_set({union,A0,B0}, OSI0) -> + {A,OSI1} = check_object_set(A0, OSI0), + {B,OSI} = check_object_set(B0, OSI1), + {A++B,OSI}. + +check_object_set_list([H|T], OSI0) -> + {Set0,OSI1} = check_object_set(H, OSI0), + {Set1,OSI2} = check_object_set_list(T, OSI1), + {Set0++Set1,OSI2}; +check_object_set_list([], OSI) -> + {[],OSI}. + +check_object_set_objset(#'ObjectSet'{set=Set}, OSI) -> + check_object_set_objset_list(Set, OSI). + +check_object_set_objset_list(Set, OSI) -> + check_object_set_objset_list_1(Set, OSI, []). + +check_object_set_objset_list_1(['EXTENSIONMARK'|T], OSI, Acc) -> + check_object_set_objset_list_1(T, OSI#osi{ext=true}, Acc); +check_object_set_objset_list_1([H|T], OSI, Acc) -> + check_object_set_objset_list_1(T, OSI, [H|Acc]); +check_object_set_objset_list_1([], OSI, Acc) -> + {Acc,OSI}. + +check_object_set_mk(Fields, OSI) -> + check_object_set_mk(no_mod, no_name, Fields, OSI). + +check_object_set_mk(M, N, Def, #osi{uniq={unique,undefined}}) -> + {_,_,Fields} = Def, + [{{M,N},no_unique_value,Fields}]; +check_object_set_mk(M, N, Def, #osi{uniq={UniqField,_}}) -> + {_,_,Fields} = Def, + case lists:keyfind(UniqField, 1, Fields) of + {UniqField,#valuedef{value=Val}} -> + [{{M,N},Val,Fields}]; + false -> + case Fields of + [{_,#typedef{typespec=#'ObjectSet'{set=['EXTENSIONMARK']}}}] -> + %% FIXME: If object is missing the unique field and + %% only contains a reference to an empty object set, + %% we will remove the entire object as a workaround + %% to get X420 to compile. There should be a better + %% way. + []; + _ -> + [{{M,N},no_unique_value,Fields}] + end + end. %% remove_duplicate_objects/1 remove duplicates of objects. %% For instance may Set contain objects of same class from %% different object sets that in fact might be duplicates. -remove_duplicate_objects(Set) when is_list(Set) -> - Pred = fun({A,B,_},{A,C,_}) when B =< C -> true; - ({A,_,_},{B,_,_}) when A < B -> true; - ('EXTENSIONMARK','EXTENSIONMARK') -> true; - (T,A) when is_tuple(T),is_atom(A) -> true;% EXTENSIONMARK last in list - (_,_) -> false - end, - lists:usort(Pred,Set). +remove_duplicate_objects(S, Set0) when is_list(Set0) -> + Set1 = [{Id,Orig} || {_,Id,_}=Orig <- Set0], + Set2 = sofs:relation(Set1), + Set3 = sofs:relation_to_family(Set2), + Set = sofs:to_external(Set3), + remove_duplicate_objects_1(S, Set). + +remove_duplicate_objects_1(S, [{no_unique_value,Objs}|T]) -> + Objs ++ remove_duplicate_objects_1(S, T); +remove_duplicate_objects_1(S, [{_,[_]=Objs}|T]) -> + Objs ++ remove_duplicate_objects_1(S, T); +remove_duplicate_objects_1(S, [{Id,[_|_]=Objs}|T]) -> + MakeSortable = fun(What) -> sortable_type(S, What) end, + Tagged = order_tag_set(Objs, MakeSortable), + case lists:ukeysort(1, Tagged) of + [{_,Obj}] -> + [Obj|remove_duplicate_objects_1(S, T)]; + [_|_] -> + asn1_error(S, {non_unique_object,Id}) + end; +remove_duplicate_objects_1(_, []) -> + []. -%% -extensionmark(L,true) -> - case lists:member('EXTENSIONMARK',L) of - true -> L; - _ -> L ++ ['EXTENSIONMARK'] +order_tag_set([{_, _, Fields}=Orig|Fs], Fun) -> + Pair = {[{FId, traverse(F, Fun)} || {FId, F} <- Fields], Orig}, + [Pair|order_tag_set(Fs, Fun)]; +order_tag_set([], _) -> []. + +sortable_type(S, #'Externaltypereference'{}=ERef) -> + try get_referenced_type(S, ERef) of + {_,#typedef{}=OI} -> + OI#typedef{pos=undefined,name=undefined} + catch + _:_ -> + ERef end; -extensionmark(L,_) -> - L. +sortable_type(_, #typedef{}=TD) -> + asn1ct:unset_pos_mod(TD#typedef{name=undefined}); +sortable_type(_, Type) -> + asn1ct:unset_pos_mod(Type). + +traverse(Structure0, Fun) -> + Structure = Fun(Structure0), + traverse_1(Structure, Fun). + +traverse_1(#typedef{typespec=TS0} = TD, Fun) -> + TS = traverse(TS0, Fun), + TD#typedef{typespec=TS}; +traverse_1(#valuedef{type=TS0} = VD, Fun) -> + TS = traverse(TS0, Fun), + VD#valuedef{type=TS}; +traverse_1(#type{def=TS0} = TD, Fun) -> + TS = traverse(TS0, Fun), + TD#type{def=TS}; +traverse_1(#'SEQUENCE'{components=Cs0} = Seq, Fun) -> + Cs = traverse_seq_set(Cs0, Fun), + Seq#'SEQUENCE'{components=Cs}; +traverse_1({'SEQUENCE OF',Type0}, Fun) -> + Type = traverse(Type0, Fun), + {'SEQUENCE OF',Type}; +traverse_1({'SET OF',Type0}, Fun) -> + Type = traverse(Type0, Fun), + {'SET OF',Type}; +traverse_1(#'SET'{components=Cs0} = Set, Fun) -> + Cs = traverse_seq_set(Cs0, Fun), + Set#'SET'{components=Cs}; +traverse_1({'CHOICE', Cs0}, Fun) -> + Cs = traverse_seq_set(Cs0, Fun), + {'CHOICE', Cs}; +traverse_1(Leaf, _) -> + Leaf. + +traverse_seq_set(List, Fun) when is_list(List) -> + traverse_seq_set_1(List, Fun); +traverse_seq_set({Set, Ext}, Fun) -> + {traverse_seq_set_1(Set, Fun), traverse_seq_set_1(Ext, Fun)}; +traverse_seq_set({Set1, Set2, Set3}, Fun) -> + {traverse_seq_set_1(Set1, Fun), + traverse_seq_set_1(Set2, Fun), + traverse_seq_set_1(Set3, Fun)}. + +traverse_seq_set_1([#'ComponentType'{} = CT0|Cs], Fun) -> + CT = #'ComponentType'{typespec=TS0} = Fun(CT0), + TS = traverse(TS0, Fun), + [CT#'ComponentType'{typespec=TS}|traverse_seq_set_1(Cs, Fun)]; +traverse_seq_set_1([{'COMPONENTS OF', _} = CO0|Cs], Fun) -> + {'COMPONENTS OF', TS0} = Fun(CO0), + TS = traverse(TS0, Fun), + [{'COMPONENTS OF', TS}|traverse_seq_set_1(Cs, Fun)]; +traverse_seq_set_1([], _) -> + []. -object_to_check(#typedef{typespec=ObjDef}) -> +object_to_check(_, #typedef{typespec=ObjDef}) -> ObjDef; -object_to_check(#valuedef{type=ClassName,value=ObjectRef}) -> +object_to_check(S, #valuedef{type=Class,value=ObjectRef}) -> %% If the object definition is parsed as an object the ClassName - %% is parsed as a type - #'Object'{classname=ClassName#type.def,def=ObjectRef}. - -prepare_objset({'SingleValue',Set}) when is_list(Set) -> - {set,Set,false}; -prepare_objset(L=['EXTENSIONMARK']) -> - L; -prepare_objset(Set) when is_list(Set) -> - {set,Set,false}; -prepare_objset({{'SingleValue',Set},Ext}) -> - {set,merge_sets(Set,Ext),true}; -%%prepare_objset({Set,Ext}) when is_list(Set),is_list(Ext) -> -%% {set,lists:append([Set,Ext]),true}; -prepare_objset({Set,Ext}) when is_list(Set) -> - {set,merge_sets(Set,Ext),true}; -prepare_objset({{object,definedsyntax,_ObjFields}=Set,Ext}) -> - {set,merge_sets(Set, Ext),true}; -prepare_objset(ObjDef={object,definedsyntax,_ObjFields}) -> - {set,[ObjDef],false}; -prepare_objset({ObjDef=#type{},Ext}) when is_list(Ext) -> - {set,[ObjDef|Ext],true}; -prepare_objset({#type{}=Type,#type{}=Ext}) -> - {set,[Type,Ext],true}; -prepare_objset(Ret) -> - Ret. - -class_fields_optional_check(S,#classdef{typespec=ClassSpec}) -> - Fields = ClassSpec#objectclass.fields, - class_fields_optional_check1(S,Fields). - -class_fields_optional_check1(_S,[]) -> - ok; -class_fields_optional_check1(S,[{typefield,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest); -class_fields_optional_check1(S,[{fixedtypevaluefield,_,_,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest); -class_fields_optional_check1(S,[{fixedtypevaluesetfield,_,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest); -class_fields_optional_check1(S,[{objectfield,_,_,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest); -class_fields_optional_check1(S,[{objectsetfield,_,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest). - -%% ObjectSetFromObjects functionality - -%% The fieldname is a list of field names.They may be objects or -%% object sets. If ObjectSet is an object set the resulting object set -%% is the union of object sets if the last field name is an object -%% set. If the last field is an object the resulting object set is -%% the set of objects in ObjectSet. -object_set_from_objects(S,RefedObjMod,FieldName,ObjectSet) -> - object_set_from_objects(S,RefedObjMod,FieldName,ObjectSet,[]). -object_set_from_objects(S,RefedObjMod,FieldName,ObjectSet,InterSect) - when is_record(ObjectSet,'ObjectSet') -> - #'ObjectSet'{class=Cl,set=Set} = ObjectSet, - {_,ClassDef} = get_referenced_type(S,Cl), - object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,Set,InterSect,[]); -object_set_from_objects(S,RefedObjMod,FieldName,Object,InterSect) - when is_record(Object,'Object') -> - #'Object'{classname=Cl,def=Def}=Object, - object_set_from_objects(S,RefedObjMod,Cl,FieldName,[Def],InterSect,[]). -object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,['EXTENSIONMARK'|Os], - InterSect,Acc) -> - object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,Os,InterSect,%%Acc); - ['EXTENSIONMARK'|Acc]); -object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,[O|Os],InterSect,Acc) -> - case object_set_from_objects2(S,mod_of_obj(RefedObjMod,element(1,O)), - ClassDef,FieldName,element(3,O),InterSect) of - ObjS when is_list(ObjS) -> - object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,Os,InterSect,ObjS++Acc); - Obj -> - object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,Os,InterSect,[Obj|Acc]) - end; -object_set_from_objects(_S,_RefedObjMod,_ClassDef,_FieldName,[],InterSect,Acc) -> - %% For instance may Acc contain objects of same class from - %% different object sets that in fact might be duplicates. - remove_duplicate_objects(osfo_intersection(InterSect,Acc)). -%% Acc. -object_set_from_objects2(S,RefedObjMod,ClassDef,[{valuefieldreference,OName}], - Fields,_InterSect) -> - %% this is an object - case lists:keysearch(OName,1,Fields) of - {value,{_,TDef}} -> - mk_object_set_from_object(S,RefedObjMod,TDef,ClassDef); - _ -> - [] % it may be an absent optional field - end; -object_set_from_objects2(S,RefedObjMod,ClassDef,[{typefieldreference,OSName}], - Fields,_InterSect) -> - %% this is an object set - case lists:keysearch(OSName,1,Fields) of - {value,{_,TDef}} -> - case TDef#typedef.typespec of - #'ObjectSet'{class=_NextClName,set=NextSet} ->%% = TDef#typedef.typespec, - NextSet; - #'Object'{def=_ObjDef} -> - mk_object_set_from_object(S,RefedObjMod,TDef,ClassDef) -%% ObjDef - %% error({error,{internal,unexpected_object,TDef}}) - end; - _ -> - [] % it may be an absent optional field - end; -object_set_from_objects2(S,RefedObjMod,_ClassDef,[{valuefieldreference,OName}|Rest], - Fields,InterSect) -> - %% this is an object - case lists:keysearch(OName,1,Fields) of - {value,{_,TDef}} -> - #'Object'{classname=NextClName,def=ODef}=TDef#typedef.typespec, - {_,_,NextFields}=ODef, - {_,NextClass} = get_referenced_type(S,NextClName), - object_set_from_objects2(S,RefedObjMod,NextClass,Rest,NextFields,InterSect); - _ -> - [] - end; -object_set_from_objects2(S,RefedObjMod,_ClassDef,[{typefieldreference,OSName}|Rest], - Fields,InterSect) -> - %% this is an object set - Next = {NextClName,NextSet} = - case lists:keysearch(OSName,1,Fields) of - {value,{_,TDef}} when is_record(TDef,'ObjectSet') -> - #'ObjectSet'{class=NextClN,set=NextS} = TDef, - {NextClN,NextS}; - {value,{_,#typedef{typespec=OS}}} -> - %% objectsets in defined syntax will come here as typedef{} - %% #'ObjectSet'{class=NextClN,set=NextS} = OS, - case OS of - #'ObjectSet'{class=NextClN,set=NextS} -> - {NextClN,NextS}; - #'Object'{classname=NextClN,def=NextDef} -> - {NextClN,[NextDef]} - end; + %% is parsed as a type. + case Class of + #type{def=#'Externaltypereference'{}=Def} -> + #'Object'{classname=Def,def=ObjectRef}; _ -> - {[],[]} - end, - case Next of - {[],[]} -> - []; - _ -> - {_,NextClass} = get_referenced_type(S,NextClName), - object_set_from_objects(S,RefedObjMod,NextClass,Rest,NextSet,InterSect,[]) - end. - -mk_object_set_from_object(S,RefedObjMod,TDef,Class) -> - #'Object'{classname=_NextClName,def=ODef} = TDef#typedef.typespec, - {_,_,NextFields}=ODef, - - UniqueFieldName = - case (catch get_unique_fieldname(S,Class)) of - {error,'__undefined_',_} -> {unique,undefined}; - {asn1,Msg,_} -> error({class,Msg,S}); - {'EXIT',Msg} -> error({class,{internal_error,Msg},S}); - {Other,_} -> Other - end, - VDef = get_unique_value(S,NextFields,UniqueFieldName), - %% XXXXXXXXXXX - case VDef of - [] -> - ['EXTENSIONMARK']; - _ -> - {{RefedObjMod,get_datastr_name(TDef)},VDef,NextFields} + asn1_error(S, illegal_object) end. - - -mod_of_obj(_RefedObjMod,{NewMod,ObjName}) - when is_atom(NewMod),is_atom(ObjName) -> - NewMod; -mod_of_obj(RefedObjMod,_) -> - RefedObjMod. - - -merge_sets(Root,{'SingleValue',Ext}) -> - merge_sets(Root,Ext); -merge_sets(Root,Ext) when is_list(Root),is_list(Ext) -> - Root ++ Ext; -merge_sets(Root,Ext) when is_list(Ext) -> - [Root|Ext]; -merge_sets(Root,Ext) when is_list(Root) -> - Root++[Ext]; -merge_sets(Root,Ext) -> - [Root]++[Ext]. - -reduce_objectset(ObjectSet,Exclusion) -> - case Exclusion of - {'SingleValue',#'Externalvaluereference'{value=Name}} -> - case lists:keysearch(Name,1,ObjectSet) of - {value,El} -> - lists:subtract(ObjectSet,[El]); - _ -> - ObjectSet - end - end. - -%% Checks a list of objects or object sets and returns a list of selected -%% information for the code generation. -check_object_list(S,ClassRef,ObjectList) -> - check_object_list(S,ClassRef,ObjectList,[]). - -check_object_list(S,ClassRef,[ObjOrSet|Objs],Acc) -> - ?dbg("check_object_list: ~p~n",[ObjOrSet]), - case ObjOrSet of - ObjDef when is_tuple(ObjDef),(element(1,ObjDef)==object) -> - Def = - check_object(S,#typedef{typespec=ObjDef}, -% #'Object'{classname={objectclassname,ClassRef}, - #'Object'{classname=ClassRef, - def=ObjDef}), - check_object_list(S,ClassRef,Objs,[{{no_mod,no_name},Def#'Object'.def}|Acc]); - {'SingleValue',Ref = #'Externalvaluereference'{}} -> - ?dbg("{SingleValue,Externalvaluereference}~n",[]), - {RefedMod,ObjName, - #'Object'{def=Def}} = check_referenced_object(S,Ref), - check_object_list(S,ClassRef,Objs,[{{RefedMod,ObjName},Def}|Acc]); - ObjRef when is_record(ObjRef,'Externalvaluereference') -> - ?dbg("Externalvaluereference~n",[]), - {RefedMod,ObjName, - #'Object'{def=Def}} = check_referenced_object(S,ObjRef), - check_object_list(S,ClassRef,Objs,[{{RefedMod,ObjName},Def}|Acc]); - {'ValueFromObject',{_,Object},FieldName} -> - {_,Def} = get_referenced_type(S,Object), - TypeDef = get_fieldname_element(S,Def,FieldName), - (TypeDef#typedef.typespec)#'ObjectSet'.set; - ObjSet when is_record(ObjSet,type) -> - ObjSetDef = - case ObjSet#type.def of - Ref when is_record(Ref,'Externaltypereference') -> - {_,D} = get_referenced_type(S,ObjSet#type.def), - D; - Other -> - throw({asn1_error,{'unknown objecset',Other,S}}) - end, - #'ObjectSet'{set=ObjectsInSet} = - check_object(S,ObjSetDef,ObjSetDef#typedef.typespec), - AccList = transform_set_to_object_list(ObjectsInSet,[]), - check_object_list(S,ClassRef,Objs,AccList++Acc); - union -> - check_object_list(S,ClassRef,Objs,Acc); - {pos,{objectset,_,DefinedObjectSet},Params} -> - OSDef = #type{def={pt,DefinedObjectSet,Params}}, - #'ObjectSet'{set=Set} = - check_object(S,ObjOrSet,#'ObjectSet'{class=ClassRef, - set=OSDef}), - check_object_list(S,ClassRef,Objs,Set ++ Acc); - {pv,{simpledefinedvalue,DefinedObject},Params} -> - Args = [match_parameters(S,Param,S#state.parameters)|| - Param<-Params], - #'Object'{def=Def} = - check_object(S,ObjOrSet, - #'Object'{classname=ClassRef , - def={po,{object,DefinedObject}, - Args}}), - check_object_list(S,ClassRef,Objs,[{{no_mod,no_name},Def}|Acc]); - {'ObjectSetFromObjects',Os,FieldName} when is_tuple(Os) -> - NewSet = - 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(tuple_size(Os), Os), - FieldName,InterSection), - check_object_list(S,ClassRef,Objs,NewSet++Acc); - Other -> - exit({error,{'unknown object',Other},S}) - end; -%% Finally reverse the accumulated list and if there are any extension -%% marks in the object set put one indicator of that in the end of the -%% list. -check_object_list(_,_,[],Acc) -> - lists:reverse(Acc). check_referenced_object(S,ObjRef) when is_record(ObjRef,'Externalvaluereference')-> @@ -1213,195 +1002,134 @@ check_referenced_object(S,ObjRef) check_object(update_state(S,RefedMod),ObjectDef,ObjectDef#typedef.typespec)} end. -check_ObjectSetFromObjects(S,ObjName,FieldName,InterSection) -> - {RefedMod,TDef} = get_referenced_type(S,ObjName), - ObjOrSet = check_object(update_state(S,RefedMod),TDef,TDef#typedef.typespec), - InterSec = prepare_intersection(S,InterSection), - _NewSet = object_set_from_objects(S,RefedMod,FieldName,ObjOrSet,InterSec). +check_ObjectSetFromObjects(S, ObjName, Fields) -> + {_,Obj0} = get_referenced_type(S, ObjName), + case check_object(S, Obj0, Obj0#typedef.typespec) of + #'ObjectSet'{}=Obj1 -> + get_fieldname_set(S, Obj1, Fields); + #'Object'{classname=Class, + def={object,_,ObjFs}} -> + ObjSet = #'ObjectSet'{class=Class, + set=[{'_','_',ObjFs}]}, + get_fieldname_set(S, ObjSet, Fields) + end. -prepare_intersection(_S,[]) -> - []; -prepare_intersection(S,{'EXCEPT',ObjRef}) -> - except_names(S,ObjRef); -prepare_intersection(_S,T) -> - exit({error,{internal_error,not_implemented,object_set_from_objects,T}}). -except_names(_S,{'SingleValue',#'Externalvaluereference'{value=ObjName}}) -> - [{except,ObjName}]; -except_names(_,T) -> - exit({error,{internal_error,not_implemented,object_set_from_objects,T}}). - -osfo_intersection(InterSect,ObjList) -> - Res = [X|| X = {{_,N},_,_} <- ObjList, - lists:member({except,N},InterSect) == false], - case lists:member('EXTENSIONMARK',ObjList) of - true -> - Res ++ ['EXTENSIONMARK']; +%% get_type_from_object(State, ObjectOrObjectSet, [{RefType,FieldName}]) -> +%% Type +get_type_from_object(S, Object, FieldNames) + when is_record(Object, 'Externaltypereference'); + is_record(Object, 'Externalvaluereference') -> + extract_field(S, Object, FieldNames). + +%% get_value_from_object(State, ObjectOrObjectSet, [{RefType,FieldName}]) -> +%% UntaggedValue +get_value_from_object(S, Def, FieldNames) -> + case extract_field(S, Def, FieldNames) of + #valuedef{value=Val} -> + Val; + {valueset,_}=Val -> + Val; _ -> - Res + asn1_error(S, illegal_value) end. -%% get_fieldname_element/3 -%% gets the type/value/object/... of the referenced element in FieldName -%% FieldName is a list and may have more than one element. -%% Each element in FieldName can be either {typefieldreference,AnyFieldName} -%% or {valuefieldreference,AnyFieldName} -%% Def is the def of the first object referenced by FieldName -get_fieldname_element(S,Def,[{_RefType,FieldName}]) when is_record(Def,typedef) -> - {_,_,ObjComps} = (Def#typedef.typespec)#'Object'.def, - check_fieldname_element(S,lists:keysearch(FieldName,1,ObjComps)); -get_fieldname_element(S,Def,[{_RefType,FieldName}|Rest]) - when is_record(Def,typedef) -> - %% As FieldName is followd by other FieldNames it has to be an - %% object or objectset. - {_,_,ObjComps} = (Def#typedef.typespec)#'Object'.def, - NewDef = check_fieldname_element(S,lists:keysearch(FieldName,1,ObjComps)), - ObjDef = fun(#'Object'{def=D}) -> D; - (#'ObjectSet'{set=Set}) -> Set - end - (NewDef), - case ObjDef of +%% extract_field(State, ObjectOrObjectSet, [{RefType,FieldName}]) +%% RefType = typefieldreference | valuefieldreference +%% +%% Get the type, value, object, object set, or value set from the +%% referenced object or object set. The list of field name tuples +%% may have more than one element. All field names but the last +%% refers to either an object or object set. + +extract_field(S, Def0, FieldNames) -> + {_,Def1} = get_referenced_type(S, Def0), + Def2 = check_object(S, Def1, Def1#typedef.typespec), + Def = Def1#typedef{typespec=Def2}, + get_fieldname_element(S, Def, FieldNames). + +%% get_fieldname_element(State, Element, [{RefType,FieldName}] +%% RefType = typefieldreference | valuefieldreference +%% +%% Get the type, value, object, object set, or value set from the referenced +%% element. The list of field name tuples may have more than one element. +%% All field names but the last refers to either an object or object set. + +get_fieldname_element(S, Object0, [{_RefType,FieldName}|Fields]) -> + Object = case Object0 of + #typedef{typespec=#'Object'{def=Obj}} -> Obj; + {_,_,_}=Obj -> Obj + end, + case check_fieldname_element(S, FieldName, Object) of + #'Object'{def=D} when Fields =/= [] -> + get_fieldname_element(S, D, Fields); + #'ObjectSet'{}=Set -> + get_fieldname_set(S, Set, Fields); + Result when Fields =:= [] -> + Result + end; +get_fieldname_element(_S, Def, []) -> + Def. + +get_fieldname_set(S, #'ObjectSet'{set=Set0}, T) -> + get_fieldname_set_1(S, Set0, T, []). + +get_fieldname_set_1(S, ['EXTENSIONMARK'=Ext|T], Fields, Acc) -> + get_fieldname_set_1(S, T, Fields, [Ext|Acc]); +get_fieldname_set_1(S, [H|T], Fields, Acc) -> + try get_fieldname_element(S, H, Fields) of L when is_list(L) -> - [get_fieldname_element(S,X,Rest) || X <- L]; - _ -> - get_fieldname_element(S,ObjDef,Rest) + get_fieldname_set_1(S, T, Fields, L++Acc); + {valueset,L} -> + get_fieldname_set_1(S, T, Fields, L++Acc); + Other -> + get_fieldname_set_1(S, T, Fields, [Other|Acc]) + catch + throw:{error,_} -> + get_fieldname_set_1(S, T, Fields, Acc) end; -get_fieldname_element(S,{object,_,Fields},[{_RefType,FieldName}|Rest]) -> - NewDef = check_fieldname_element(S,lists:keysearch(FieldName,1,Fields)), - get_fieldname_element(S,NewDef,Rest); -get_fieldname_element(_S,Def,[]) -> - Def; -get_fieldname_element(_S,Def,[{_RefType,_FieldName}|_RestFName]) - when is_record(Def,typedef) -> - ok. +get_fieldname_set_1(_, [], _Fields, Acc) -> + case Acc of + [#valuedef{}|_] -> + {valueset,Acc}; + _ -> + Acc + end. -check_fieldname_element(S,{value,{_,Def}}) -> - check_fieldname_element(S,Def); -check_fieldname_element(S, #typedef{typespec=Ts}=TDef) -> +check_fieldname_element(S, Name, {_,_,Fields}) -> + case lists:keyfind(Name, 1, Fields) of + {Name,Def} -> + check_fieldname_element_1(S, Def); + false -> + asn1_error(S, {undefined_field,Name}) + end. + +check_fieldname_element_1(S, #typedef{typespec=Ts}=TDef) -> case Ts of #'Object'{} -> check_object(S, TDef, Ts); _ -> check_type(S, TDef, Ts) end; -check_fieldname_element(S, #valuedef{}=VDef) -> +check_fieldname_element_1(S, #valuedef{}=VDef) -> try check_value(S, VDef) catch - throw:{objectdef} -> + throw:{asn1_class, _} -> #valuedef{checked=C,pos=Pos,name=N,type=Type, value=Def} = VDef, ClassName = Type#type.def, NewSpec = #'Object'{classname=ClassName,def=Def}, NewDef = #typedef{checked=C,pos=Pos,name=N,typespec=NewSpec}, - check_fieldname_element(S, NewDef) + check_fieldname_element_1(S, NewDef) end; -check_fieldname_element(S,Eref) - when is_record(Eref,'Externaltypereference'); - is_record(Eref,'Externalvaluereference') -> - {_,TDef}=get_referenced_type(S,Eref), - check_fieldname_element(S,TDef); -check_fieldname_element(S,Other) -> - throw({error,{assigned_object_error,"not_assigned_object",Other,S}}). +check_fieldname_element_1(_S, {value_tag,Val}) -> + #valuedef{value=Val}; +check_fieldname_element_1(S, Eref) + when is_record(Eref, 'Externaltypereference'); + is_record(Eref, 'Externalvaluereference') -> + {_,TDef} = get_referenced_type(S, Eref), + check_fieldname_element_1(S, TDef). -transform_set_to_object_list([{Name,_UVal,Fields}|Objs],Acc) -> - transform_set_to_object_list(Objs,[{Name,{object,generatesyntax,Fields}}|Acc]); -transform_set_to_object_list(['EXTENSIONMARK'|Objs],Acc) -> -%% transform_set_to_object_list(Objs,['EXTENSIONMARK'|Acc]); - transform_set_to_object_list(Objs,Acc); -transform_set_to_object_list([],Acc) -> - Acc. - -get_unique_valuelist(_S,ObjSet,{unique,undefined}) -> % no unique field in object - lists:map(fun({N,{_,_,F}})->{N,no_unique_value,F}; - (V={_,_,_}) ->V; - ({A,B}) -> {A,no_unique_value,B} - end, ObjSet); -get_unique_valuelist(S,ObjSet,{UFN,Opt}) -> - get_unique_vlist(S,ObjSet,UFN,Opt,[]). - - -get_unique_vlist(_S,[],_,_,[]) -> - ['EXTENSIONMARK']; -get_unique_vlist(S,[],_,Opt,Acc) -> - case catch check_uniqueness(remove_duplicate_objects(Acc)) of - {asn1_error,_} when Opt =/= 'OPTIONAL' -> - error({'ObjectSet',"not unique objects in object set",S}); - {asn1_error,_} -> - lists:reverse(Acc); - _ -> - lists:reverse(Acc) - end; -get_unique_vlist(S,['EXTENSIONMARK'|Rest],UniqueFieldName,Opt,Acc) -> - get_unique_vlist(S,Rest,UniqueFieldName,Opt,Acc); -get_unique_vlist(S,[{ObjName,Obj}|Rest],UniqueFieldName,Opt,Acc) -> - {_,_,Fields} = Obj, - NewObjInf = - case get_unique_value(S,Fields,UniqueFieldName) of - #valuedef{value=V} -> [{ObjName,V,Fields}]; - [] -> []; % maybe the object only was a reference to an - % empty object set. - no_unique_value -> [{ObjName,no_unique_value,Fields}] - end, - get_unique_vlist(S,Rest,UniqueFieldName,Opt,NewObjInf++Acc); - -get_unique_vlist(S,[V={_,_,_}|Rest],UniqueFieldName,Opt,Acc) -> - get_unique_vlist(S,Rest,UniqueFieldName,Opt,[V|Acc]). - -get_unique_value(S,Fields,UniqueFieldName) -> - Module = S#state.mname, - case lists:keysearch(UniqueFieldName,1,Fields) of - {value,Field} -> - case element(2,Field) of - VDef when is_record(VDef,valuedef) -> - VDef; - {'ValueFromObject',Object,Name} -> - case Object of - {object,Ext} when is_record(Ext,'Externaltypereference') -> - OtherModule = Ext#'Externaltypereference'.module, - ExtObjName = Ext#'Externaltypereference'.type, - ObjDef = asn1_db:dbget(OtherModule,ExtObjName), - ObjSpec = ObjDef#typedef.typespec, - get_unique_value(OtherModule,element(3,ObjSpec),Name); - {object,{_,_,ObjName}} -> - ObjDef = asn1_db:dbget(Module,ObjName), - ObjSpec = ObjDef#typedef.typespec, - get_unique_value(Module,element(3,ObjSpec),Name); - {po,Object,_Params} -> - exit({error,{'parameterized object not implemented yet', - Object},S}) - end; - Value when is_atom(Value);is_number(Value) -> - #valuedef{value=Value,module=Module}; - {'CHOICE',{C,Value}} when is_atom(C) -> - %% #valuedef{value=normalize_value(S,element(3,Field),VDef,[])} - case Value of - Scalar when is_atom(Scalar);is_number(Scalar) -> - #valuedef{value=Value,module=Module}; - Eref = #'Externalvaluereference'{} -> - element(2,get_referenced_type(S,Eref)) - end - end; - false -> - case Fields of - [{_,#typedef{typespec=#'ObjectSet'{set=['EXTENSIONMARK']}}}] -> - []; - _ -> - no_unique_value - end - end. - -check_uniqueness(NameValueList) -> - check_uniqueness1(lists:keysort(2,NameValueList)). - -check_uniqueness1([]) -> - true; -check_uniqueness1([_]) -> - true; -check_uniqueness1([{_,N,_},{_,N,_}|_Rest]) -> - throw({asn1_error,{'objects in set must have unique values in UNIQUE fields',N}}); -check_uniqueness1([_|Rest]) -> - check_uniqueness1(Rest). - %% instantiate_po/4 %% ClassDef is the class of Object, %% Object is the Parameterized object, which is referenced, @@ -1410,8 +1138,7 @@ check_uniqueness1([_|Rest]) -> instantiate_po(S=#state{parameters=_OldArgs},_ClassDef,Object,ArgsList) when is_record(Object,pobjectdef) -> FormalParams = get_pt_args(Object), MatchedArgs = match_args(S,FormalParams,ArgsList,[]), -% NewS = S#state{type=Object,parameters=MatchedArgs++OldArgs}, - NewS = S#state{type=Object,parameters=MatchedArgs}, + NewS = S#state{parameters=MatchedArgs}, check_object(NewS,Object,#'Object'{classname=Object#pobjectdef.class, def=Object#pobjectdef.def}). @@ -1421,20 +1148,14 @@ instantiate_po(S=#state{parameters=_OldArgs},_ClassDef,Object,ArgsList) when is_ %% on the right side of the assignment, %% ArgsList is the list of actual parameters, i.e. real objects instantiate_pos(S=#state{parameters=_OldArgs},ClassRef,ObjectSetDef,ArgsList) -> -% ClassName = ClassDef#classdef.name, FormalParams = get_pt_args(ObjectSetDef), OSet = case get_pt_spec(ObjectSetDef) of - {valueset,Set} -> -% #'ObjectSet'{class=name2Extref(S#state.mname, -% ClassName),set=Set}; - #'ObjectSet'{class=ClassRef,set=Set}; - Set when is_record(Set,'ObjectSet') -> Set; - _ -> - error({type,"parameterized object set failure",S}) + {valueset,Set} -> #'ObjectSet'{class=ClassRef,set=Set}; + Set when is_record(Set,'ObjectSet') -> Set; + _ -> asn1_error(S, invalid_objectset) end, MatchedArgs = match_args(S,FormalParams,ArgsList,[]), -% NewS = S#state{type=ObjectSetDef,parameters=MatchedArgs++OldArgs}, - NewS = S#state{type=ObjectSetDef,parameters=MatchedArgs}, + NewS = S#state{parameters=MatchedArgs}, check_object(NewS,ObjectSetDef,OSet). @@ -1468,7 +1189,7 @@ gen_incl1(S,Fields,[C|CFields]) -> check_object(S,TDef,TDef#typedef.typespec); ERef -> {_,T} = get_referenced_type(S,ERef), - check_object(S,T,object_to_check(T)) + check_object(S, T, object_to_check(S, T)) end, case gen_incl(S,ObjDef#'Object'.def, ClassFields) of @@ -1485,7 +1206,7 @@ gen_incl1(S,Fields,[C|CFields]) -> end. get_objclass_fields(S,Eref=#'Externaltypereference'{}) -> - {_,ClassDef} = get_referenced_type(S,Eref), + {_,ClassDef} = get_referenced_type(S,Eref, true), get_objclass_fields(S,ClassDef); get_objclass_fields(S,CD=#classdef{typespec=#'Externaltypereference'{}}) -> get_objclass_fields(S,CD#classdef.typespec); @@ -1501,10 +1222,10 @@ gen_incl_set(S,Fields,#typedef{typespec=#type{def=Eref}}) {_,CDef} = get_referenced_type(S,Eref), gen_incl_set(S,Fields,CDef); gen_incl_set(S,Fields,ClassDef) -> - case catch get_unique_fieldname(S,ClassDef) of - Tuple when tuple_size(Tuple) =:= 3 -> + case get_unique_fieldname(S, ClassDef) of + no_unique -> false; - _ -> + {_, _} -> gen_incl_set1(S,Fields, (ClassDef#classdef.typespec)#objectclass.fields) end. @@ -1529,475 +1250,390 @@ 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. + + +%%% +%%% Pre-process the simplified syntax so that it can be more +%%% easily matched. +%%% + +get_syntax(_, {preprocessed_syntax,Syntax}, _) -> + Syntax; +get_syntax(S, {'WITH SYNTAX',Syntax}, ClassFields) -> + preprocess_syntax(S, Syntax, ClassFields). + +preprocess_syntax(S, Syntax0, Cs) -> + Syntax = preprocess_syntax_1(S, Syntax0, Cs, true), + Present0 = preprocess_get_fields(Syntax, []), + Present1 = lists:sort(Present0), + Present = ordsets:from_list(Present1), + case Present =:= Present1 of + false -> + Dupl = Present1 -- Present, + asn1_error(S, {syntax_duplicated_fields,Dupl}); + true -> + ok + end, + Mandatory0 = get_mandatory_class_fields(Cs), + Mandatory = ordsets:from_list(Mandatory0), + case ordsets:subtract(Mandatory, Present) of + [] -> + Syntax; + [_|_]=Missing -> + asn1_error(S, {syntax_missing_mandatory_fields,Missing}) end. +preprocess_syntax_1(S, [H|T], Cs, Mandatory) when is_list(H) -> + [{optional,preprocess_syntax_1(S, H, Cs, false)}| + preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(S, [{valuefieldreference,Name}|T], Cs, Mandatory) -> + F = preprocess_check_field(S, Name, Cs, Mandatory), + [F|preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(S, [{typefieldreference,Name}|T], Cs, Mandatory) -> + F = preprocess_check_field(S, Name, Cs, Mandatory), + [F|preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(S,[{Token,_}|T], Cs, Mandatory) when is_atom(Token) -> + [{token,Token}|preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(S, [Token|T], Cs, Mandatory) when is_atom(Token) -> + [{token,Token}|preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(_, [], _, _) -> []. + +preprocess_check_field(S, Name, Cs, Mandatory) -> + case lists:keyfind(Name, 2, Cs) of + Tuple when is_tuple(Tuple) -> + case not Mandatory andalso is_mandatory_class_field(Tuple) of + true -> + asn1_error(S, {syntax_mandatory_in_optional_group,Name}); + false -> + {field,Tuple} + end; + false -> + asn1_error(S, {syntax_undefined_field,Name}) + end. + +preprocess_get_fields([{field,F}|T], Acc) -> + Name = element(2, F), + preprocess_get_fields(T, [Name|Acc]); +preprocess_get_fields([{optional,L}|T], Acc) -> + preprocess_get_fields(T, preprocess_get_fields(L, Acc)); +preprocess_get_fields([_|T], Acc) -> + preprocess_get_fields(T, Acc); +preprocess_get_fields([], Acc) -> + Acc. + +%%% +%%% Match the actual fields in the object definition to +%%% the pre-processed simplified 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,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(S, 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),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), + 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, {element_set,_,_}=Set, ClassDef) -> + make_objset(ClassDef, Set); +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(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}, FNs}}, + ClassDef) -> + Set = extract_field(S, Object, FNs), + [_|_] = Set, + #typedef{checked=true,typespec=#'ObjectSet'{class=ClassDef,set=Set}}; +match_syntax_objset_1(_, #type{def=#'ObjectClassFieldType'{}}=Set, ClassDef) -> + make_objset(ClassDef, Set); +match_syntax_objset_1(_, {object,_,_}=Object, ClassDef) -> + make_objset(ClassDef, [Object]). + +make_objset(ClassDef, Set) -> + #typedef{typespec=#'ObjectSet'{class=ClassDef,set=Set}}. + +syntax_match_error(S) -> + asn1_error(S, syntax_nomatch). + +syntax_match_error(S, What0) -> + What = printable_string(What0), + asn1_error(S, {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), Mandatory = ordsets:from_list(Mandatory0), All = ordsets:from_list([element(2, F) || F <- ClassFields]), - #state{type=T,tname=Obj} = S, + #state{tname=Obj} = S, case ordsets:subtract(Present, All) of [] -> ok; [_|_]=Invalid -> - asn1_error(S, T, {invalid_fields,Invalid,Obj}) + asn1_error(S, {invalid_fields,Invalid,Obj}) end, case ordsets:subtract(Mandatory, Present) of [] -> check_defaultfields_1(S, Fields, ClassFields, []); [_|_]=Missing -> - asn1_error(S, T, {missing_mandatory_fields,Missing,Obj}) + asn1_error(S, {missing_mandatory_fields,Missing,Obj}) end. 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]). + {match,Match} = match_syntax_type(S, CField, Spec), + check_defaultfields_1(S, Fields, ClassFields, Match++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. +get_mandatory_class_fields(ClassFields) -> + [element(2, F) || F <- ClassFields, + is_mandatory_class_field(F)]. -get_mandatory_class_fields([{fixedtypevaluefield,Name,_,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{objectfield,Name,_,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{objectsetfield,Name,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{typefield,Name,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{variabletypevaluefield,Name,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{variabletypevaluesetfield, - Name,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -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,RefedObj}, - FieldName}}]},_CField) -> - %% This case occurs when an ObjectSetFromObjects - %% production is used - {_M,Def} = get_referenced_type(S,RefedObj), - get_fieldname_element(S,Def,FieldName); -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. +is_mandatory_class_field({fixedtypevaluefield,_,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({objectfield,_,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({objectsetfield,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({typefield,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({variabletypevaluefield,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({variabletypevaluesetfield,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field(_) -> + false. merged_name(#state{inputmodules=[]},ERef) -> ERef; @@ -2013,38 +1649,18 @@ 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, @@ -2068,8 +1684,7 @@ check_value(OldS,V) when is_record(V,typedef) -> #typedef{typespec=TS} = V, case TS of #'ObjectSet'{class=ClassRef} -> - {RefM,TSDef} = get_referenced_type(OldS,ClassRef), - %%IsObjectSet(TSDef); + {_RefM,TSDef} = get_referenced_type(OldS, ClassRef), case TSDef of #classdef{} -> throw({objectsetdef}); #typedef{typespec=#type{def=Eref}} when @@ -2077,14 +1692,12 @@ check_value(OldS,V) when is_record(V,typedef) -> %% This case if the class reference is a defined %% reference to class check_value(OldS,V#typedef{typespec=TS#'ObjectSet'{class=Eref}}); - #typedef{} -> + #typedef{typespec=HostType} -> % an ordinary value set with a type in #typedef.typespec - ValueSet = TS#'ObjectSet'.set, - Type=check_type(OldS,TSDef,TSDef#typedef.typespec), - Value = check_value(OldS,#valuedef{type=Type, - value=ValueSet, - module=RefM}), - {valueset,Type#type{constraint=Value#valuedef.value}} + ValueSet0 = TS#'ObjectSet'.set, + Constr = check_constraints(OldS, HostType, [ValueSet0]), + Type = check_type(OldS,TSDef,TSDef#typedef.typespec), + {valueset,Type#type{constraint=Constr}} end; _ -> throw({objectsetdef}) @@ -2104,11 +1717,11 @@ check_value(S, #valuedef{}=V) -> end. check_valuedef(#state{recordtopname=TopName}=S0, V0) -> - #valuedef{name=Name,type=Vtype,value=Value,module=ModName} = V0, + #valuedef{name=Name,type=Vtype0,value=Value,module=ModName} = V0, V = V0#valuedef{checked=true}, + Vtype = check_type(S0, #typedef{name=Name,typespec=Vtype0},Vtype0), Def = Vtype#type.def, - Constr = Vtype#type.constraint, - S1 = S0#state{type=Vtype,tname=Def,value=V0,vname=Name}, + S1 = S0#state{tname=Def}, SVal = update_state(S1, ModName), case Def of #'Externaltypereference'{type=RecName}=Ext -> @@ -2116,9 +1729,8 @@ check_valuedef(#state{recordtopname=TopName}=S0, V0) -> %% If V isn't a value but an object Type is a #classdef{} S2 = update_state(S1, RefM), case Type of - #classdef{} -> - throw({objectdef}); - #typedef{typespec=TypeSpec} -> + #typedef{typespec=TypeSpec0}=TypeDef -> + TypeSpec = check_type(S2, TypeDef, TypeSpec0), S3 = case is_contextswitchtype(Type) of true -> S2; @@ -2135,7 +1747,7 @@ check_valuedef(#state{recordtopname=TopName}=S0, V0) -> V#valuedef{type=Type}), V#valuedef{value=CheckedVal} end; - 'ANY' -> + 'ASN1_OPEN_TYPE' -> {opentypefieldvalue,ANYType,ANYValue} = Value, CheckedV = check_value(SVal,#valuedef{name=Name, type=ANYType, @@ -2143,19 +1755,12 @@ check_valuedef(#state{recordtopname=TopName}=S0, V0) -> module=ModName}), V#valuedef{value=CheckedV#valuedef.value}; 'INTEGER' -> - ok = validate_integer(SVal, Value, [], Constr), V#valuedef{value=normalize_value(SVal, Vtype, Value, [])}; - {'INTEGER',NamedNumberList} -> - ok = validate_integer(SVal, Value, NamedNumberList, Constr), + {'INTEGER',_NamedNumberList} -> V#valuedef{value=normalize_value(SVal, Vtype, Value, [])}; #'SEQUENCE'{} -> - {ok,SeqVal} = convert_external(SVal, Value), + {ok,SeqVal} = convert_external(SVal, Vtype, Value), V#valuedef{value=normalize_value(SVal, Vtype, SeqVal, TopName)}; - {'SelectionType',SelName,SelT} -> - CheckedT = check_selectiontype(SVal, SelName, SelT), - NewV = V#valuedef{type=CheckedT}, - SelVDef = check_value(S1#state{value=NewV}, NewV), - V#valuedef{value=SelVDef#valuedef.value}; _ -> V#valuedef{value=normalize_value(SVal, Vtype, Value, TopName)} end. @@ -2169,179 +1774,97 @@ is_contextswitchtype(#typedef{name='CHARACTER STRING'}) -> is_contextswitchtype(_) -> false. -% validate_integer(S,{identifier,Pos,Id},NamedNumberList,Constr) -> -% case lists:keysearch(Id,1,NamedNumberList) of -% {value,_} -> ok; -% false -> error({value,"unknown NamedNumber",S}) -% end; -%% This case occurs when there is a valuereference -%% validate_integer(S=#state{mname=M}, -%% #'Externalvaluereference'{module=M,value=Id}=Ref, -validate_integer(S,#'Externalvaluereference'{value=Id}=Ref, - NamedNumberList,Constr) -> - case lists:keysearch(Id,1,NamedNumberList) of - {value,_} -> ok; - false -> validate_integer_ref(S,Ref,NamedNumberList,Constr) - %%error({value,"unknown NamedNumber",S}) - end; -validate_integer(S,Id,NamedNumberList,Constr) when is_atom(Id) -> - case lists:keysearch(Id,1,NamedNumberList) of - {value,_} -> ok; - false -> validate_integer_ref(S,Id,NamedNumberList,Constr) - %error({value,"unknown NamedNumber",S}) +%%% +%%% Start of OBJECT IDENTFIER/RELATIVE-OID validation. +%%% + +validate_objectidentifier(S, OidType, #'Externalvaluereference'{}=Id) -> + %% Must be an OBJECT IDENTIFIER or RELATIVE-OID depending on OidType. + get_oid_value(S, OidType, false, Id); +validate_objectidentifier(S, OidType, {'ValueFromObject',{object,Obj},Fields}) -> + %% Must be an OBJECT IDENTIFIER/RELATIVE-OID depending on OidType. + case extract_field(S, Obj, Fields) of + #valuedef{checked=true,value=Value,type=Type} when is_tuple(Value) -> + _ = get_oid_type(S, OidType, Type), + Value; + _ -> + asn1_error(S, {illegal_oid,OidType}) end; -validate_integer(_S,Value,_NamedNumberList,Constr) when is_integer(Value) -> - check_integer_range(Value,Constr). - -validate_integer_ref(S,Id,_,_) when is_atom(Id) -> - error({value,"unknown integer referens",S}); -validate_integer_ref(S,Ref,NamedNumberList,Constr) -> - case get_referenced_type(S,Ref) of - {M,V} when is_record(V,valuedef) -> - NewS = update_state(S,M), - case check_value(NewS,V) of - #valuedef{type=#type{def='INTEGER'},value=Value} -> - validate_integer(NewS,Value,NamedNumberList,Constr); - _Err -> error({value,"unknown integer referens",S}) +validate_objectidentifier(S, OidType, + [{#seqtag{module=Mod,pos=Pos,val=Atom},Val}]) -> + %% This case is when an OBJECT IDENTIFIER value has been parsed as a + %% SEQUENCE value. + Rec = #'Externalvaluereference'{pos=Pos, + module=Mod, + value=Atom}, + validate_oid(S, OidType, [Rec,Val], []); +validate_objectidentifier(S, OidType, [_|_]=L0) -> + validate_oid(S, OidType, L0, []); +validate_objectidentifier(S, OidType, _) -> + asn1_error(S, {illegal_oid,OidType}). + +get_oid_value(S, OidType, AllowInteger, #'Externalvaluereference'{}=Id) -> + case get_referenced_type(S, Id) of + {_,#valuedef{checked=Checked,type=Type,value=V}} -> + case get_oid_type(S, OidType, Type) of + 'INTEGER' when not AllowInteger -> + asn1_error(S, {illegal_oid,OidType}); + _ when Checked -> + V; + 'INTEGER' -> + V; + _ -> + validate_objectidentifier(S, OidType, V) end; _ -> - error({value,"unknown integer referens",S}) + asn1_error(S, {illegal_oid,OidType}) end. - - - -check_integer_range(_Int, Constr) when is_list(Constr) -> - ok. -%%------------ -%% This can be removed when the old parser is removed -%% The function removes 'space' atoms from the list - -is_space_list([H],Acc) -> - lists:reverse([H|Acc]); -is_space_list([H,space|T],Acc) -> - is_space_list(T,[H|Acc]); -is_space_list([],Acc) -> - lists:reverse(Acc); -is_space_list([H|T],Acc) -> - is_space_list(T,[H|Acc]). - -validate_objectidentifier(S,OID,ERef,C) - when is_record(ERef,'Externalvaluereference') -> - validate_objectidentifier(S,OID,[ERef],C); -validate_objectidentifier(S,OID,Tup,C) when is_tuple(Tup) -> - validate_objectidentifier(S,OID,tuple_to_list(Tup),C); -validate_objectidentifier(S,OID,L,_) -> - NewL = is_space_list(L,[]), - case validate_objectidentifier1(S,OID,NewL) of - NewL2 when is_list(NewL2) ->{ok,list_to_tuple(NewL2)}; - Other -> {ok,Other} - end. - -validate_objectidentifier1(S, OID, [Id|T]) - when is_record(Id,'Externalvaluereference') -> - case catch get_referenced_type(S,Id) of - {M,V} when is_record(V,valuedef) -> - NewS = update_state(S,M), - case check_value(NewS,V) of - #valuedef{type=#type{def=ERef},checked=true, - value=Value} when is_tuple(Value) -> - case is_object_id(OID,NewS,ERef) of - true -> - %% T must be a RELATIVE-OID - validate_oid(true,NewS, rel_oid, T, lists:reverse(tuple_to_list(Value))); - _ -> - error({value, {"illegal "++to_string(OID),[Id|T]}, S}) - end; - _ -> - error({value, {"illegal "++to_string(OID),[Id|T]}, S}) - end; - _ -> - validate_oid(true,S, OID, [Id|T], []) - end; -validate_objectidentifier1(S,OID,V) -> - validate_oid(true,S,OID,V,[]). - -validate_oid(false, S, OID, V, Acc) -> - error({value, {"illegal "++to_string(OID), V,Acc}, S}); -validate_oid(_,_, _, [], Acc) -> - lists:reverse(Acc); -validate_oid(_, S, OID, [Value|Vrest], Acc) when is_integer(Value) -> - validate_oid(valid_objectid(OID,Value,Acc),S, OID, Vrest, [Value|Acc]); -validate_oid(_, S, OID, [{'NamedNumber',_Name,Value}|Vrest], Acc) +validate_oid(S, OidType, [], Acc) -> + Oid = lists:reverse(Acc), + validate_oid_path(S, OidType, Oid), + list_to_tuple(Oid); +validate_oid(S, OidType, [Value|Vrest], Acc) when is_integer(Value) -> + validate_oid(S, OidType, Vrest, [Value|Acc]); +validate_oid(S, OidType, [{'NamedNumber',_Name,Value}|Vrest], Acc) when is_integer(Value) -> - validate_oid(valid_objectid(OID,Value,Acc), S, OID, Vrest, [Value|Acc]); -validate_oid(_, S, OID, [Id|Vrest], Acc) - when is_record(Id,'Externalvaluereference') -> - case catch get_referenced_type(S, Id) of - {M,V} when is_record(V,valuedef) -> - NewS = update_state(S,M), - NewVal = case check_value(NewS, V) of - #valuedef{checked=true,value=Value} -> - fun(Int) when is_integer(Int) -> [Int]; - (L) when is_list(L) -> L; - (T) when is_tuple(T) -> tuple_to_list(T) - end (Value); - _ -> - error({value, {"illegal "++to_string(OID), - [Id|Vrest],Acc}, S}) - end, - case NewVal of - List when is_list(List) -> - validate_oid(valid_objectid(OID,NewVal,Acc), NewS, - OID, Vrest,lists:reverse(NewVal)++Acc); - _ -> - NewVal - end; - _ -> + validate_oid(S, OidType, Vrest, [Value|Acc]); +validate_oid(S, OidType, [#'Externalvaluereference'{}=Id|Vrest], Acc) -> + NeededOidType = case Acc of + [] -> o_id; + [_|_] -> rel_oid + end, + try get_oid_value(S, NeededOidType, true, Id) of + Val when is_integer(Val) -> + validate_oid(S, OidType, Vrest, [Val|Acc]); + Val when is_tuple(Val) -> + L = tuple_to_list(Val), + validate_oid(S, OidType, Vrest, lists:reverse(L, Acc)) + catch + _:_ -> case reserved_objectid(Id#'Externalvaluereference'.value, Acc) of Value when is_integer(Value) -> - validate_oid(valid_objectid(OID,Value,Acc), - S, OID,Vrest, [Value|Acc]); + validate_oid(S, OidType,Vrest, [Value|Acc]); false -> - error({value, {"illegal "++to_string(OID),[Id,Vrest],Acc}, S}) + asn1_error(S, {illegal_oid,OidType}) end end; -validate_oid(_, S, OID, [{#seqtag{module=Mod,val=Atom},Value}], []) - when is_atom(Atom),is_integer(Value) -> - %% this case when an OBJECT IDENTIFIER value has been parsed as a - %% SEQUENCE value - Rec = #'Externalvaluereference'{module=Mod, - value=Atom}, - validate_objectidentifier1(S, OID, [Rec,Value]); -validate_oid(_, S, OID, [{#seqtag{module=Mod,val=Atom},EVRef}], []) - when is_atom(Atom),is_record(EVRef,'Externalvaluereference') -> - %% this case when an OBJECT IDENTIFIER value has been parsed as a - %% SEQUENCE value OTP-4354 - Rec = #'Externalvaluereference'{module=Mod, - value=Atom}, - validate_objectidentifier1(S, OID, [Rec,EVRef]); -validate_oid(_, S, OID, [#seqtag{module=Mod,val=Atom}|Rest], Acc) - when is_atom(Atom) -> - Rec = #'Externalvaluereference'{module=Mod, - value=Atom}, - validate_oid(true,S, OID, [Rec|Rest],Acc); -validate_oid(_, S, OID, V, Acc) -> - error({value, {"illegal "++to_string(OID),V,Acc},S}). - -is_object_id(OID,S,ERef=#'Externaltypereference'{}) -> - {_,OI} = get_referenced_type(S,ERef), - is_object_id(OID,S,OI#typedef.typespec); -is_object_id(o_id,_S,'OBJECT IDENTIFIER') -> - true; -is_object_id(rel_oid,_S,'RELATIVE-OID') -> - true; -is_object_id(_,_S,'INTEGER') -> - true; -is_object_id(OID,S,#type{def=Def}) -> - is_object_id(OID,S,Def); -is_object_id(_,_S,_) -> - false. - -to_string(o_id) -> - "OBJECT IDENTIFIER"; -to_string(rel_oid) -> - "RELATIVE-OID". +validate_oid(S, OidType, _V, _Acc) -> + asn1_error(S, {illegal_oid,OidType}). + +get_oid_type(S, OidType, #type{def=Def}) -> + get_oid_type(S, OidType, Def); +get_oid_type(S, OidType, #'Externaltypereference'{}=Id) -> + {_,OI} = get_referenced_type(S, Id), + get_oid_type(S, OidType, OI#typedef.typespec); +get_oid_type(_S, o_id, 'OBJECT IDENTIFIER'=T) -> + T; +get_oid_type(_S, rel_oid, 'RELATIVE-OID'=T) -> + T; +get_oid_type(_S, _, 'INTEGER'=T) -> + T; +get_oid_type(S, OidType, _) -> + asn1_error(S, {illegal_oid,OidType}). %% ITU-T Rec. X.680 Annex B - D reserved_objectid('itu-t',[]) -> 0; @@ -2380,7 +1903,6 @@ reserved_objectid('x',[0,0]) -> 24; reserved_objectid('y',[0,0]) -> 25; reserved_objectid('z',[0,0]) -> 26; - reserved_objectid(iso,[]) -> 1; %% arcs below "iso", note that number 1 is not used reserved_objectid('standard',[1]) -> 0; @@ -2392,25 +1914,22 @@ reserved_objectid('joint-iso-ccitt',[]) -> 2; reserved_objectid(_,_) -> false. -valid_objectid(_OID,[],_Acc) -> - true; -valid_objectid(OID,[H|T],Acc) -> - case valid_objectid(OID, H, Acc) of - true -> - valid_objectid(OID,T,[H|Acc]); - _ -> - false - end; -valid_objectid(o_id,I,[]) when I =:= 0; I =:= 1; I =:= 2 -> true; -valid_objectid(o_id,_I,[]) -> false; -valid_objectid(o_id,I,[0]) when I >= 0; I =< 4 -> true; -valid_objectid(o_id,_I,[0]) -> false; -valid_objectid(o_id,I,[1]) when I =:= 0; I =:= 2; I =:= 3 -> true; -valid_objectid(o_id,_I,[1]) -> false; -valid_objectid(o_id,_I,[2]) -> true; -valid_objectid(_,_,_) -> true. - -convert_external(S=#state{type=Vtype}, Value) -> +validate_oid_path(_, rel_oid, _) -> + ok; +validate_oid_path(_, o_id, [0,I|_]) when 0 =< I, I =< 9 -> + ok; +validate_oid_path(_, o_id, [1,I|_]) when 0 =< I, I =< 3 -> + ok; +validate_oid_path(_, o_id, [2|_]) -> + ok; +validate_oid_path(S, o_id=OidType, _) -> + asn1_error(S, {illegal_oid,OidType}). + +%%% +%%% End of OBJECT IDENTFIER/RELATIVE-OID validation. +%%% + +convert_external(S, Vtype, Value) -> case Vtype of #type{tag=[{tag,'UNIVERSAL',8,'IMPLICIT',32}]} -> %% this is an 'EXTERNAL' (or INSTANCE OF) @@ -2435,7 +1954,7 @@ to_EXTERNAL1990(S, [{#seqtag{val=identification}=T, to_EXTERNAL1990(S, Rest, [{T#seqtag{val='indirect-reference'},PCid}, {T#seqtag{val='direct-reference'},TrStx}]); to_EXTERNAL1990(S, _) -> - error({value,"illegal value in EXTERNAL type",S}). + asn1_error(S, illegal_external_value). to_EXTERNAL1990(S, [V={#seqtag{val='data-value-descriptor'},_}|Rest], Acc) -> to_EXTERNAL1990(S, Rest, [V|Acc]); @@ -2443,7 +1962,7 @@ to_EXTERNAL1990(_S, [{#seqtag{val='data-value'}=T,Val}], Acc) -> Encoding = {T#seqtag{val=encoding},{'CHOICE',{'octet-aligned',Val}}}, lists:reverse([Encoding|Acc]); to_EXTERNAL1990(S, _, _) -> - error({value,"illegal value in EXTERNAL type",S}). + asn1_error(S, illegal_external_value). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% Functions to normalize the default values of SEQUENCE @@ -2453,17 +1972,16 @@ normalize_value(_,_,mandatory,_) -> mandatory; normalize_value(_,_,'OPTIONAL',_) -> 'OPTIONAL'; -normalize_value(S0, Type, {'DEFAULT',Value}, NameList) -> - S = S0#state{value=Value}, +normalize_value(S, Type, {'DEFAULT',Value}, NameList) -> case catch get_canonic_type(S,Type,NameList) of {'BOOLEAN',CType,_} -> normalize_boolean(S,Value,CType); {'INTEGER',CType,_} -> - normalize_integer(S,Value,CType); + normalize_integer(S, Value, CType); {'BIT STRING',CType,_} -> normalize_bitstring(S,Value,CType); - {'OCTET STRING',CType,_} -> - normalize_octetstring(S0, Value, CType); + {'OCTET STRING',_,_} -> + normalize_octetstring(S, Value); {'NULL',_CType,_} -> %%normalize_null(Value); 'NULL'; @@ -2499,39 +2017,41 @@ normalize_value(S0, Type, {'DEFAULT',Value}, NameList) -> normalize_value(S,Type,Val,NameList) -> normalize_value(S,Type,{'DEFAULT',Val},NameList). -normalize_boolean(S,{Name,Bool},CType) when is_atom(Name) -> - normalize_boolean(S,Bool,CType); normalize_boolean(_,true,_) -> true; normalize_boolean(_,false,_) -> false; normalize_boolean(S,Bool=#'Externalvaluereference'{},CType) -> get_normalized_value(S,Bool,CType,fun normalize_boolean/3,[]); -normalize_boolean(_,Other,_) -> - throw({error,{asn1,{'invalid default value',Other}}}). +normalize_boolean(S, _, _) -> + asn1_error(S, {illegal_value, "BOOLEAN"}). -normalize_integer(_S,Int,_) when is_integer(Int) -> +normalize_integer(_S, Int, _) when is_integer(Int) -> Int; -normalize_integer(_S,{Name,Int},_) when is_atom(Name),is_integer(Int) -> - Int; -normalize_integer(S,{Name,Int=#'Externalvaluereference'{}}, - Type) when is_atom(Name) -> - normalize_integer(S,Int,Type); -normalize_integer(S,Int=#'Externalvaluereference'{value=Name},Type) -> - case Type of - NNL when is_list(NNL) -> - case lists:keysearch(Name,1,NNL) of - {value,{Name,Val}} -> +normalize_integer(S, #'Externalvaluereference'{value=Name}=Ref, NNL) -> + case lists:keyfind(Name, 1, NNL) of + {Name,Val} -> + Val; + false -> + try get_referenced_value(S, Ref) of + Val when is_integer(Val) -> Val; - false -> - get_normalized_value(S,Int,Type, - fun normalize_integer/3,[]) - end; + _ -> + asn1_error(S, illegal_integer_value) + catch + throw:_ -> + asn1_error(S, illegal_integer_value) + end + end; +normalize_integer(S, {'ValueFromObject',{object,Obj},FieldNames}, _) -> + case extract_field(S, Obj, FieldNames) of + #valuedef{value=Val} when is_integer(Val) -> + Val; _ -> - get_normalized_value(S,Int,Type,fun normalize_integer/3,[]) + asn1_error(S, illegal_integer_value) end; -normalize_integer(_,Int,_) -> - exit({'Unknown INTEGER value',Int}). +normalize_integer(S, _, _) -> + asn1_error(S, illegal_integer_value). %% normalize_bitstring(S, Value, Type) -> bitstring() %% Convert a literal value for a BIT STRING to an Erlang bit string. @@ -2543,36 +2063,34 @@ normalize_bitstring(S, Value, Type)-> {bstring,String} when is_list(String) -> bstring_to_bitstring(String); #'Externalvaluereference'{} -> - get_normalized_value(S, Value, Type, - fun normalize_bitstring/3, []); - RecList when is_list(RecList) -> - F = fun(#'Externalvaluereference'{value=Name}) -> - case lists:keymember(Name, 1, Type) of - true -> Name; - false -> throw({error,false}) - end; - (Name) when is_atom(Name) -> - %% Already normalized. - Name; - (Other) -> - throw({error,Other}) - end, - try - lists:map(F, RecList) - catch - throw:{error,Reason} -> - asn1ct:warning("default value not " - "compatible with type definition ~p~n", - [Reason],S, - "default value not " - "compatible with type definition"), - Value + Val = get_referenced_value(S, Value), + normalize_bitstring(S, Val, Type); + {'ValueFromObject',{object,Obj},FieldNames} -> + case extract_field(S, Obj, FieldNames) of + #valuedef{value=Val} -> + normalize_bitstring(S, Val, Type); + _ -> + asn1_error(S, {illegal_value, "BIT STRING"}) end; + RecList when is_list(RecList) -> + [normalize_bs_item(S, Item, Type) || Item <- RecList]; Bs when is_bitstring(Bs) -> %% Already normalized. - Bs + Bs; + _ -> + asn1_error(S, {illegal_value, "BIT STRING"}) end. +normalize_bs_item(S, #'Externalvaluereference'{value=Name}, Type) -> + case lists:keymember(Name, 1, Type) of + true -> Name; + false -> asn1_error(S, {illegal_value, "BIT STRING"}) + end; +normalize_bs_item(_, Atom, _) when is_atom(Atom) -> + Atom; +normalize_bs_item(S, _, _) -> + asn1_error(S, {illegal_value, "BIT STRING"}). + hstring_to_binary(L) -> byte_align(hstring_to_bitstring(L)). @@ -2600,29 +2118,35 @@ hex_to_int(D) when $A =< D, D =< $F -> D - ($A - 10). %% {bstring,String} each element in String corresponds to one bit in an octet %% {hstring,String} each element in String corresponds to one byte in an octet %% #'Externalvaluereference' -normalize_octetstring(S,Value,CType) -> +normalize_octetstring(S, Value) -> case Value of {bstring,String} -> bstring_to_binary(String); {hstring,String} -> hstring_to_binary(String); - Rec when is_record(Rec,'Externalvaluereference') -> - get_normalized_value(S,Value,CType, - fun normalize_octetstring/3,[]); - {Name,String} when is_atom(Name) -> - normalize_octetstring(S,String,CType); + #'Externalvaluereference'{} -> + case get_referenced_value(S, Value) of + String when is_binary(String) -> + String; + Other -> + normalize_octetstring(S, Other) + end; + {'ValueFromObject',{object,Obj},FieldNames} -> + case extract_field(S, Obj, FieldNames) of + #valuedef{value=Val} when is_binary(Val) -> + Val; + _ -> + asn1_error(S, illegal_octet_string_value) + end; _ -> - Item = S#state.value, - asn1_error(S, Item, illegal_octet_string_value) + asn1_error(S, illegal_octet_string_value) end. normalize_objectidentifier(S, Value) -> - {ok,Val} = validate_objectidentifier(S, o_id, Value, []), - Val. + validate_objectidentifier(S, o_id, Value). -normalize_relative_oid(S,Value) -> - {ok,Val} = validate_objectidentifier(S, rel_oid, Value, []), - Val. +normalize_relative_oid(S, Value) -> + validate_objectidentifier(S, rel_oid, Value). normalize_objectdescriptor(Value) -> Value. @@ -2644,40 +2168,22 @@ lookup_enum_value(S, Id, NNL) when is_atom(Id) -> {_,_}=Ret -> Ret; false -> - asn1_error(S, S#state.value, {undefined,Id}) + asn1_error(S, {undefined,Id}) end. -normalize_choice(S,{'CHOICE',{C,V}},CType,NameList) when is_atom(C) -> - case catch lists:keysearch(C,#'ComponentType'.name,CType) of - {value,#'ComponentType'{typespec=CT,name=Name}} -> - {C,normalize_value(S,CT,{'DEFAULT',V}, - [Name|NameList])}; - Other -> - asn1ct:warning("Wrong format of type/value ~p/~p~n",[Other,V],S, - "Wrong format of type/value"), - {C,V} +normalize_choice(S, {'CHOICE',{C,V}}, CType, NameList) + when is_atom(C) -> + case lists:keyfind(C, #'ComponentType'.name, CType) of + #'ComponentType'{typespec=CT,name=Name} -> + {C,normalize_value(S, CT, {'DEFAULT',V}, [Name|NameList])}; + false -> + asn1_error(S, {illegal_id,C}) end; -normalize_choice(S,{'DEFAULT',ValueList},CType,NameList) when is_list(ValueList) -> - lists:map(fun(X)-> normalize_choice(S,X,CType,NameList) end, ValueList); -normalize_choice(S,Val=#'Externalvaluereference'{},CType,NameList) -> - {M,#valuedef{value=V}}=get_referenced_type(S,Val), - normalize_choice(update_state(S,M),{'CHOICE',V},CType,NameList); -% get_normalized_value(S,Val,CType,fun normalize_choice/4,[NameList]); -normalize_choice(S,CV={Name,_ChoiceVal},CType,NameList) +normalize_choice(S,CV={Name,_ChoiceVal},CType,NameList) when is_atom(Name) -> -% normalize_choice(S,ChoiceVal,CType,NameList). normalize_choice(S,{'CHOICE',CV},CType,NameList); -normalize_choice(_S,V,_CType,_NameList) -> - exit({error,{bad_choice_value,V}}). - -%% normalize_choice(NameList,S,CVal = {'CHOICE',{_,_}},CType,_) -> -%% normalize_choice(S,CVal,CType,NameList); -%% normalize_choice(NameList,S,CVal={'DEFAULT',VL},CType,_) when is_list(VL)-> -%% normalize_choice(S,CVal,CType,NameList); -%% normalize_choice(NameList,S,CV={Name,_CV},CType,_) when is_atom(Name)-> -%% normalize_choice(S,{'CHOICE',CV},CType,NameList); -%% normalize_choice(_,_S,V,_,_) -> -%% V. +normalize_choice(S, V, _CType, _NameList) -> + asn1_error(S, {illegal_id, error_value(V)}). normalize_sequence(S,Value,Components,NameList) when is_tuple(Components) -> @@ -2732,12 +2238,9 @@ normalized_record(SorS,S,Value,Components,NameList) -> Value; _ -> NoComps = length(Components), - case normalize_seq_or_set(SorS,S,Value,Components,NameList,[]) of - ListOfVals when length(ListOfVals) == NoComps -> - list_to_tuple([NewName|ListOfVals]); - _ -> - error({type,{illegal,default,value,Value},S}) - end + ListOfVals = normalize_seq_or_set(SorS,S,Value,Components,NameList,[]), + NoComps = length(ListOfVals), %% Assert + list_to_tuple([NewName|ListOfVals]) end. is_record_normalized(S,Name,V = #'Externalvaluereference'{},NumComps) -> case get_referenced_type(S,V) of @@ -2750,10 +2253,11 @@ is_record_normalized(_S,Name,Value,NumComps) when is_tuple(Value) -> is_record_normalized(_,_,_,_) -> false. -normalize_seq_or_set(SorS, S, [{#seqtag{val=Cname},V}|Vs], +normalize_seq_or_set(SorS, S, + [{#seqtag{val=Cname},V}|Vs], [#'ComponentType'{name=Cname,typespec=TS}|Cs], NameList, Acc) -> - NewNameList = + NewNameList = case TS#type.def of #'Externaltypereference'{type=TName} -> [TName]; @@ -2761,24 +2265,26 @@ normalize_seq_or_set(SorS, S, [{#seqtag{val=Cname},V}|Vs], end, NVal = normalize_value(S,TS,{'DEFAULT',V},NewNameList), normalize_seq_or_set(SorS,S,Vs,Cs,NameList,[NVal|Acc]); -normalize_seq_or_set(SorS,S,Values=[{_Cname1,_V}|_Vs], +normalize_seq_or_set(SorS, S, + Values=[{#seqtag{val=Cname0},_V}|_Vs], [#'ComponentType'{prop='OPTIONAL'}|Cs], - NameList,Acc) -> + NameList, Acc) -> + verify_valid_component(S, Cname0, Cs), normalize_seq_or_set(SorS,S,Values,Cs,NameList,[asn1_NOVALUE|Acc]); -normalize_seq_or_set(SorS,S,Values=[{_Cname1,_V}|_Vs], - [#'ComponentType'{name=Cname2,typespec=TS, - prop={'DEFAULT',Value}}|Cs], - NameList,Acc) -> - NewNameList = +normalize_seq_or_set(SorS, S, + Values=[{#seqtag{val=Cname0},_V}|_Vs], + [#'ComponentType'{name=Cname,typespec=TS, + prop={'DEFAULT',Value}}|Cs], + NameList, Acc) -> + verify_valid_component(S, Cname0, Cs), + NewNameList = case TS#type.def of #'Externaltypereference'{type=TName} -> [TName]; - _ -> [Cname2|NameList] + _ -> [Cname|NameList] end, NVal = normalize_value(S,TS,{'DEFAULT',Value},NewNameList), normalize_seq_or_set(SorS,S,Values,Cs,NameList,[NVal|Acc]); -normalize_seq_or_set(_SorS,_S,[],[],_,Acc) -> - lists:reverse(Acc); %% If default value is {} ComponentTypes in SEQUENCE are marked DEFAULT %% or OPTIONAL (or the type is defined SEQUENCE{}, which is handled by %% the previous case). @@ -2801,9 +2307,23 @@ normalize_seq_or_set(SorS,S,Value=#'Externalvaluereference'{}, Cs,NameList,Acc) -> get_normalized_value(S,Value,Cs,fun normalize_seq_or_set/6, [SorS,NameList,Acc]); -normalize_seq_or_set(_SorS,S,V,_,_,_) -> - error({type,{illegal,default,value,V},S}). - +normalize_seq_or_set(_SorS, _S, [], [], _, Acc) -> + lists:reverse(Acc); +normalize_seq_or_set(_SorS, S, V, Cs, _, _) -> + case V of + [{#seqtag{val=Name},_}|_] -> + asn1_error(S, {illegal_id,error_value(Name)}); + [] -> + [#'ComponentType'{name=Name}|_] = Cs, + asn1_error(S, {missing_id,error_value(Name)}) + end. + +verify_valid_component(S, Name, Cs) -> + case lists:keyfind(Name, #'ComponentType'.name, Cs) of + false -> asn1_error(S, {illegal_id,error_value(Name)}); + #'ComponentType'{} -> ok + end. + normalize_seqof(S,Value,Type,NameList) -> normalize_s_of('SEQUENCE OF',S,Value,Type,NameList). @@ -2859,10 +2379,7 @@ normalize_restrictedstring(_S,CString,_) when is_list(CString) -> %% definedvalue case or argument in a parameterized type normalize_restrictedstring(S,ERef,CType) when is_record(ERef,'Externalvaluereference') -> get_normalized_value(S,ERef,CType, - fun normalize_restrictedstring/3,[]); -%% -normalize_restrictedstring(S,{Name,Val},CType) when is_atom(Name) -> - normalize_restrictedstring(S,Val,CType). + fun normalize_restrictedstring/3,[]). normalize_objectclassfieldvalue(S,{opentypefieldvalue,Type,Value},NameList) -> %% An open type has per definition no type. Thus should the type @@ -2910,6 +2427,8 @@ call_Func(S,Val,Type,Func,ArgList) -> get_canonic_type(S,Type,NameList) -> {InnerType,NewType,NewNameList} = case Type#type.def of + 'INTEGER'=Name -> + {Name,[],NameList}; Name when is_atom(Name) -> {Name,Type,NameList}; Ref when is_record(Ref,'Externaltypereference') -> @@ -2964,8 +2483,8 @@ check_formal_parameter(_, {_,_}) -> ok; check_formal_parameter(_, #'Externaltypereference'{}) -> ok; -check_formal_parameter(S, #'Externalvaluereference'{value=Name}=Ref) -> - asn1_error(S, Ref, {illegal_typereference,Name}). +check_formal_parameter(S, #'Externalvaluereference'{value=Name}) -> + asn1_error(S, {illegal_typereference,Name}). % check_type(S,Type,ObjSpec={{objectclassname,_},_}) -> % check_class(S,ObjSpec); @@ -2977,7 +2496,7 @@ check_type(_S,Type,Ts) when is_record(Type,typedef), Ts; check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> {Def,Tag,Constr,IsInlined} = - case match_parameters(S,Ts#type.def,S#state.parameters) of + case match_parameter(S, Ts#type.def) of #type{tag=PTag,constraint=_Ctmp,def=Dtmp,inlined=Inl} -> {Dtmp,merge_tags(Ts#type.tag,PTag),Ts#type.constraint,Inl}; #typedef{typespec=#type{tag=PTag,def=Dtmp,inlined=Inl}} -> @@ -2989,16 +2508,16 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> inlined=IsInlined}, TestFun = fun(Tref) -> - MaybeChoice = get_non_typedef(S, Tref), + {_, MaybeChoice} = get_referenced_type(S, Tref, true), case catch((MaybeChoice#typedef.typespec)#type.def) of {'CHOICE',_} -> - maybe_illicit_implicit_tag(choice,Tag); + maybe_illicit_implicit_tag(S, choice, Tag); 'ANY' -> - maybe_illicit_implicit_tag(open_type,Tag); + maybe_illicit_implicit_tag(S, open_type, Tag); 'ANY DEFINED BY' -> - maybe_illicit_implicit_tag(open_type,Tag); + maybe_illicit_implicit_tag(S, open_type, Tag); 'ASN1_OPEN_TYPE' -> - maybe_illicit_implicit_tag(open_type,Tag); + maybe_illicit_implicit_tag(S, open_type, Tag); _ -> Tag end @@ -3007,7 +2526,7 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> case Def of Ext when is_record(Ext,'Externaltypereference') -> {RefMod,RefTypeDef,IsParamDef} = - case get_referenced_type(S,Ext) of + case get_referenced_type(S, Ext) of {undefined,TmpTDef} -> %% A parameter {get(top_module),TmpTDef,true}; {TmpRefMod,TmpRefDef} -> @@ -3031,7 +2550,6 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> NewS = S#state{mname=RefMod, module=load_asn1_module(S,RefMod), tname=get_datastr_name(NewRefTypeDef1), - type=NewRefTypeDef1, abscomppath=[],recordtopname=[]}, RefType1 = check_type(NewS,RefTypeDef,RefTypeDef#typedef.typespec), @@ -3051,18 +2569,17 @@ 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, case asn1ct_gen:prim_bif(asn1ct_gen:get_inner(RefType#type.def)) of true -> %% Here we expand to a built in type and inline it - NewS2 = S#state{type=#typedef{typespec=RefType}}, - NewC = - constraint_merge(NewS2, - check_constraints(NewS2,Constr)++ - RefType#type.constraint), + NewC = check_constraints(S, RefType, Constr ++ + RefType#type.constraint), TempNewDef#newt{ type = RefType#type.def, tag = merge_tags(Ct,RefType#type.tag), @@ -3073,19 +2590,13 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> NewExt = ExtRef#'Externaltypereference'{module=merged_mod(S,RefMod,Ext)}, TempNewDef#newt{ type = check_externaltypereference(S,NewExt), - tag = case S#state.erule of - ber -> - merge_tags(Ct,RefType#type.tag); - _ -> - Ct - end - } + tag = merge_tags(Ct,RefType#type.tag)} end; 'ANY' -> - Ct=maybe_illicit_implicit_tag(open_type,Tag), + Ct = maybe_illicit_implicit_tag(S, open_type, Tag), TempNewDef#newt{type='ASN1_OPEN_TYPE',tag=Ct}; {'ANY_DEFINED_BY',_} -> - Ct=maybe_illicit_implicit_tag(open_type,Tag), + Ct = maybe_illicit_implicit_tag(S, open_type, Tag), TempNewDef#newt{type='ASN1_OPEN_TYPE',tag=Ct}; 'INTEGER' -> TempNewDef#newt{tag= @@ -3132,7 +2643,7 @@ 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=[]}; @@ -3235,7 +2746,7 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> tag= merge_tags(Tag,?TAG_CONSTRUCTED(?N_SEQUENCE))}; {'CHOICE',Components} -> - Ct = maybe_illicit_implicit_tag(choice,Tag), + Ct = maybe_illicit_implicit_tag(S, choice, Tag), TempNewDef#newt{type={'CHOICE',check_choice(S,Type,Components)},tag=Ct}; Set when is_record(Set,'SET') -> RecordName= @@ -3258,12 +2769,6 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> TempNewDef#newt{type={'SET OF',check_setof(S,Type,Components)}, tag= merge_tags(Tag,?TAG_CONSTRUCTED(?N_SET))}; - %% This is a temporary hack until the full Information Obj Spec - %% in X.681 is supported - {#'Externaltypereference'{type='TYPE-IDENTIFIER'}, - [{typefieldreference,_,'Type'}]} -> - Ct=maybe_illicit_implicit_tag(open_type,Tag), - TempNewDef#newt{type='ASN1_OPEN_TYPE',tag=Ct}; {pt,Ptype,ParaList} -> %% Ptype might be a parameterized - type, object set or @@ -3271,18 +2776,18 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> %% calling function. {_RefMod,Ptypedef} = get_referenced_type(S,Ptype), notify_if_not_ptype(S,Ptypedef), - NewParaList = - [match_parameters(S,TmpParam,S#state.parameters)|| - TmpParam <- ParaList], + NewParaList = match_parameters(S, ParaList), Instance = instantiate_ptype(S,Ptypedef,NewParaList), TempNewDef#newt{type=Instance#type.def, tag=merge_tags(Tag,Instance#type.tag), constraint=Instance#type.constraint, inlined=yes}; - OCFT=#'ObjectClassFieldType'{classname=ClRef} -> + #'ObjectClassFieldType'{classname=ClRef0}=OCFT0 -> %% this case occures in a SEQUENCE when %% the type of the component is a ObjectClassFieldType + ClRef = match_parameter(S, ClRef0), + OCFT = OCFT0#'ObjectClassFieldType'{classname=ClRef}, ClassSpec = check_class(S,ClRef), NewTypeDef = maybe_open_type(S,ClassSpec, @@ -3292,16 +2797,18 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> Ct = case is_open_type(NewTypeDef) of true -> - maybe_illicit_implicit_tag(open_type,MergedTag); + maybe_illicit_implicit_tag(S, open_type, MergedTag); _ -> MergedTag end, case TopName of [] when Type#typedef.name =/= undefined -> %% This is a top-level type. - #type{def=Simplified} = - simplify_type(#type{def=NewTypeDef}), - TempNewDef#newt{type=Simplified,tag=Ct}; + #type{constraint=C,def=Simplified} = + simplify_type(#type{def=NewTypeDef, + constraint=Constr}), + TempNewDef#newt{type=Simplified,tag=Ct, + constraint=C}; _ -> TempNewDef#newt{type=NewTypeDef,tag=Ct} end; @@ -3311,33 +2818,21 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> TempNewDef#newt{tag=merge_tags(Tag,CheckedT#type.tag), type=CheckedT#type.def}; - {valueset,Vtype} -> - TempNewDef#newt{type={valueset,check_type(S,Type,Vtype)}}; {'SelectionType',Name,T} -> CheckedT = check_selectiontype(S,Name,T), TempNewDef#newt{tag=merge_tags(Tag,CheckedT#type.tag), type=CheckedT#type.def}; - Other -> - exit({'cant check' ,Other}) + 'ASN1_OPEN_TYPE' -> + TempNewDef end, #newt{type=TDef,tag=NewTags,constraint=NewConstr,inlined=Inlined} = NewDef, Ts#type{def=TDef, inlined=Inlined, - constraint=check_constraints(S, NewConstr), + constraint=check_constraints(S, #type{def=TDef}, NewConstr), tag=lists:map(fun(#tag{type={default,TTx}}=TempTag) -> TempTag#tag{type=TTx}; (Other) -> Other - end, NewTags)}; -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. + end, NewTags)}. %% @@ -3353,10 +2848,11 @@ simplify_comp(#'ComponentType'{typespec=Type0}=C) -> C#'ComponentType'{typespec=Type}; simplify_comp(Other) -> Other. -simplify_type(#type{tag=Tag,def=Inner}=T) -> +simplify_type(#type{tag=Tag,def=Inner,constraint=Constr0}=T) -> case Inner of - #'ObjectClassFieldType'{type={fixedtypevaluefield,_,Type}} -> - Type#type{tag=Tag}; + #'ObjectClassFieldType'{type={fixedtypevaluefield,_,Type}}=OCFT -> + Constr = [{ocft,OCFT}|Type#type.constraint++Constr0], + Type#type{tag=Tag,constraint=Constr}; _ -> T end. @@ -3389,29 +2885,22 @@ get_innertag(_S,#'ObjectClassFieldType'{type=Type}) -> _ -> [] end. -get_type_from_object(S,Object,TypeField) - when is_record(Object,'Externaltypereference'); - is_record(Object,'Externalvaluereference') -> - {_,ObjectDef} = get_referenced_type(S,Object), - ObjSpec = check_object(S,ObjectDef,ObjectDef#typedef.typespec), - get_fieldname_element(S,ObjectDef#typedef{typespec=ObjSpec},TypeField). - %% get_class_def(S, Type) -> #classdef{} | 'none'. get_class_def(S, #typedef{typespec=#type{def=#'Externaltypereference'{}=Eref}}) -> - {_,NextDef} = get_referenced_type(S, Eref), + {_,NextDef} = get_referenced_type(S, Eref, true), get_class_def(S, NextDef); get_class_def(S, #'Externaltypereference'{}=Eref) -> - {_,NextDef} = get_referenced_type(S, Eref), + {_,NextDef} = get_referenced_type(S, Eref, true), get_class_def(S, NextDef); get_class_def(_S, #classdef{}=CD) -> CD; get_class_def(_S, _) -> none. -maybe_illicit_implicit_tag(Kind,Tag) -> +maybe_illicit_implicit_tag(S, Kind, Tag) -> case Tag of [#tag{type='IMPLICIT'}|_T] -> - throw({error,{asn1,{implicit_tag_before,Kind}}}); + asn1_error(S, {implicit_tag_before,Kind}); [ChTag = #tag{type={default,_}}|T] -> case Kind of open_type -> @@ -3438,19 +2927,24 @@ merged_mod(S,RefMod,Ext) -> %% any UNIQUE field, so that a component relation constraint cannot specify %% the type of a typefield, return 'ASN1_OPEN_TYPE'. %% -maybe_open_type(S,ClassSpec=#objectclass{fields=Fs}, - OCFT=#'ObjectClassFieldType'{fieldname=FieldRefList}, +maybe_open_type(_, _, #'ObjectClassFieldType'{fieldname={_,_}}=OCFT, _) -> + %% Already converted. + OCFT; +maybe_open_type(S, #objectclass{fields=Fs}=ClassSpec, + #'ObjectClassFieldType'{fieldname=FieldRefList}=OCFT, Constr) -> - Type = get_ObjectClassFieldType(S,Fs,FieldRefList), - FieldNames=get_referenced_fieldname(FieldRefList), - case last_fieldname(FieldRefList) of + Type = get_OCFType(S, Fs, FieldRefList), + FieldNames = get_referenced_fieldname(FieldRefList), + case lists:last(FieldRefList) of {valuefieldreference,_} -> OCFT#'ObjectClassFieldType'{fieldname=FieldNames, type=Type}; {typefieldreference,_} -> - case {catch get_unique_fieldname(S,#classdef{typespec=ClassSpec}), - asn1ct_gen:get_constraint(Constr,componentrelation)}of - {Tuple,_} when tuple_size(Tuple) =:= 3 -> + %% Note: The constraints have not been checked yet, + %% so we must use a special lookup routine. + case {get_unique_fieldname(S, #classdef{typespec=ClassSpec}), + get_componentrelation(Constr)} of + {no_unique,_} -> OCFT#'ObjectClassFieldType'{fieldname=FieldNames, type='ASN1_OPEN_TYPE'}; {_,no} -> @@ -3462,16 +2956,12 @@ maybe_open_type(S,ClassSpec=#objectclass{fields=Fs}, end end. -last_fieldname(FieldRefList) when is_list(FieldRefList) -> - lists:last(FieldRefList); -last_fieldname({FieldName,_}) when is_atom(FieldName) -> - [A|_] = atom_to_list(FieldName), - case is_lowercase(A) of - true -> - {valuefieldreference,FieldName}; - _ -> - {typefieldreference,FieldName} - end. +get_componentrelation([{element_set,{componentrelation,_,_}=Cr,none}|_]) -> + Cr; +get_componentrelation([_|T]) -> + get_componentrelation(T); +get_componentrelation([]) -> + no. is_open_type(#'ObjectClassFieldType'{type='ASN1_OPEN_TYPE'}) -> true; @@ -3510,35 +3000,19 @@ notify_if_not_ptype(S,#pobjectsetdef{class=Cl}) -> _ -> throw(pobjectsetdef) end; -notify_if_not_ptype(_S,PT) -> - throw({error,{"supposed to be a parameterized type",PT}}). -% fix me +notify_if_not_ptype(S, PT) -> + asn1_error(S, {param_bad_type, error_value(PT)}). + instantiate_ptype(S,Ptypedef,ParaList) -> #ptypedef{args=Args,typespec=Type} = Ptypedef, NewType = check_ptype(S,Ptypedef,Type#type{inlined=yes}), MatchedArgs = match_args(S,Args, ParaList, []), OldArgs = S#state.parameters, - NewS = S#state{type=NewType,parameters=MatchedArgs++OldArgs,abscomppath=[]}, -%% NewS = S#state{type=NewType,parameters=MatchedArgs,abscomppath=[]}, + NewS = S#state{parameters=MatchedArgs++OldArgs,abscomppath=[]}, check_type(NewS, Ptypedef#ptypedef{typespec=NewType}, NewType). -get_datastr_name(#typedef{name=N}) -> - N; -get_datastr_name(#classdef{name=N}) -> - N; -get_datastr_name(#valuedef{name=N}) -> - N; -get_datastr_name(#ptypedef{name=N}) -> - N; -get_datastr_name(#pvaluedef{name=N}) -> - N; -get_datastr_name(#pvaluesetdef{name=N}) -> - N; -get_datastr_name(#pobjectdef{name=N}) -> - N; -get_datastr_name(#pobjectsetdef{name=N}) -> - N. - +get_datastr_name(Type) -> + asn1ct:get_name_of_def(Type). get_pt_args(#ptypedef{args=Args}) -> Args; @@ -3606,8 +3080,8 @@ match_args(S,FA = [FormArg|Ft], AA = [ActArg|At], Acc) -> end; match_args(_S,[], [], Acc) -> lists:reverse(Acc); -match_args(_,_, _, _) -> - throw({error,{asn1,{wrong_number_of_arguments}}}). +match_args(S, _, _, _) -> + asn1_error(S, param_wrong_number_of_arguments). %%%%%%%%%%%%%%%%% %% categorize_arg(S,FormalArg,ActualArg) -> {FormalArg,CatgorizedActualArg} @@ -3652,11 +3126,6 @@ parameter_name_style(#'Externaltypereference'{}) -> parameter_name_style(#'Externalvaluereference'{}) -> beginning_lowercase. -is_lowercase(X) when X >= $A,X =< $W -> - false; -is_lowercase(_) -> - true. - %% categorize(Parameter) -> CategorizedParameter %% If Parameter has an abstract syntax of another category than %% Category, transform it to a known syntax. @@ -3705,725 +3174,503 @@ parse_objectset(Set) -> Set. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -%% check_constraints/2 -%% -check_constraints(S,C) when is_list(C) -> - check_constraints(S, C, []). - -resolv_tuple_or_list(S,List) when is_list(List) -> - lists:map(fun(X)->resolv_value(S,X) end, List); -resolv_tuple_or_list(S,{Lb,Ub}) -> - {resolv_value(S,Lb),resolv_value(S,Ub)}. - -%%%----------------------------------------- -%% If the constraint value is a defined value the valuename -%% is replaced by the actual value %% -resolv_value(S,Val) -> - Id = match_parameters(S,Val, S#state.parameters), - resolv_value1(S,Id). +%% Check and simplify constraints. +%% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -resolv_value1(S, ERef = #'Externalvaluereference'{value=Name}) -> - case catch resolve_namednumber(S, S#state.type, Name) of - V when is_integer(V) -> - V; - _ -> - case get_referenced_type(S,ERef) of - {Err,_Reason} when Err == error; Err == 'EXIT' -> - throw({error,{asn1,{undefined_type_or_value, - Name}}}); - {_M,VDef} -> - resolv_value1(S,VDef) - end - end; -resolv_value1(S, {gt,V}) -> - case resolv_value1(S, V) of - Int when is_integer(Int) -> - Int + 1; - Other -> - throw({error,{asn1,{not_integer_value,Other}}}) - end; -resolv_value1(S, {lt,V}) -> - case resolv_value1(S, V) of - Int when is_integer(Int) -> - Int - 1; - Other -> - throw({error,{asn1,{not_integer_value,Other}}}) - end; -resolv_value1(S,{'ValueFromObject',{object,Object},[{valuefieldreference, - FieldName}]}) -> - %% FieldName can hold either a fixed-type value or a variable-type value - %% Object is a DefinedObject, i.e. a #'Externaltypereference' - resolve_value_from_object(S,Object,FieldName); -resolv_value1(_,#valuedef{checked=true,value=V}) -> - V; -resolv_value1(S,#valuedef{type=_T, - value={'ValueFromObject',{object,Object}, - [{valuefieldreference, - FieldName}]}}) -> - resolve_value_from_object(S,Object,FieldName); -resolv_value1(S,VDef = #valuedef{}) -> - #valuedef{value=Val} = check_value(S,VDef), - Val; -resolv_value1(_,V) -> - V. -resolve_value_from_object(S,Object,FieldName) -> - {_,ObjTDef} = get_referenced_type(S,Object), - TS = check_object(S,ObjTDef,ObjTDef#typedef.typespec), - {_,_,Components} = TS#'Object'.def, - case lists:keysearch(FieldName,1,Components) of - {value,{_,#valuedef{value=Val}}} -> - Val; - _ -> - error({value,"illegal value in constraint",S}) +check_constraints(_S, _HostType, []) -> + []; +check_constraints(S, HostType0, [_|_]=Cs0) -> + HostType = get_real_host_type(HostType0, Cs0), + Cs1 = top_level_intersections(Cs0), + Cs2 = [coalesce_constraints(C) || C <- Cs1], + {_,Cs3} = filter_extensions(Cs2), + Cs = simplify_element_sets(S, HostType, Cs3), + finish_constraints(Cs). + +get_real_host_type(HostType, Cs) -> + case lists:keyfind(ocft, 1, Cs) of + false -> HostType; + {_,OCFT} -> HostType#type{def=OCFT} end. +top_level_intersections([{element_set,{intersection,_,_}=C,none}]) -> + top_level_intersections_1(C); +top_level_intersections(Cs) -> + Cs. + +top_level_intersections_1({intersection,A,B}) -> + [{element_set,A,none}|top_level_intersections_1(B)]; +top_level_intersections_1(Other) -> + [{element_set,Other,none}]. + +coalesce_constraints({element_set, + {Tag,{element_set,A,_}}, + {Tag,{element_set,B,_}}}) -> + %% (SIZE (C1), ..., (SIZE (C2)) => (SIZE (C1, ..., C2)) + {element_set,{Tag,{element_set,A,B}},none}; +coalesce_constraints(Other) -> + Other. + +%% Remove all outermost extensions except the last. + +filter_extensions([H0|T0]) -> + case filter_extensions(T0) of + {true,T} -> + H = remove_extension(H0), + {true,[H|T]}; + {false,T} -> + {any_extension(H0),[H0|T]} + end; +filter_extensions([]) -> + {false,[]}. -resolve_namednumber(S,#typedef{typespec=Type},Name) -> - case Type#type.def of - {'ENUMERATED',NameList} -> - resolve_namednumber_1(S, Name, NameList, Type); - {'INTEGER',NameList} -> - resolve_namednumber_1(S, Name, NameList, Type); +remove_extension({element_set,Root,_}) -> + {element_set,remove_extension(Root),none}; +remove_extension(Tuple) when is_tuple(Tuple) -> + L = [remove_extension(El) || El <- tuple_to_list(Tuple)], + list_to_tuple(L); +remove_extension(Other) -> Other. + +any_extension({element_set,_,Ext}) when Ext =/= none -> + true; +any_extension(Tuple) when is_tuple(Tuple) -> + any_extension_tuple(1, Tuple); +any_extension(_) -> false. + +any_extension_tuple(I, T) when I =< tuple_size(T) -> + any_extension(element(I, T)) orelse any_extension_tuple(I+1, T); +any_extension_tuple(_, _) -> false. + +simplify_element_sets(S, HostType, [{element_set,R0,E0}|T0]) -> + R1 = simplify_element_set(S, HostType, R0), + E1 = simplify_element_set(S, HostType, E0), + case simplify_element_sets(S, HostType, T0) of + [{element_set,R2,E2}] -> + [{element_set,cs_intersection(S, R1, R2), + cs_intersection(S, E1, E2)}]; + L when is_list(L) -> + [{element_set,R1,E1}|L] + end; +simplify_element_sets(S, HostType, [H|T]) -> + [H|simplify_element_sets(S, HostType, T)]; +simplify_element_sets(_, _, []) -> + []. + +simplify_element_set(_S, _HostType, empty) -> + {set,[]}; +simplify_element_set(S, HostType, {'SingleValue',Vs0}) when is_list(Vs0) -> + Vs1 = [resolve_value(S, HostType, V) || V <- Vs0], + Vs = make_constr_set_vs(Vs1), + simplify_element_set(S, HostType, Vs); +simplify_element_set(S, HostType, {'SingleValue',V0}) -> + V1 = resolve_value(S, HostType, V0), + V = {set,[{range,V1,V1}]}, + simplify_element_set(S, HostType, V); +simplify_element_set(S, HostType, {'ValueRange',{Lb0,Ub0}}) -> + Lb = resolve_value(S, HostType, Lb0), + Ub = resolve_value(S, HostType, Ub0), + V = make_constr_set(S, Lb, Ub), + simplify_element_set(S, HostType, V); +simplify_element_set(S, HostType, {'ALL-EXCEPT',Set0}) -> + Set = simplify_element_set(S, HostType, Set0), + {'ALL-EXCEPT',Set}; +simplify_element_set(S, HostType, {intersection,A0,B0}) -> + A = simplify_element_set(S, HostType, A0), + B = simplify_element_set(S, HostType, B0), + cs_intersection(S, A, B); +simplify_element_set(S, HostType, {union,A0,B0}) -> + A = simplify_element_set(S, HostType, A0), + B = simplify_element_set(S, HostType, B0), + cs_union(S, A, B); +simplify_element_set(S, HostType, {simpletable,{element_set,Type,_}}) -> + check_simpletable(S, HostType, Type); +simplify_element_set(S, _, {componentrelation,R,Id}) -> + check_componentrelation(S, R, Id); +simplify_element_set(S, HostType, {Tag,{element_set,_,_}=El0}) -> + [El1] = simplify_element_sets(S, HostType, [El0]), + {Tag,El1}; +simplify_element_set(S, HostType, #type{}=Type) -> + simplify_element_set_type(S, HostType, Type); +simplify_element_set(_, _, C) -> + C. + +simplify_element_set_type(S, HostType, #type{def=Def0}=Type0) -> + #'Externaltypereference'{} = Def0, %Assertion. + case get_referenced_type(S, Def0) of + {_,#valuedef{checked=false,value={valueset,Vs0}}} -> + [Vs1] = simplify_element_sets(S, HostType, [Vs0]), + case Vs1 of + {element_set,Set,none} -> + Set; + {element_set,Set,{set,[]}} -> + Set + end; + {_,{valueset,#type{def=#'Externaltypereference'{}}=Type}} -> + simplify_element_set_type(S, HostType, Type); _ -> - not_enumerated + case HostType of + #type{def=#'ObjectClassFieldType'{}} -> + %% Open type. + #type{def=Def} = check_type(S, HostType, Type0), + Def; + _ -> + #type{constraint=Cs} = check_type(S, HostType, Type0), + C = convert_back(Cs), + simplify_element_set(S, HostType, C) + end end. -resolve_namednumber_1(S, Name, NameList, Type) -> - NamedNumberList = check_enumerated(S, NameList, Type#type.constraint), - {_,N} = lookup_enum_value(S, Name, NamedNumberList), - N. - -check_constraints(S,[{'ContainedSubtype',Type} | Rest], Acc) -> - {RefMod,CTDef} = get_referenced_type(S,Type#type.def), - NewS = S#state{module=load_asn1_module(S,RefMod),mname=RefMod, - type=CTDef,tname=get_datastr_name(CTDef)}, - CType = check_type(NewS,S#state.tname,CTDef#typedef.typespec), - check_constraints(S,Rest,CType#type.constraint ++ Acc); -check_constraints(S,[C | Rest], Acc) -> - check_constraints(S,Rest,[check_constraint(S,C) | Acc]); -check_constraints(S,[],Acc) -> - constraint_merge(S,Acc). - - -range_check(F={FixV,FixV}) -> -% FixV; - F; -range_check(VR={Lb,Ub}) when Lb < Ub -> - VR; -range_check(Err={_,_}) -> - throw({error,{asn1,{illegal_size_constraint,Err}}}); -range_check(Value) -> - Value. - -check_constraint(S,Ext) when is_record(Ext,'Externaltypereference') -> - check_externaltypereference(S,Ext); - - -check_constraint(S,{'SizeConstraint',{Lb,Ub}}) - 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}}; -check_constraint(S,{'SizeConstraint',{Lb,Ub}}) -> - case {resolv_value(S,Lb),resolv_value(S,Ub)} of - {FixV,FixV} -> - {'SizeConstraint',FixV}; - {Low,High} when Low < High -> - {'SizeConstraint',{Low,High}}; - Err -> - throw({error,{asn1,{illegal_size_constraint,Err}}}) - end; -check_constraint(S,{'SizeConstraint',Lb}) -> - {'SizeConstraint',resolv_value(S,Lb)}; +convert_back([H1,H2|T]) -> + {intersection,H1,convert_back([H2|T])}; +convert_back([H]) -> + H; +convert_back([]) -> + none. -check_constraint(S,{'SingleValue', L}) when is_list(L) -> - F = fun(A) -> resolv_value(S,A) end, - {'SingleValue',lists:sort(lists:map(F,L))}; - -check_constraint(S,{'SingleValue', V}) when is_integer(V) -> - Val = resolv_value(S,V), -%% [{'SingleValue',Val},{'ValueRange',{Val,Val}}]; % Why adding value range? - {'SingleValue',Val}; -check_constraint(S,{'SingleValue', V}) -> - {'SingleValue',resolv_value(S,V)}; - -check_constraint(S,{'ValueRange', {Lb, Ub}}) -> - {'ValueRange',{resolv_value(S,Lb),resolv_value(S,Ub)}}; -%% In case of a constraint with extension marks like (1..Ub,...) -check_constraint(S,{VR={'ValueRange', {_Lb, _Ub}},Rest}) -> - {check_constraint(S,VR),Rest}; -check_constraint(_S,{'PermittedAlphabet',PA}) -> - {'PermittedAlphabet',permitted_alphabet_cnstr(PA)}; - -check_constraint(S,{valueset,Type}) -> - {valueset,check_type(S,S#state.tname,Type)}; - -check_constraint(_S,ST={simpletable,Type}) when is_atom(Type) -> - %% An already checked constraint - ST; -check_constraint(S,{simpletable,Type}) -> +check_simpletable(S, HostType, Type) -> + case HostType of + #type{def=#'ObjectClassFieldType'{}} -> + ok; + _ -> + %% Table constraints may only be applied to + %% CLASS.&field constructs. + asn1_error(S, illegal_table_constraint) + end, Def = case Type of #type{def=D} -> D; - {'SingleValue',ObjRef = #'Externalvaluereference'{}} -> - ObjRef + {'SingleValue',#'Externalvaluereference'{}=ObjRef} -> + ObjRef; + _ -> + asn1_error(S, invalid_table_constraint) end, - C = match_parameters(S,Def,S#state.parameters), + C = match_parameter(S, Def), case C of #'Externaltypereference'{} -> - ERef = check_externaltypereference(S,C), - {simpletable,ERef#'Externaltypereference'.type}; - #type{def=#'Externaltypereference'{}=ExtTypeRef} -> - ERef = check_externaltypereference(S, ExtTypeRef), + ERef = check_externaltypereference(S, C), {simpletable,ERef#'Externaltypereference'.type}; - {valueset,#type{def=ERef=#'Externaltypereference'{}}} -> % this is an object set - {_,TDef} = get_referenced_type(S,ERef), - case TDef#typedef.typespec of - #'ObjectSet'{} -> - check_object(S,TDef,TDef#typedef.typespec), - {simpletable,ERef#'Externaltypereference'.type}; - Err -> - exit({error,{internal_error,Err}}) - end; #'Externalvaluereference'{} -> %% This is an object set with a referenced object - {_,TorVDef} = get_referenced_type(S,C), - GetObjectSet = - fun(#typedef{typespec=O}) when is_record(O,'Object') -> - #'ObjectSet'{class=O#'Object'.classname, - set={'SingleValue',C}}; - (#valuedef{type=Cl,value=O}) - when is_record(O,'Externalvaluereference'), - is_record(Cl,type) -> - %% an object might reference another object - #'ObjectSet'{class=Cl#type.def, - set={'SingleValue',O}}; - (Err) -> - exit({error,{internal_error,simpletable_constraint,Err}}) - end, - ObjSet = GetObjectSet(TorVDef), - {simpletable,check_object(S,Type,ObjSet)}; - #'ObjectSet'{} -> - io:format("ALERT: simpletable forbidden case!~n",[]), - {simpletable,check_object(S,Type,C)}; - {'ValueFromObject',{_,ORef},FieldName} -> - %% This is an ObjectFromObject - {_,Object} = get_referenced_type(S,ORef), - ChObject = check_object(S,Object, - Object#typedef.typespec), - ObjFromObj= - get_fieldname_element(S,Object#typedef{ - typespec=ChObject}, - FieldName), - {simpletable,ObjFromObj}; -%% ObjFromObj#typedef{checked=true,typespec= -%% check_object(S,ObjFromObj, -%% ObjFromObj#typedef.typespec)}}; - _ -> - check_type(S,S#state.tname,Type),%% this seems stupid. - OSName = Def#'Externaltypereference'.type, - {simpletable,OSName} - end; + {_,TorVDef} = get_referenced_type(S, C), + Set = case TorVDef of + #typedef{typespec=#'Object'{classname=ClassName}} -> + #'ObjectSet'{class=ClassName, + set={'SingleValue',C}}; + #valuedef{type=#type{def=ClassDef}, + value=#'Externalvaluereference'{}=Obj} -> + %% an object might reference another object + #'ObjectSet'{class=ClassDef, + set={'SingleValue',Obj}} + end, + {simpletable,check_object(S, Type, Set)}; + {'ValueFromObject',{_,Object},FieldNames} -> + %% This is an ObjectFromObject. + {simpletable,extract_field(S, Object, FieldNames)} + end. -check_constraint(S,{componentrelation,{objectset,Opos,Objset},Id}) -> +check_componentrelation(S, {objectset,Opos,Objset0}, Id) -> %% Objset is an 'Externaltypereference' record, since Objset is %% a DefinedObjectSet. - RealObjset = match_parameters(S,Objset,S#state.parameters), - ObjSetRef = - case RealObjset of - #'Externaltypereference'{} -> RealObjset; - #type{def=#'Externaltypereference'{}} -> RealObjset#type.def; - {valueset,OS = #type{def=#'Externaltypereference'{}}} -> OS#type.def - end, - Ext = check_externaltypereference(S,ObjSetRef), - {componentrelation,{objectset,Opos,Ext},Id}; + ObjSet = match_parameter(S, Objset0), + Ext = check_externaltypereference(S, ObjSet), + {componentrelation,{objectset,Opos,Ext},Id}. + +%%% +%%% Internal set representation. +%%% +%%% We represent sets as a union of strictly disjoint ranges: +%%% +%%% {set,[Range]} +%%% +%%% A range is represented as: +%%% +%%% Range = {a_range,UpperBound} | {range,LowerBound,UpperBound} +%%% +%%% We don't use the atom 'MIN' to represent MIN, because atoms +%%% compare higher than integer. Instead we use {a_range,UpperBound} +%%% to represent MIN..UpperBound. We represent MAX as 'MAX' because +%%% 'MAX' compares higher than any integer. +%%% +%%% The ranges are sorted in term order. The ranges must not overlap +%%% or be adjacent to each other. This invariant is established when +%%% creating sets, and maintained by the intersection and union +%%% operators. +%%% +%%% Example of invalid set representaions: +%%% +%%% [{range,0,10},{range,5,10}] %Overlapping ranges +%%% [{range,0,5},{range,6,10}] %Adjancent ranges +%%% [{range,10,20},{a_range,100}] %Not sorted +%%% + +make_constr_set(_, 'MIN', Ub) -> + {set,[{a_range,make_constr_set_val(Ub)}]}; +make_constr_set(_, Lb, Ub) when Lb =< Ub -> + {set,[{range,make_constr_set_val(Lb), + make_constr_set_val(Ub)}]}; +make_constr_set(S, _, _) -> + asn1_error(S, reversed_range). + +make_constr_set_val([C]) when is_integer(C) -> C; +make_constr_set_val(Val) -> Val. + +make_constr_set_vs(Vs) -> + {set,make_constr_set_vs_1(Vs)}. + +make_constr_set_vs_1([]) -> + []; +make_constr_set_vs_1([V]) -> + [{range,V,V}]; +make_constr_set_vs_1([V0|Vs]) -> + V1 = make_constr_set_vs_1(Vs), + range_union([{range,V0,V0}], V1). + +%%% +%%% Set operators. +%%% + +cs_intersection(_S, Other, none) -> + Other; +cs_intersection(_S, none, Other) -> + Other; +cs_intersection(_S, {set,SetA}, {set,SetB}) -> + {set,range_intersection(SetA, SetB)}; +cs_intersection(_S, A, B) -> + {intersection,A,B}. + +range_intersection([], []) -> + []; +range_intersection([_|_], []) -> + []; +range_intersection([], [_|_]) -> + []; +range_intersection([H1|_]=A, [H2|_]=B) when H1 > H2 -> + range_intersection(B, A); +range_intersection([H1|T1], [H2|T2]=B) -> + %% Now H1 =< H2. + case {H1,H2} of + {{a_range,Ub0},{a_range,Ub1}} when Ub0 < Ub1 -> + %% Ub0 =/= 'MAX' + [H1|range_intersection(T1, [{range,Ub0+1,Ub1}|T2])]; + {{a_range,_},{a_range,_}} -> + %% Must be equal. + [H1|range_intersection(T1, T2)]; + {{a_range,Ub0},{range,Lb1,_Ub1}} when Ub0 < Lb1 -> + %% No intersection. + range_intersection(T1, B); + {{a_range,Ub0},{range,Lb1,Ub1}} when Ub0 < Ub1 -> + %% Ub0 =/= 'MAX' + [{range,Lb1,Ub0}|range_intersection(T1, [{range,Ub0+1,Ub1}|T2])]; + {{a_range,Ub},{range,_Lb1,Ub}} -> + %% The first range covers the second range, but does not + %% go beyond. We handle this case specially because Ub may + %% be 'MAX', and evaluating 'MAX'+1 will fail. + [H2|range_intersection(T1, T2)]; + {{a_range,Ub0},{range,_Lb1,Ub1}} -> + %% Ub0 > Ub1, Ub1 =/= 'MAX'. The first range completely + %% covers and extends beyond the second range. + [H2|range_intersection([{range,Ub1+1,Ub0}|T1], T2)]; + {{range,_Lb0,Ub0},{range,Lb1,_Ub1}} when Ub0 < Lb1 -> + %% Lb0 < Lb1. No intersection. + range_intersection(T1, B); + {{range,_Lb0,Ub0},{range,Lb1,Ub1}} when Ub0 < Ub1 -> + %% Ub0 >= Lb1, Ub0 =/= 'MAX'. Partial overlap. + [{range,Lb1,Ub0}|range_intersection(T1, [{range,Ub0+1,Ub1}|T2])]; + {{range,_Lb0,Ub},{range,_Lb1,Ub}} -> + %% The first range covers the second range, but does not + %% go beyond. We handle this case specially because Ub may + %% be 'MAX', and evaluating 'MAX'+1 will fail. + [H2|range_intersection(T1, T2)]; + {{range,_Lb0,Ub0},{range,_Lb1,Ub1}} -> + %% Ub1 =/= MAX. The first range completely covers and + %% extends beyond the second. + [H2|range_intersection([{range,Ub1+1,Ub0}|T1], T2)] + end. -check_constraint(S,Type) when is_record(Type,type) -> - #type{def=Def} = check_type(S,S#state.tname,Type), - Def; +cs_union(_S, {set,SetA}, {set,SetB}) -> + {set,range_union(SetA, SetB)}; +cs_union(_S, A, B) -> + {union,A,B}. + +range_union(A, B) -> + range_union_1(lists:merge(A, B)). + +range_union_1([{a_range,Ub0},{a_range,Ub1}|T]) -> + range_union_1([{a_range,max(Ub0, Ub1)}|T]); +range_union_1([{a_range,Ub0},{range,Lb1,Ub1}|T]) when Lb1-1 =< Ub0 -> + range_union_1([{a_range,max(Ub0, Ub1)}|T]); +range_union_1([{a_range,_}=H|T]) -> + %% Ranges are disjoint. + [H|range_union_1(T)]; +range_union_1([{range,Lb0,Ub0},{range,Lb1,Ub1}|T]) when Lb1-1 =< Ub0 -> + range_union_1([{range,Lb0,max(Ub0, Ub1)}|T]); +range_union_1([{range,_,_}=H|T]) -> + %% Ranges are disjoint. + [H|range_union_1(T)]; +range_union_1([]) -> + []. -check_constraint(S,C) when is_list(C) -> - lists:map(fun(X)->check_constraint(S,X) end,C); -% else keep the constraint unchanged -check_constraint(_S,Any) -> -% io:format("Constraint = ~p~n",[Any]), - Any. - -permitted_alphabet_cnstr(T) when is_tuple(T) -> - permitted_alphabet_cnstr([T]); -permitted_alphabet_cnstr(L) when is_list(L) -> - VRexpand = fun({'ValueRange',{A,B}}) -> - {'SingleValue',expand_valuerange(A,B)}; - (Other) -> - Other - end, - L2 = lists:map(VRexpand,L), - %% first perform intersection - L3 = permitted_alphabet_intersection(L2), - [Res] = permitted_alphabet_union(L3), - Res. +%%% +%%% Finish up constrains, making them suitable for the back-ends. +%%% +%%% A 'PermittedAlphabet' (FROM) constraint will be reduced to: +%%% +%%% {'SingleValue',[integer()]} +%%% +%%% A 'SizeConstraint' (SIZE) constraint will be reduced to: +%%% +%%% {Lb,Ub} +%%% +%%% All other constraints will be reduced to: +%%% +%%% {'SingleValue',[integer()]} | {'ValueRange',Lb,Ub} +%%% + +finish_constraints(Cs) -> + finish_constraints_1(Cs, fun smart_collapse/1). + +finish_constraints_1([{element_set,{Tag,{element_set,_,_}=Set0},none}|T], + Collapse0) -> + Collapse = collapse_fun(Tag), + case finish_constraints_1([Set0], Collapse) of + [] -> + finish_constraints_1(T, Collapse0); + [Set] -> + [{Tag,Set}|finish_constraints_1(T, Collapse0)] + end; +finish_constraints_1([{element_set,{set,[{a_range,'MAX'}]},_}|T], Collapse) -> + finish_constraints_1(T, Collapse); +finish_constraints_1([{element_set,{intersection,A0,B0},none}|T], Collapse) -> + A = {element_set,A0,none}, + B = {element_set,B0,none}, + finish_constraints_1([A,B|T], Collapse); +finish_constraints_1([{element_set,Root,Ext}|T], Collapse) -> + case finish_constraint(Root, Ext, Collapse) of + none -> + finish_constraints_1(T, Collapse); + Constr -> + [Constr|finish_constraints_1(T, Collapse)] + end; +finish_constraints_1([H|T], Collapse) -> + [H|finish_constraints_1(T, Collapse)]; +finish_constraints_1([], _) -> + []. -expand_valuerange([A],[A]) -> - [A]; -expand_valuerange([A],[B]) when A < B -> - [A|expand_valuerange([A+1],[B])]. +finish_constraint({set,Root0}, Ext, Collapse) -> + case Collapse(Root0) of + none -> none; + Root -> finish_constraint(Root, Ext, Collapse) + end; +finish_constraint(Root, Ext, _Collapse) -> + case Ext of + none -> Root; + _ -> {Root,[]} + end. -permitted_alphabet_intersection(C) -> - permitted_alphabet_merge(C,intersection, []). +collapse_fun('SizeConstraint') -> + fun size_constraint_collapse/1; +collapse_fun('PermittedAlphabet') -> + fun single_value_collapse/1. -permitted_alphabet_union(C) -> - permitted_alphabet_merge(C,union, []). +single_value_collapse(V) -> + {'SingleValue',ordsets:from_list(single_value_collapse_1(V))}. -permitted_alphabet_merge([],_,Acc) -> - lists:reverse(Acc); -permitted_alphabet_merge([{'SingleValue',L1}, - UorI, - {'SingleValue',L2}|Rest],UorI,Acc) - when is_list(L1),is_list(L2) -> - UI = ordsets:UorI([ordsets:from_list(L1),ordsets:from_list(L2)]), - permitted_alphabet_merge([{'SingleValue',UI}|Rest],UorI,Acc); -permitted_alphabet_merge([C1|Rest],UorI,Acc) -> - permitted_alphabet_merge(Rest,UorI,[C1|Acc]). - - -%% constraint_merge/2 -%% Compute the intersection of the outermost level of the constraint list. -%% See Dubuisson second paragraph and fotnote on page 285. -%% If constraints with extension are included in combined constraints. The -%% resulting combination will have the extension of the last constraint. Thus, -%% 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(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([{'SizeConstraint',C0}|Cs]) -> - case normalize_size_constraint(C0) of - none -> - normalize_cs(Cs); - C -> - [{'SizeConstraint',C}|normalize_cs(Cs)] - end; -normalize_cs([H|T]) -> - [H|normalize_cs(T)]; -normalize_cs([]) -> []. +single_value_collapse_1([{range,Lb,Ub}|T]) when is_integer(Lb), + is_integer(Ub) -> + lists:seq(Lb, Ub) ++ single_value_collapse_1(T); +single_value_collapse_1([]) -> + []. -%% Normalize a size constraint to make it non-ambiguous and -%% easy to interpret for the backends. -%% -%% Returns one of the following terms: -%% {LowerBound,UpperBound} -%% {{LowerBound,UpperBound},[]} % Extensible -%% none % Remove size constraint from list -%% -%% where: -%% LowerBound = integer() -%% UpperBound = integer() | 'MAX' - -normalize_size_constraint(Sv) when is_integer(Sv) -> - {Sv,Sv}; -normalize_size_constraint({Root,Ext}) when is_list(Ext) -> - {normalize_size_constraint(Root),[]}; -normalize_size_constraint({{_,_},Ext}) when is_integer(Ext) -> - normalize_size_constraint(Ext); -normalize_size_constraint([H|T]) -> - {H,lists:last(T)}; -normalize_size_constraint({0,'MAX'}) -> +smart_collapse([{a_range,Ub}]) -> + {'ValueRange',{'MIN',Ub}}; +smart_collapse([{a_range,_}|T]) -> + {range,_,Ub} = lists:last(T), + {'ValueRange',{'MIN',Ub}}; +smart_collapse([{range,Lb,Ub}]) -> + {'ValueRange',{Lb,Ub}}; +smart_collapse([_|_]=L) -> + V = lists:foldr(fun({range,Lb,Ub}, A) -> + seq(Lb, Ub) ++ A + end, [], L), + {'SingleValue',V}. + +size_constraint_collapse([{range,0,'MAX'}]) -> none; -normalize_size_constraint({Lb,Ub}=Range) - when is_integer(Lb), is_integer(Ub) orelse Ub =:= 'MAX' -> - Range. +size_constraint_collapse(Root) -> + [{range,Lb,_}|_] = Root, + {range,_,Ub} = lists:last(Root), + {Lb,Ub}. -is_range(Prev, [H|T]) when Prev =:= H - 1 -> is_range(H, T); -is_range(_, [_|_]) -> false; -is_range(_, []) -> true. +seq(Same, Same) -> + [Same]; +seq(Lb, Ub) when is_integer(Lb), is_integer(Ub) -> + lists:seq(Lb, Ub). -constraint_merge_1(_S, [H]=C) when is_tuple(H) -> - C; -constraint_merge_1(_S, []) -> - []; -constraint_merge_1(S, C) -> - %% skip all extension but the last extension - C1 = filter_extensions(C), - %% perform all internal level intersections, intersections first - %% since they have precedence over unions - C2 = lists:map(fun(X)when is_list(X)->constraint_intersection(S,X); - (X) -> X end, - C1), - %% perform all internal level unions - C3 = lists:map(fun(X)when is_list(X)->constraint_union(S,X); - (X) -> X end, - C2), - - %% now get intersection of the outermost level - %% get the least common single value constraint - SVs = get_constraints(C3,'SingleValue'), - CombSV = intersection_of_sv(S,SVs), - %% get the least common value range constraint - VRs = get_constraints(C3,'ValueRange'), - CombVR = intersection_of_vr(S,VRs), - %% get the least common size constraint - SZs = get_constraints(C3,'SizeConstraint'), - CombSZ = intersection_of_size(S,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 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 -%% constraints is found with an atom union between. -%% The list may be nested. Fix that later !!! -constraint_union(_S,[]) -> - []; -constraint_union(_S,C=[_E]) -> - C; -constraint_union(S,C) when is_list(C) -> - case lists:member(union,C) of - true -> - constraint_union1(S,C,[]); - _ -> - C - end; -% SV = get_constraints(C,'SingleValue'), -% SV1 = constraint_union_sv(S,SV), -% VR = get_constraints(C,'ValueRange'), -% VR1 = constraint_union_vr(VR), -% RestC = ordsets:filter(fun({'SingleValue',_})->false; -% ({'ValueRange',_})->false; -% (_) -> true end,ordsets:from_list(C)), -% SV1++VR1++RestC; -constraint_union(_S,C) -> - [C]. - -constraint_union1(S, [{'ValueRange',{Lb1,Ub1}},union, - {'ValueRange',{Lb2,Ub2}}|Rest], Acc) -> - AunionB = {'ValueRange',{c_min(Lb1, Lb2),max(Ub1, Ub2)}}, - 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, AunionB++Rest, Acc); -constraint_union1(S,[A={'ValueRange',_},union,B={'SingleValue',_}|Rest],Acc) -> - AunionB = union_sv_vr(S,B,A), - 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) -> - constraint_union1(S,Rest,[A|Acc]); -constraint_union1(_S,[],Acc) -> - Acc. +%%%----------------------------------------- +%% If the constraint value is a defined value the valuename +%% is replaced by the actual value +%% +resolve_value(S, HostType, Val) -> + Id = match_parameter(S, Val), + resolve_value1(S, HostType, Id). -constraint_union_sv(_S,SV) -> - Values=lists:map(fun({_,V})->V end,SV), - case ordsets:from_list(Values) of - [] -> []; - [N] -> [{'SingleValue',N}]; - L -> [{'SingleValue',L}] - end. -c_min('MIN', _) -> 'MIN'; -c_min(_, 'MIN') -> 'MIN'; -c_min(A, B) -> min(A, B). - -union_sv_vr(_S,{'SingleValue',SV},VR) - when is_integer(SV) -> - union_sv_vr(_S,{'SingleValue',[SV]},VR); -union_sv_vr(_S,{'SingleValue',SV},{'ValueRange',{VLb,VUb}}) - when is_list(SV) -> - L = lists:sort(SV++[VLb,VUb]), - {Lb,L1} = case lists:member('MIN',L) of - true -> {'MIN',L--['MIN']}; % remove 'MIN' so it does not disturb - false -> {hd(L),tl(L)} - end, - Ub = case lists:member('MAX',L1) of - true -> 'MAX'; - false -> lists:last(L1) - end, - case SV of - [H] -> H; - _ -> SV - end, - %% for now we through away the Singlevalues so that they don't disturb - %% in the code generating phase (the effective Valuerange is already - %% calculated. If we want to keep the Singlevalues as well for - %% use in code gen phases we need to introduce a new representation - %% like {'ValueRange',{Lb,Ub},[ListOfRanges|AntiValues|Singlevalues] - %% These could be used to generate guards which allows only the specific - %% values , not the full range - [{'ValueRange',{Lb,Ub}}]. - - -%% get_constraints/2 -%% Arguments are a list of constraints, which has the format {key,value}, -%% and a constraint type -%% Returns a list of constraints only of the requested type or the atom -%% 'no' if no such constraints were found -get_constraints(L=[{CType,_}],CType) -> - L; -get_constraints(C,CType) -> - keysearch_allwithkey(CType,1,C). - -%% keysearch_allwithkey(Key,Ix,L) -%% Types: -%% Key = is_atom() -%% Ix = integer() -%% L = [TwoTuple] -%% TwoTuple = [{atom(),term()}|...] -%% Returns a List that contains all -%% elements from L that has a key Key as element Ix -keysearch_allwithkey(Key,Ix,L) -> - lists:filter(fun(X) when is_tuple(X) -> - case element(Ix,X) of - Key -> true; - _ -> false - end; - (_) -> false - end, L). - - -%% filter_extensions(C) -%% takes a list of constraints as input and returns a list with the -%% constraints and all extensions but the last are removed. -filter_extensions([L]) when is_list(L) -> - [filter_extensions(L)]; -filter_extensions(C=[_H]) -> - C; -filter_extensions(C) when is_list(C) -> - filter_extensions(C,[], []). - -filter_extensions([],Acc,[]) -> - Acc; -filter_extensions([],Acc,[EC|ExtAcc]) -> - CwoExt = remove_extension(ExtAcc,[]), - CwoExt ++ [EC|Acc]; -filter_extensions([C={A,_E}|T],Acc,ExtAcc) when is_tuple(A) -> - filter_extensions(T,Acc,[C|ExtAcc]); -filter_extensions([C={'SizeConstraint',{A,_B}}|T],Acc,ExtAcc) - when is_list(A);is_tuple(A) -> - filter_extensions(T,Acc,[C|ExtAcc]); -filter_extensions([C={'PermittedAlphabet',{{'SingleValue',_},E}}|T],Acc,ExtAcc) - when is_tuple(E); is_list(E) -> - filter_extensions(T,Acc,[C|ExtAcc]); -filter_extensions([H|T],Acc,ExtAcc) -> - filter_extensions(T,[H|Acc],ExtAcc). - -remove_extension([],Acc) -> - Acc; -remove_extension([{'SizeConstraint',{A,_B}}|R],Acc) -> - remove_extension(R,[{'SizeConstraint',A}|Acc]); -remove_extension([{C,_E}|R],Acc) when is_tuple(C) -> - remove_extension(R,[C|Acc]); -remove_extension([{'PermittedAlphabet',{A={'SingleValue',_}, - E}}|R],Acc) - when is_tuple(E);is_list(E) -> - remove_extension(R,[{'PermittedAlphabet',A}|Acc]). - -%% constraint_intersection(S,C) takes a list of constraints as input and -%% performs intersections. Intersecions are performed when an -%% atom intersection is found between two constraints. -%% The list may be nested. Fix that later !!! -constraint_intersection(_S,[]) -> - []; -constraint_intersection(_S,C=[_E]) -> - C; -constraint_intersection(S,C) when is_list(C) -> -% io:format("constraint_intersection: ~p~n",[C]), - case lists:member(intersection,C) of - true -> - constraint_intersection1(S,C,[]); - _ -> - C +resolve_value1(S, HostType, #'Externalvaluereference'{value=Name}=ERef) -> + case resolve_namednumber(S, HostType, Name) of + V when is_integer(V) -> + V; + not_named -> + resolve_value1(S, HostType, get_referenced_value(S, ERef)) end; -constraint_intersection(_S,C) -> - [C]. - -constraint_intersection1(S,[A,intersection,B|Rest],Acc) -> - AisecB = c_intersect(S,A,B), - 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). - -c_intersect(S,C1={'SingleValue',_},C2={'SingleValue',_}) -> - intersection_of_sv(S,[C1,C2]); -c_intersect(S,C1={'ValueRange',_},C2={'ValueRange',_}) -> - intersection_of_vr(S,[C1,C2]); -c_intersect(S,C1={'ValueRange',_},C2={'SingleValue',_}) -> - intersection_sv_vr(S,[C2],[C1]); -c_intersect(S,C1={'SingleValue',_},C2={'ValueRange',_}) -> - intersection_sv_vr(S,[C1],[C2]); -c_intersect(_S,C1,C2) -> - [C1,C2]. - -%% combine_constraints(S,SV,VR,CComb) -%% Types: -%% S = is_record(state,S) -%% SV = [] | [SVC] -%% VR = [] | [VRC] -%% CComb = [] | [Lists] -%% SVC = {'SingleValue',integer()} | {'SingleValue',[integer(),...]} -%% VRC = {'ValueRange',{Lb,Ub}} -%% Lists = List of lists containing any constraint combination -%% Lb = 'MIN' | integer() -%% Ub = 'MAX' | integer() -%% Returns a combination of the least common constraint among SV,VR and all -%% elements in CComb -combine_constraints(_S,[],VR,CComb) -> - VR ++ CComb; -% combine_combined_cnstr(S,VR,CComb); -combine_constraints(_S,SV,[],CComb) -> - SV ++ CComb; -% combine_combined_cnstr(S,SV,CComb); -combine_constraints(S,SV,VR,CComb) -> - C=intersection_sv_vr(S,SV,VR), - C ++ CComb. -% combine_combined_cnstr(S,C,CComb). - -intersection_sv_vr(_S,[C1={'SingleValue',SV}],[C2={'ValueRange',{_Lb,_Ub}}]) - when is_integer(SV) -> - case is_int_in_vr(SV,C2) of - true -> [C1]; - _ -> %%error({type,{"asn1 illegal constraint",C1,C2},S}) - %throw({error,{"asn1 illegal constraint",C1,C2}}) - %io:format("warning: could not analyze constraint ~p~n",[[C1,C2]]), - [C1,C2] +resolve_value1(S, HostType, {gt,V}) -> + case resolve_value1(S, HostType, V) of + Int when is_integer(Int) -> + Int + 1; + _Other -> + asn1_error(S, illegal_integer_value) end; -intersection_sv_vr(_S,[C1={'SingleValue',SV}],[C2]) - when is_list(SV) -> - case lists:filter(fun(X)->is_int_in_vr(X,C2) end,SV) of - [] -> - %%error({type,{"asn1 illegal constraint",C1,C2},S}); - %throw({error,{"asn1 illegal constraint",C1,C2}}); - %io:format("warning: could not analyze constraint ~p~n",[[C1,C2]]), - [C1,C2]; - [V] -> [{'SingleValue',V}]; - L -> [{'SingleValue',L}] - end. - - -%% Size constraint [{'SizeConstraint',1},{'SizeConstraint',{{1,64},[]}}] - -intersection_of_size(_,[]) -> - []; -intersection_of_size(_,C=[_SZ]) -> - C; -intersection_of_size(S,[SZ,SZ|Rest]) -> - intersection_of_size(S,[SZ|Rest]); -intersection_of_size(S,C=[C1={_,Int},{_,Range}|Rest]) - when is_integer(Int),is_tuple(Range) -> - case Range of - {Lb,Ub} when Int >= Lb, - Int =< Ub -> - intersection_of_size(S,[C1|Rest]); - {{Lb,Ub},Ext} when is_list(Ext),Int >= Lb,Int =< Ub -> - intersection_of_size(S,[C1|Rest]); - _ -> - throw({error,{asn1,{illegal_size_constraint,C}}}) +resolve_value1(S, HostType, {lt,V}) -> + case resolve_value1(S, HostType, V) of + Int when is_integer(Int) -> + Int - 1; + _Other -> + asn1_error(S, illegal_integer_value) end; -intersection_of_size(S,[C1={_,Range},C2={_,Int}|Rest]) - when is_integer(Int),is_tuple(Range) -> - intersection_of_size(S,[C2,C1|Rest]); -intersection_of_size(S,[{_,{Lb1,Ub1}},{_,{Lb2,Ub2}}|Rest]) -> - Lb=greatest_LB(ordsets:from_list([Lb1,Lb2])), - Ub=smallest_UB(ordsets:from_list([Ub1,Ub2])), - intersection_of_size(S,[{'SizeConstraint',{Lb,Ub}}|Rest]); -intersection_of_size(_,SZ) -> - throw({error,{asn1,{illegal_size_constraint,SZ}}}). - -intersection_of_vr(_,[]) -> - []; -intersection_of_vr(_,VR=[_C]) -> - VR; -intersection_of_vr(S,[{_,{Lb1,Ub1}},{_,{Lb2,Ub2}}|Rest]) -> - Lb=greatest_LB(ordsets:from_list([Lb1,Lb2])), - Ub=smallest_UB(ordsets:from_list([Ub1,Ub2])), - intersection_of_vr(S,[{'ValueRange',{Lb,Ub}}|Rest]); -intersection_of_vr(_S,VR) -> - %%error({type,{asn1,{illegal_value_range_constraint,VR}},S}); - throw({error,{asn1,{illegal_value_range_constraint,VR}}}). - -intersection_of_sv(_,[]) -> - []; -intersection_of_sv(_,SV=[_C]) -> - SV; -intersection_of_sv(S,[SV,SV|Rest]) -> - intersection_of_sv(S,[SV|Rest]); -intersection_of_sv(S,[{_,Int},{_,SV}|Rest]) when is_integer(Int), - is_list(SV) -> - SV2=intersection_of_sv1(S,Int,SV), - intersection_of_sv(S,[SV2|Rest]); -intersection_of_sv(S,[{_,SV},{_,Int}|Rest]) when is_integer(Int), - is_list(SV) -> - SV2=intersection_of_sv1(S,Int,SV), - intersection_of_sv(S,[SV2|Rest]); -intersection_of_sv(S,[{_,SV1},{_,SV2}|Rest]) when is_list(SV1), - is_list(SV2) -> - SV3=common_set(SV1,SV2), - intersection_of_sv(S,[SV3|Rest]); -intersection_of_sv(_S,SV) -> - %%error({type,{asn1,{illegal_single_value_constraint,SV}},S}). - throw({error,{asn1,{illegal_single_value_constraint,SV}}}). - -intersection_of_sv1(_S,Int,SV) when is_integer(Int),is_list(SV) -> - case lists:member(Int,SV) of - true -> {'SingleValue',Int}; +resolve_value1(S, _HostType, {'ValueFromObject',{object,Object},FieldName}) -> + get_value_from_object(S, Object, FieldName); +resolve_value1(_, _, #valuedef{checked=true,value=V}) -> + V; +resolve_value1(S, _, #valuedef{value={'ValueFromObject', + {object,Object},FieldName}}) -> + get_value_from_object(S, Object, FieldName); +resolve_value1(S, _HostType, #valuedef{}=VDef) -> + #valuedef{value=Val} = check_value(S,VDef), + Val; +resolve_value1(_, _, V) -> + V. + +resolve_namednumber(S, #type{def=Def}, Name) -> + case Def of + {'ENUMERATED',NameList} -> + resolve_namednumber_1(S, Name, NameList); + {'INTEGER',NameList} -> + resolve_namednumber_1(S, Name, NameList); _ -> - %%error({type,{asn1,{illegal_single_value_constraint,Int,SV}},S}) - throw({error,{asn1,{illegal_single_value_constraint,Int,SV}}}) - end; -intersection_of_sv1(_S,SV1,SV2) -> - %%error({type,{asn1,{illegal_single_value_constraint,SV1,SV2}},S}). - throw({error,{asn1,{illegal_single_value_constraint,SV1,SV2}}}). + not_named + end. -greatest_LB([H]) -> - H; -greatest_LB(L) -> - greatest_LB1(lists:reverse(L)). -greatest_LB1(['MIN',H2|_T])-> - H2; -greatest_LB1([H|_T]) -> - H. -smallest_UB(L) -> - hd(L). - -common_set(SV1,SV2) -> - lists:filter(fun(X)->lists:member(X,SV1) end,SV2). - -is_int_in_vr(Int,{_,{'MIN','MAX'}}) when is_integer(Int) -> - true; -is_int_in_vr(Int,{_,{'MIN',Ub}}) when is_integer(Int),Int =< Ub -> - true; -is_int_in_vr(Int,{_,{Lb,'MAX'}}) when is_integer(Int),Int >= Lb -> - true; -is_int_in_vr(Int,{_,{Lb,Ub}}) when is_integer(Int),Int >= Lb,Int =< Ub -> - true; -is_int_in_vr(_,_) -> - false. - +resolve_namednumber_1(S, Name, NameList) -> + try + NamedNumberList = check_enumerated(S, NameList), + {_,N} = lookup_enum_value(S, Name, NamedNumberList), + N + catch _:_ -> + not_named + end. + +%%% +%%% End of constraint handling. +%%% check_imported(S,Imodule,Name) -> check_imported(S,Imodule,Name,false). @@ -4510,18 +3757,28 @@ check_reference(S,#'Externaltypereference'{pos=Pos,module=Emod,type=Name}) -> #'Externaltypereference'{pos=Pos,module=ModName,type=Name} end. +get_referenced_value(S, T) -> + case get_referenced_type(S, T) of + {ExtMod,#valuedef{value=#'Externalvaluereference'{}=Ref}} -> + get_referenced_value(update_state(S, ExtMod), Ref); + {_,#valuedef{value=Val}} -> + Val + end. + get_referenced_type(S, T) -> + get_referenced_type(S, T, false). + +get_referenced_type(S, T, Recurse) -> case do_get_referenced_type(S, T) of - {_,#type{def=#'Externaltypereference'{}=ERef}} -> - get_referenced_type(S, ERef); - {_,#type{def=#'Externalvaluereference'{}=VRef}} -> - get_referenced_type(S, VRef); + {_,#typedef{typespec=#type{def=#'Externaltypereference'{}=ERef}}} + when Recurse -> + get_referenced_type(S, ERef, Recurse); {_,_}=Res -> Res end. -do_get_referenced_type(#state{parameters=Ps}=S, T0) -> - case match_parameters(S, T0, Ps) of +do_get_referenced_type(S, T0) -> + case match_parameter(S, T0) of T0 -> do_get_ref_type_1(S, T0); T -> @@ -4563,7 +3820,7 @@ get_referenced(S,Emod,Ename,Pos) -> %% May be an imported entity in module Emod or Emod may not exist case asn1_db:dbget(Emod,'MODULE') of undefined -> - throw({error,{asn1,{module_not_found,Emod}}}); + asn1_error(S, {undefined_import, Ename, Emod}); _ -> NewS = update_state(S,Emod), get_imported(NewS,Ename,Emod,Pos) @@ -4593,12 +3850,11 @@ get_imported(S,Name,Module,Pos) -> parse_and_save(S,Imodule), case asn1_db:dbget(Imodule,'MODULE') of undefined -> - throw({error,{asn1,{module_not_found,Imodule}}}); + asn1_error(S, {undefined_import, Name, Module}); Im when is_record(Im,module) -> case is_exported(Im,Name) of false -> - throw({error, - {asn1,{not_exported,{Im,Name}}}}); + asn1_error(S, {undefined_export, Name}); _ -> ?dbg("get_imported, is_exported ~p, ~p~n",[Imodule,Name]), get_referenced_type(S, @@ -4611,37 +3867,6 @@ 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}, @@ -4708,18 +3933,14 @@ update_state(S,ModuleName) -> S; _ -> parse_and_save(S,ModuleName), - case asn1_db:dbget(ModuleName,'MODULE') of - RefedMod when is_record(RefedMod,module) -> - S#state{mname=ModuleName,module=RefedMod}; - _ -> throw({error,{asn1,{module_does_not_exist,ModuleName}}}) - end + Mod = #module{} = asn1_db:dbget(ModuleName,'MODULE'), + S#state{mname=ModuleName,module=Mod} end. - get_renamed_reference(S,Name,Module) -> case renamed_reference(S,Name,Module) of undefined -> - throw({error,{asn1,{undefined_type,Name}}}); + asn1_error(S, {undefined, Name}); NewTypeName when NewTypeName =/= Name -> get_referenced1(S,Module,NewTypeName,undefined) end. @@ -4770,37 +3991,49 @@ get_importmoduleoftype([I|Is],Name) -> get_importmoduleoftype([],_) -> undefined. +match_parameters(S, Names) -> + [match_parameter(S, Name) || Name <- Names]. -match_parameters(_S,Name,[]) -> - Name; +match_parameter(#state{parameters=Ps}=S, Name) -> + match_parameter(S, Name, Ps). -match_parameters(_S,#'Externaltypereference'{type=Name},[{#'Externaltypereference'{type=Name},NewName}|_T]) -> +match_parameter(_S, Name, []) -> + Name; +match_parameter(S, {valueset,{element_set,#type{}=Ts,none}}, Ps) -> + match_parameter(S, {valueset,Ts}, Ps); +match_parameter(_S, #'Externaltypereference'{type=Name}, + [{#'Externaltypereference'{type=Name},NewName}|_T]) -> NewName; -match_parameters(_S,#'Externaltypereference'{type=Name},[{{_,#'Externaltypereference'{type=Name}},NewName}|_T]) -> +match_parameter(_S, #'Externaltypereference'{type=Name}, + [{{_,#'Externaltypereference'{type=Name}},NewName}|_T]) -> NewName; -match_parameters(_S,#'Externalvaluereference'{value=Name},[{#'Externalvaluereference'{value=Name},NewName}|_T]) -> +match_parameter(_S, #'Externalvaluereference'{value=Name}, + [{#'Externalvaluereference'{value=Name},NewName}|_T]) -> NewName; -match_parameters(_S,#'Externalvaluereference'{value=Name},[{{_,#'Externalvaluereference'{value=Name}},NewName}|_T]) -> +match_parameter(_S, #'Externalvaluereference'{value=Name}, + [{{_,#'Externalvaluereference'{value=Name}},NewName}|_T]) -> NewName; -match_parameters(_S,#type{def=#'Externaltypereference'{module=M,type=Name}}, - [{#'Externaltypereference'{module=M,type=Name},Type}]) -> +match_parameter(_S, #type{def=#'Externaltypereference'{module=M,type=Name}}, + [{#'Externaltypereference'{module=M,type=Name},Type}]) -> Type; -match_parameters(_S,{valueset,#type{def=#'Externaltypereference'{type=Name}}}, - [{{_,#'Externaltypereference'{type=Name}},{valueset,#type{def=NewName}}}|_T]) -> +match_parameter(_S, {valueset,#type{def=#'Externaltypereference'{type=Name}}}, + [{{_,#'Externaltypereference'{type=Name}}, + {valueset,#type{def=NewName}}}|_T]) -> NewName; -match_parameters(_S,{valueset,#type{def=#'Externaltypereference'{type=Name}}}, - [{{_,#'Externaltypereference'{type=Name}}, - NewName=#type{def=#'Externaltypereference'{}}}|_T]) -> +match_parameter(_S, {valueset,#type{def=#'Externaltypereference'{type=Name}}}, + [{{_,#'Externaltypereference'{type=Name}}, + NewName=#type{def=#'Externaltypereference'{}}}|_T]) -> NewName#type.def; -match_parameters(_S,{valueset,#type{def=#'Externaltypereference'{type=Name}}}, - [{{_,#'Externaltypereference'{type=Name}},NewName}|_T]) -> +match_parameter(_S, {valueset,#type{def=#'Externaltypereference'{type=Name}}}, + [{{_,#'Externaltypereference'{type=Name}},NewName}|_T]) -> NewName; %% When a parameter is a parameterized element it has to be %% instantiated now! -match_parameters(S,{valueset,T=#type{def={pt,_,_Args}}},_Parameters) -> - case catch check_type(S,#typedef{name=S#state.tname,typespec=T},T) of - pobjectsetdef -> - +match_parameter(S, {valueset,T=#type{def={pt,_,_Args}}}, _Ps) -> + try check_type(S,#typedef{name=S#state.tname,typespec=T},T) of + #type{def=Ts} -> + Ts + catch pobjectsetdef -> {_,ObjRef,_Params} = T#type.def, {_,ObjDef}=get_referenced_type(S,ObjRef), %%ObjDef is a pvaluesetdef where the type field holds the class @@ -4818,17 +4051,15 @@ match_parameters(S,{valueset,T=#type{def={pt,_,_Args}}},_Parameters) -> ObjectSet = #'ObjectSet'{class=RightClassRef,set=T}, ObjSpec = check_object(S,#typedef{typespec=ObjectSet},ObjectSet), Name = list_to_atom(asn1ct_gen:list2name([get_datastr_name(ObjDef)|S#state.recordtopname])), - save_object_set_instance(S,Name,ObjSpec); - pvaluesetdef -> error({pvaluesetdef,"parameterized valueset",S}); - {error,_Reason} -> error({type,"error in parameter",S}); - Ts when is_record(Ts,type) -> Ts#type.def + save_object_set_instance(S,Name,ObjSpec) end; + %% same as previous, only depends on order of parsing -match_parameters(S,{valueset,{pos,{objectset,_,POSref},Args}},Parameters) -> - match_parameters(S,{valueset,#type{def={pt,POSref,Args}}},Parameters); -match_parameters(S,Name, [_H|T]) -> - %%io:format("match_parameters(~p,~p)~n",[Name,[H|T]]), - match_parameters(S,Name,T). +match_parameter(S, {valueset,{pos,{objectset,_,POSref},Args}}, Ps) -> + match_parameter(S, {valueset,#type{def={pt,POSref,Args}}}, Ps); +match_parameter(S, Name, [_H|T]) -> + %%io:format("match_parameter(~p,~p)~n",[Name,[H|T]]), + match_parameter(S, Name, T). imported(S,Name) -> {imports,Ilist} = (S#state.module)#module.imports, @@ -4854,7 +4085,6 @@ check_named_number_list(_S, [{_,_}|_]=NNL) -> NNL; check_named_number_list(S, NNL0) -> %% Check that the names are unique. - T = S#state.type, case check_unique(NNL0, 2) of [] -> NNL1 = [{Id,resolve_valueref(S, Val)} || {'NamedNumber',Id,Val} <- NNL0], @@ -4863,14 +4093,14 @@ check_named_number_list(S, NNL0) -> [] -> NNL; [Val|_] -> - asn1_error(S, T, {value_reused,Val}) + asn1_error(S, {value_reused,Val}) end; [H|_] -> - asn1_error(S, T, {namelist_redefinition,H}) + asn1_error(S, {namelist_redefinition,H}) end. -resolve_valueref(S, #'Externalvaluereference'{module=Mod,value=Name}) -> - dbget_ex(S, Mod, Name); +resolve_valueref(S, #'Externalvaluereference'{} = T) -> + get_referenced_value(S, T); resolve_valueref(_, Val) when is_integer(Val) -> Val. @@ -4879,7 +4109,7 @@ check_integer(S, NNL) -> check_bitstring(S, NNL0) -> NNL = check_named_number_list(S, NNL0), - _ = [asn1_error(S, S#state.type, {invalid_bit_number,Bit}) || + _ = [asn1_error(S, {invalid_bit_number,Bit}) || {_,Bit} <- NNL, Bit < 0], NNL. @@ -4904,7 +4134,7 @@ check_type_identifier(S, Eref=#'Externaltypereference'{type=Class}) -> {_,TD=#typedef{typespec=#type{def=#'Externaltypereference'{}}}} -> check_type_identifier(S, (TD#typedef.typespec)#type.def); _ -> - asn1_error(S, S#state.type, {illegal_instance_of,Class}) + asn1_error(S, {illegal_instance_of,Class}) end. iof_associated_type(S,[]) -> @@ -4913,12 +4143,7 @@ iof_associated_type(S,[]) -> case get(instance_of) of undefined -> AssociateSeq = iof_associated_type1(S,[]), - Tag = - case S#state.erule of - ber -> - [?TAG_CONSTRUCTED(?N_INSTANCE_OF)]; - _ -> [] - end, + Tag = [?TAG_CONSTRUCTED(?N_INSTANCE_OF)], TypeDef=#typedef{checked=true, name='INSTANCE OF', typespec=#type{tag=Tag, @@ -4944,16 +4169,11 @@ iof_associated_type1(S,C) -> [] -> 'ASN1_OPEN_TYPE'; _ -> {typefield,'Type'} end, - {ObjIdTag,C1TypeTag}= - case S#state.erule of - ber -> - {[{'UNIVERSAL',8}], - [#tag{class='UNIVERSAL', - number=6, - type='IMPLICIT', - form=0}]}; - _ -> {[{'UNIVERSAL','INTEGER'}],[]} - end, + ObjIdTag = [{'UNIVERSAL',8}], + C1TypeTag = [#tag{class='UNIVERSAL', + number=6, + type='IMPLICIT', + form=0}], TypeIdentifierRef=#'Externaltypereference'{module=ModuleName, type='TYPE-IDENTIFIER'}, ObjectIdentifier = @@ -4992,9 +4212,13 @@ iof_associated_type1(S,C) -> %% returns the leading attribute, the constraint of the components and %% the tablecinf value for the second component. -instance_of_constraints(_,[]) -> +instance_of_constraints(_, []) -> {false,[],[],[]}; -instance_of_constraints(S, [{simpletable,Type}]) -> +instance_of_constraints(S, [{element_set,{simpletable,C},none}]) -> + {element_set,Type,none} = C, + instance_of_constraints_1(S, Type). + +instance_of_constraints_1(S, Type) -> #type{def=#'Externaltypereference'{type=Name}} = Type, ModuleName = S#state.mname, ObjectSetRef=#'Externaltypereference'{module=ModuleName, @@ -5014,93 +4238,100 @@ instance_of_constraints(S, [{simpletable,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. @@ -5145,7 +4376,7 @@ check_sequence(S,Type,Comps) -> CompListTuple = complist_as_tuple(NewComps4), {CRelInf,CompListTuple}; Dupl -> - throw({error,{asn1,{duplicate_components,Dupl}}}) + asn1_error(S, {duplicate_identifier, error_value(hd(Dupl))}) end. complist_as_tuple(CompList) -> @@ -5155,8 +4386,6 @@ complist_as_tuple([#'EXTENSIONMARK'{}|T], Acc, Ext, Acc2, root) -> complist_as_tuple(T, Acc, Ext, Acc2, ext); complist_as_tuple([#'EXTENSIONMARK'{}|T], Acc, Ext, Acc2, ext) -> complist_as_tuple(T, Acc, Ext, Acc2, root2); -complist_as_tuple([#'EXTENSIONMARK'{}|_T], _Acc, _Ext, _Acc2, root2) -> - throw({error,{asn1,{too_many_extension_marks}}}); complist_as_tuple([C|T], Acc, Ext, Acc2, root) -> complist_as_tuple(T, [C|Acc], Ext, Acc2, root); complist_as_tuple([C|T], Acc, Ext, Acc2, ext) -> @@ -5199,11 +4428,11 @@ 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) -> - throw({error,{asn1,{illegal_COMPONENTS_OF,Err}}}). +expand_components2(S,{_, What}) -> + asn1_error(S, {illegal_COMPONENTS_OF, error_value(What)}). take_only_rootset([])-> []; @@ -5252,7 +4481,7 @@ check_sequenceof(S,Type,Component) when is_record(Component,type) -> check_set(S,Type,Components) -> {TableCInf,NewComponents} = check_sequence(S,Type,Components), - check_distinct_tags(NewComponents,[]), + check_unique_tags(S, collect_components(NewComponents), []), case {lists:member(der,S#state.options),S#state.erule} of {true,_} -> {Sorted,SortedComponents} = sort_components(der,S,NewComponents), @@ -5264,35 +4493,21 @@ check_set(S,Type,Components) -> {false,TableCInf,NewComponents} end. - -%% check that all tags are distinct according to X.680 26.3 -check_distinct_tags({C1,C2,C3},Acc) when is_list(C1),is_list(C2),is_list(C3) -> - check_distinct_tags(C1++C2++C3,Acc); -check_distinct_tags({C1,C2},Acc) when is_list(C1),is_list(C2) -> - check_distinct_tags(C1++C2,Acc); -check_distinct_tags([#'ComponentType'{tags=[T]}|Cs],Acc) -> - check_distinct(T,Acc), - check_distinct_tags(Cs,[T|Acc]); -check_distinct_tags([C=#'ComponentType'{tags=[T|Ts]}|Cs],Acc) -> - check_distinct(T,Acc), - check_distinct_tags([C#'ComponentType'{tags=Ts}|Cs],[T|Acc]); -check_distinct_tags([#'ComponentType'{tags=[]}|_Cs],_Acc) -> - throw({error,"Not distinct tags in SET"}); -check_distinct_tags([],_) -> - ok. -check_distinct(T,Acc) -> - case lists:member(T,Acc) of - true -> - throw({error,"Not distinct tags in SET"}); - _ -> ok - end. +collect_components({C1,C2,C3}) -> + collect_components(C1++C2++C3); +collect_components({C1,C2}) -> + collect_components(C1++C2); +collect_components(Cs) -> + %% Assert that tags are not empty + [] = [EmptyTag || EmptyTag = #'ComponentType'{tags=[]} <- Cs], + Cs. %% sorting in canonical order according to X.680 8.6, X.691 9.2 %% DER: all components shall be sorted in canonical order. %% PER: only root components shall be sorted in canonical order. The %% extension components shall remain in textual order. %% -sort_components(der,S=#state{tname=TypeName},Components) -> +sort_components(der, S, Components) -> {R1,Ext,R2} = extension(textual_order(Components)), CompsList = case Ext of noext -> R1; @@ -5300,88 +4515,34 @@ sort_components(der,S=#state{tname=TypeName},Components) -> end, case {untagged_choice(S,CompsList),Ext} of {false,noext} -> - {true,sort_components1(S,TypeName,CompsList,[],[],[],[])}; + {true,sort_components1(CompsList)}; {false,_} -> - {true,{sort_components1(S,TypeName,CompsList,[],[],[],[]), []}}; + {true,{sort_components1(CompsList),[]}}; {true,noext} -> %% sort in run-time {dynamic,R1}; _ -> {dynamic,{R1, Ext, R2}} end; -sort_components(per,S=#state{tname=TypeName},Components) -> +sort_components(per, S, Components) -> {R1,Ext,R2} = extension(textual_order(Components)), Root = tag_untagged_choice(S,R1++R2), case Ext of noext -> - {true,sort_components1(S,TypeName,Root,[],[],[],[])}; + {true,sort_components1(Root)}; _ -> - {true,{sort_components1(S,TypeName,Root,[],[],[],[]), - Ext}} + {true,{sort_components1(Root),Ext}} end. -sort_components1(S,TypeName,[C=#'ComponentType'{tags=[{'UNIVERSAL',_}|_R]}|Cs], - UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - sort_components1(S,TypeName,Cs,[C|UnivAcc],ApplAcc,ContAcc,PrivAcc); -sort_components1(S,TypeName,[C=#'ComponentType'{tags=[{'APPLICATION',_}|_R]}|Cs], - UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - sort_components1(S,TypeName,Cs,UnivAcc,[C|ApplAcc],ContAcc,PrivAcc); -sort_components1(S,TypeName,[C=#'ComponentType'{tags=[{'CONTEXT',_}|_R]}|Cs], - UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - sort_components1(S,TypeName,Cs,UnivAcc,ApplAcc,[C|ContAcc],PrivAcc); -sort_components1(S,TypeName,[C=#'ComponentType'{tags=[{'PRIVATE',_}|_R]}|Cs], - UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - sort_components1(S,TypeName,Cs,UnivAcc,ApplAcc,ContAcc,[C|PrivAcc]); -sort_components1(S,TypeName,[],UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - I = #'ComponentType'.tags, - ascending_order_check(S,TypeName,sort_universal_type(UnivAcc)) ++ - ascending_order_check(S,TypeName,lists:keysort(I,ApplAcc)) ++ - ascending_order_check(S,TypeName,lists:keysort(I,ContAcc)) ++ - ascending_order_check(S,TypeName,lists:keysort(I,PrivAcc)). - -ascending_order_check(S,TypeName,Components) -> - ascending_order_check1(S,TypeName,Components), - Components. - -ascending_order_check1(S,TypeName, - [C1 = #'ComponentType'{tags=[{_,T}|_]}, - C2 = #'ComponentType'{tags=[{_,T}|_]}|Rest]) -> - asn1ct:warning("Indistinct tag ~p in SET ~p, components ~p and ~p~n", - [T,TypeName,C1#'ComponentType'.name,C2#'ComponentType'.name],S, - "Indistinct tag in SET"), - ascending_order_check1(S,TypeName,[C2|Rest]); -ascending_order_check1(S,TypeName, - [C1 = #'ComponentType'{tags=[{'UNIVERSAL',T1}|_]}, - C2 = #'ComponentType'{tags=[{'UNIVERSAL',T2}|_]}|Rest]) -> - case (decode_type(T1) == decode_type(T2)) of - true -> - asn1ct:warning("Indistinct tags ~p and ~p in" - " SET ~p, components ~p and ~p~n", - [T1,T2,TypeName,C1#'ComponentType'.name, - C2#'ComponentType'.name],S, - "Indistinct tags and in SET"), - ascending_order_check1(S,TypeName,[C2|Rest]); - _ -> - ascending_order_check1(S,TypeName,[C2|Rest]) - end; -ascending_order_check1(S,N,[_|Rest]) -> - ascending_order_check1(S,N,Rest); -ascending_order_check1(_,_,[]) -> - ok. - -sort_universal_type(Components) -> - List = lists:map(fun(C) -> - #'ComponentType'{tags=[{_,T}|_]} = C, - {decode_type(T),C} - end, - Components), - SortedList = lists:keysort(1,List), - lists:map(fun(X)->element(2,X) end,SortedList). - -decode_type(I) when is_integer(I) -> - I; -decode_type(T) -> - asn1ct_gen_ber_bin_v2:decode_type(T). +sort_components1(Cs0) -> + Cs1 = [{tag_key(Tag),C} || #'ComponentType'{tags=[Tag|_]}=C <- Cs0], + Cs = lists:sort(Cs1), + [C || {_,C} <- Cs]. + +tag_key({'UNIVERSAL',Tag}) -> {0,Tag}; +tag_key({'APPLICATION',Tag}) -> {1,Tag}; +tag_key({'CONTEXT',Tag}) -> {2,Tag}; +tag_key({'PRIVATE',Tag}) -> {3,Tag}. untagged_choice(_S,[#'ComponentType'{typespec=#type{tag=[],def={'CHOICE',_}}}|_Rest]) -> true; @@ -5477,35 +4638,43 @@ check_selectiontype(S,Name,#type{def=Eref}) {RefMod,TypeDef} = get_referenced_type(S,Eref), NewS = S#state{module=load_asn1_module(S,RefMod), mname=RefMod, - type=TypeDef, tname=get_datastr_name(TypeDef)}, check_selectiontype2(NewS,Name,TypeDef); check_selectiontype(S,Name,Type=#type{def={pt,_,_}}) -> - TName = - case S#state.recordtopname of - [] -> - S#state.tname; - N -> N - end, + TName = case S#state.recordtopname of + [] -> S#state.tname; + N -> N + end, TDef = #typedef{name=TName,typespec=Type}, check_selectiontype2(S,Name,TDef); -check_selectiontype(S,Name,Type) -> - Msg = lists:flatten(io_lib:format("SelectionType error: ~w < ~w must be a reference to a CHOICE.",[Name,Type])), - error({type,Msg,S}). +check_selectiontype(S, _Name, Type) -> + asn1_error(S, {illegal_choice_type, error_value(Type)}). check_selectiontype2(S,Name,TypeDef) -> NewS = S#state{recordtopname=get_datastr_name(TypeDef)}, - CheckedType = check_type(NewS,TypeDef,TypeDef#typedef.typespec), - Components = get_choice_components(S,CheckedType#type.def), - case lists:keysearch(Name,#'ComponentType'.name,Components) of - {value,C} -> - %% The selected type will have the tag of the selected type. - _T = C#'ComponentType'.typespec; -% T#type{tag=def_to_tag(NewS,T#type.def)}; - _ -> - Msg = lists:flatten(io_lib:format("error checking SelectionType: ~w~n",[Name])), - error({type,Msg,S}) + Components = + try + CheckedType = check_type(NewS,TypeDef,TypeDef#typedef.typespec), + get_choice_components(S,CheckedType#type.def) + catch error:_ -> + asn1_error(S, {illegal_choice_type, error_value(TypeDef)}) + end, + case lists:keyfind(Name, #'ComponentType'.name, Components) of + #'ComponentType'{typespec=TS} -> TS; + false -> asn1_error(S, {illegal_id, error_value(Name)}) end. + + +get_choice_components(_S,{'CHOICE',Components}) when is_list(Components)-> + Components; +get_choice_components(_S,{'CHOICE',{C1,C2}}) when is_list(C1),is_list(C2) -> + C1++C2; +get_choice_components(S,ERef=#'Externaltypereference'{}) -> + {_RefMod,TypeDef}=get_referenced_type(S,ERef), + #typedef{typespec=TS} = TypeDef, + get_choice_components(S,TS#type.def). + + check_restrictedstring(_S,_Def,_Constr) -> ok. @@ -5538,7 +4707,7 @@ check_choice(S,Type,Components) when is_list(Components) -> check_unique_tags(S, NewComps3), complist_as_tuple(NewComps3); Dupl -> - throw({error,{asn1,{duplicate_choice_alternatives,Dupl}}}) + asn1_error(S, {duplicate_identifier,error_value(hd(Dupl))}) end; check_choice(_S,_,[]) -> []. @@ -5635,25 +4804,30 @@ check_unique_tags(S,C) -> case (S#state.module)#module.tagdefault of 'AUTOMATIC' -> case any_manual_tag(C) of - false -> true; - _ -> collect_and_sort_tags(C,[]) + false -> + true; + true -> + check_unique_tags(S, C, []) end; _ -> - collect_and_sort_tags(C,[]) + check_unique_tags(S, C, []) end. -collect_and_sort_tags([C|Rest],Acc) when is_record(C,'ComponentType') -> - collect_and_sort_tags(Rest,C#'ComponentType'.tags ++ Acc); -collect_and_sort_tags([_|Rest],Acc) -> - collect_and_sort_tags(Rest,Acc); -collect_and_sort_tags([],Acc) -> - {Dupl,_}= lists:mapfoldl(fun(El,El)->{{dup,El},El};(El,_Prev)-> {El,El} end,notag,lists:sort(Acc)), - Dupl2 = [Dup|| {dup,Dup} <- Dupl], - if - length(Dupl2) > 0 -> - throw({error,{asn1,{duplicates_of_the_tags,Dupl2}}}); - true -> - true +check_unique_tags(S, [#'ComponentType'{name=Name,tags=Tags0}|T], Acc) -> + Tags = [{Tag,Name} || Tag <- Tags0], + check_unique_tags(S, T, Tags ++ Acc); +check_unique_tags(S, [_|T], Acc) -> + check_unique_tags(S, T, Acc); +check_unique_tags(S, [], Acc) -> + R0 = sofs:relation(Acc), + R1 = sofs:relation_to_family(R0), + R2 = sofs:to_external(R1), + Dup = [Els || {_,[_,_|_]=Els} <- R2], + case Dup of + [] -> + ok; + [FirstDupl|_] -> + asn1_error(S, {duplicate_tags,FirstDupl}) end. check_unique(L,Pos) -> @@ -5795,28 +4969,18 @@ componentrelation_leadingattr(S,[C= #'ComponentType'{}|Cs],CompList,Acc,CompAcc) {[],C}; [{ObjSet,Attr,N,ClassDef,_Path,ValueIndex}|_NewRest] -> OS = object_set_mod_name(S,ObjSet), - UniqueFieldName = - case (catch get_unique_fieldname(S,#classdef{typespec=ClassDef})) of - {error,'__undefined_',_} -> - no_unique; - {asn1,Msg,_} -> - error({type,Msg,S}); - {'EXIT',Msg} -> - error({type,{internal_error,Msg},S}); - {Other,_} -> Other - end, -% UsedFieldName = get_used_fieldname(S,Attr,STList), + UniqFN = get_unique_fieldname(S, + #classdef{typespec=ClassDef}), %% Res should be done differently: even though %% a unique field name exists it is not %% certain that the ObjectClassFieldType of %% the simple table constraint picks that %% class field. Res = #simpletableattributes{objectsetname=OS, -%% c_name=asn1ct_gen:un_hyphen_var(Attr), c_name=Attr, c_index=N, - usedclassfield=UniqueFieldName, - uniqueclassfield=UniqueFieldName, + usedclassfield=UniqFN, + uniqueclassfield=UniqFN, valueindex=ValueIndex}, {[Res],C#'ComponentType'{typespec=NewTSpec}} end; @@ -5869,7 +5033,7 @@ remove_doubles1(El,L) -> NewL -> remove_doubles1(El,NewL) end. -%% get_simple_table_info searches the commponents Cs by the path from +%% get_simple_table_info searches the components Cs by the path from %% an at-list (third argument), and follows into a component of it if %% necessary, to get information needed for code generating. %% @@ -5884,32 +5048,35 @@ remove_doubles1(El,L) -> % %% at least one step below the outermost level, i.e. the leading % %% information shall be on a sub level. 2) They don't have any common % %% path. -get_simple_table_info(S,Cs,[AtList|Rest]) -> - [get_simple_table_info1(S,Cs,AtList,[])|get_simple_table_info(S,Cs,Rest)]; -get_simple_table_info(_,_,[]) -> - []. -get_simple_table_info1(S,Cs,[Cname|Cnames],Path) when is_list(Cs) -> - case lists:keysearch(Cname,#'ComponentType'.name,Cs) of - {value,C} -> - get_simple_table_info1(S,C,Cnames,[Cname|Path]); - _ -> - error({type,"Missing expected simple table constraint",S}) - end; -get_simple_table_info1(S,#'ComponentType'{typespec=TS},[],Path) -> - %% In this component there must be a simple table constraint - %% o.w. the asn1 code is wrong. - #type{def=OCFT,constraint=Cnstr} = TS, - case constraint_member(simpletable,Cnstr) of - {true,{simpletable,_OSRef}} -> - simple_table_info(S,OCFT,Path); - _ -> - error({type,{"missing expected simple table constraint", - Cnstr},S}) +get_simple_table_info(S, Cs, AtLists) -> + [get_simple_table_info1(S, Cs, AtList, []) || AtList <- AtLists]. + +get_simple_table_info1(S, Cs, [Cname|Cnames], Path) -> + #'ComponentType'{} = C = + lists:keyfind(Cname, #'ComponentType'.name, Cs), + get_simple_table_info2(S, C, Cnames, [Cname|Path]). + +get_simple_table_info2(S, #'ComponentType'{name=Name,typespec=TS}, [], Path) -> + OCFT = simple_table_get_ocft(S, Name, TS), + case lists:keymember(simpletable, 1, TS#type.constraint) of + true -> + simple_table_info(S, OCFT, Path); + false -> + asn1_error(S, {missing_table_constraint,Name}) end; -get_simple_table_info1(S,#'ComponentType'{typespec=TS},Cnames,Path) -> +get_simple_table_info2(S, #'ComponentType'{typespec=TS}, Cnames, Path) -> Components = get_atlist_components(TS#type.def), - get_simple_table_info1(S,Components,Cnames,Path). - + get_simple_table_info1(S, Components, Cnames, Path). + +simple_table_get_ocft(_, _, #type{def=#'ObjectClassFieldType'{}=OCFT}) -> + OCFT; +simple_table_get_ocft(S, Component, #type{constraint=Constr}) -> + case lists:keyfind(ocft, 1, Constr) of + {ocft,OCFT} -> + OCFT; + false -> + asn1_error(S, {missing_ocft,Component}) + end. simple_table_info(S,#'ObjectClassFieldType'{classname=ClRef, class=ObjectClass, @@ -5932,19 +5099,8 @@ simple_table_info(S,#'ObjectClassFieldType'{classname=ClRef, CDef; _ -> #classdef{typespec=ObjectClass} end, - UniqueName = - case (catch get_unique_fieldname(S,ClassDef)) of - {error,'__undefined_',_} -> no_unique; - {asn1,Msg,_} -> - error({type,Msg,S}); - {'EXIT',Msg} -> - error({type,{internal_error,Msg},S}); - {Other,_} -> Other - end, - {lists:reverse(Path),ObjectClassFieldName,UniqueName}; -simple_table_info(S,Type,_) -> - error({type,{"the type referenced by a componentrelation constraint must be a ObjectClassFieldType",Type},S}). - + UniqueName = get_unique_fieldname(S, ClassDef), + {lists:reverse(Path),ObjectClassFieldName,UniqueName}. %% any_component_relation searches for all component relation %% constraints that refers to the actual level and returns a list of @@ -5958,9 +5114,8 @@ simple_table_info(S,Type,_) -> %% is found to check the validity of the at-list. any_component_relation(S,[#'ComponentType'{name=CName,typespec=Type}|Cs],CNames,NamePath,Acc) -> CRelPath = - case constraint_member(componentrelation,Type#type.constraint) of -%% [{componentrelation,_,AtNotation}] -> - {true,{_,_,AtNotation}} -> + case lists:keyfind(componentrelation, 1, Type#type.constraint) of + {_,_,AtNotation} -> %% Found component relation constraint, now check %% whether this constraint is relevant for the level %% where the search started @@ -5969,7 +5124,7 @@ any_component_relation(S,[#'ComponentType'{name=CName,typespec=Type}|Cs],CNames, %% simple table constraint from where the component %% relation is found. evaluate_atpath(S,NamePath,CNames,AtNot); - _ -> + false -> [] end, InnerAcc = @@ -5991,11 +5146,11 @@ any_component_relation(S,[#'ComponentType'{name=CName,typespec=Type}|Cs],CNames, any_component_relation(S,Cs,CNames,NamePath,InnerAcc++CRelPath++Acc); any_component_relation(S,Type,CNames,NamePath,Acc) when is_record(Type,type) -> CRelPath = - case constraint_member(componentrelation,Type#type.constraint) of - {true,{_,_,AtNotation}} -> + case lists:keyfind(componentrelation, 1, Type#type.constraint) of + {_,_,AtNotation} -> AtNot = extract_at_notation(AtNotation), evaluate_atpath(S,NamePath,CNames,AtNot); - _ -> + false -> [] end, InnerAcc = @@ -6017,15 +5172,6 @@ any_component_relation(S,['ExtensionAdditionGroupEnd'|Cs],CNames,NamePath,Acc) - any_component_relation(_,[],_,_,Acc) -> Acc. -constraint_member(componentrelation,[CRel={componentrelation,_,_}|_Rest]) -> - {true,CRel}; -constraint_member(simpletable,[ST={simpletable,_}|_Rest]) -> - {true,ST}; -constraint_member(Key,[_H|T]) -> - constraint_member(Key,T); -constraint_member(_,[]) -> - false. - %% evaluate_atpath/4 finds out whether the at notation refers to the %% search level. The list of referenced names in the AtNot list shall %% begin with a name that exists on the level it refers to. If the @@ -6059,9 +5205,7 @@ evaluate_atpath(S=#state{abscomppath=TopPath},NamePath,Cnames,{outermost,AtPath= {_,[H|_T]} -> case lists:member(H,Cnames) of true -> [AtPathBelowTop]; - _ -> - %% error({type,{asn1,"failed to analyze at-path",AtPath},S}) - throw({type,{asn1,"failed to analyze at-path",AtPath},S}) + _ -> asn1_error(S, {invalid_at_path, AtPath}) end end; evaluate_atpath(_,_,_,_) -> @@ -6098,23 +5242,8 @@ tuple2complist({R1,E,R2}) -> tuple2complist(List) when is_list(List) -> List. -get_choice_components(_S,{'CHOICE',Components}) when is_list(Components)-> - Components; -get_choice_components(_S,{'CHOICE',{C1,C2}}) when is_list(C1),is_list(C2) -> - C1++C2; -get_choice_components(S,ERef=#'Externaltypereference'{}) -> - {_RefMod,TypeDef}=get_referenced_type(S,ERef), - #typedef{typespec=TS} = TypeDef, - get_choice_components(S,TS#type.def). - -extract_at_notation([{Level,[#'Externalvaluereference'{value=Name}|Rest]}]) -> - {Level,[Name|extract_at_notation1(Rest)]}; -extract_at_notation(At) -> - exit({error,{asn1,{at_notation,At}}}). -extract_at_notation1([#'Externalvaluereference'{value=Name}|Rest]) -> - [Name|extract_at_notation1(Rest)]; -extract_at_notation1([]) -> - []. +extract_at_notation([{Level,ValueRefs}]) -> + {Level,[Name || #'Externalvaluereference'{value=Name} <- ValueRefs]}. %% componentrelation1/1 identifies all componentrelation constraints %% that exist in C or in the substructure of C. Info about the found @@ -6133,8 +5262,8 @@ componentrelation1(S,C = #type{def=Def,constraint=Constraint,tablecinf=TCI}, Ret = % case Constraint of % [{componentrelation,{_,_,ObjectSet},AtList}|_Rest] -> - case constraint_member(componentrelation,Constraint) of - {true,{_,{_,_,ObjectSet},AtList}} -> + case lists:keyfind(componentrelation, 1, Constraint) of + {_,{_,_,ObjectSet},AtList} -> [{_,AL=[#'Externalvaluereference'{}|_R1]}|_R2] = AtList, %% Note: if Path is longer than one,i.e. it is within %% an inner type of the actual level, then the only @@ -6145,7 +5274,7 @@ componentrelation1(S,C = #type{def=Def,constraint=Constraint,tablecinf=TCI}, lists:map(fun(#'Externalvaluereference'{value=V})->V end, AL), {[{ObjectSet,AtPath,ClassDef,Path}],Def}; - _ -> + false -> %% check the inner type of component innertype_comprel(S,Def,Path) end, @@ -6219,10 +5348,8 @@ componentlist_comprel(_,[],Acc,_,NewCL) -> innertype_comprel1(S,T = #type{def=Def,constraint=Cons,tablecinf=TCI},Path) -> Ret = -% case Cons of -% [{componentrelation,{_,_,ObjectSet},AtList}|_Rest] -> - case constraint_member(componentrelation,Cons) of - {true,{_,{_,_,ObjectSet},AtList}} -> + case lists:keyfind(componentrelation, 1, Cons) of + {_,{_,_,ObjectSet},AtList} -> %% This AtList must have an "outermost" at sign to be %% relevent here. [{_,AL=[#'Externalvaluereference'{value=_Attr}|_R1]}|_R2] @@ -6233,7 +5360,7 @@ innertype_comprel1(S,T = #type{def=Def,constraint=Cons,tablecinf=TCI},Path) -> lists:map(fun(#'Externalvaluereference'{value=V})->V end, AL), [{ObjectSet,AtPath,ClassDef,Path}]; - _ -> + false -> innertype_comprel(S,Def,Path) end, case Ret of @@ -6301,8 +5428,7 @@ value_match(S,#'ComponentType'{typespec=Type},Name,[At|Ats],Acc) -> InnerType = asn1ct_gen:get_inner(Type#type.def), Components = case get_atlist_components(Type#type.def) of - [] -> error({type,{asn1,"element in at list must be a " - "SEQUENCE, SET or CHOICE.",Name},S}); + [] -> asn1_error(S, {invalid_element, Name}); Comps -> Comps end, {Index,ValueIndex} = component_value_index(S,InnerType,At,Components), @@ -6322,29 +5448,27 @@ component_index1(_S,Name,[#'ComponentType'{name=Name}|_Cs],N) -> component_index1(S,Name,[_C|Cs],N) -> component_index1(S,Name,Cs,N+1); component_index1(S,Name,[],_) -> - error({type,{asn1,"component of at-list was not" - " found in substructure",Name},S}). + asn1_error(S, {invalid_at_list, Name}). -get_unique_fieldname(_S,ClassDef) when is_record(ClassDef,classdef) -> -%% {_,Fields,_} = ClassDef#classdef.typespec, - Fields = (ClassDef#classdef.typespec)#objectclass.fields, - get_unique_fieldname1(Fields,[]); +get_unique_fieldname(S, #classdef{typespec=TS}) -> + Fields = TS#objectclass.fields, + get_unique_fieldname1(S, Fields, []); get_unique_fieldname(S,#typedef{typespec=#type{def=ClassRef}}) -> %% A class definition may be referenced as %% REFED-CLASS ::= DEFINED-CLASS and then REFED-CLASS is a typedef {_M,ClassDef} = get_referenced_type(S,ClassRef), get_unique_fieldname(S,ClassDef). -get_unique_fieldname1([],[]) -> - throw({error,'__undefined_',[]}); -get_unique_fieldname1([],[Name]) -> - Name; -get_unique_fieldname1([],Acc) -> - throw({asn1,'only one UNIQUE field is allowed in CLASS',Acc}); -get_unique_fieldname1([{fixedtypevaluefield,Name,_,'UNIQUE',Opt}|Rest],Acc) -> - get_unique_fieldname1(Rest,[{Name,Opt}|Acc]); -get_unique_fieldname1([_H|T],Acc) -> - get_unique_fieldname1(T,Acc). +get_unique_fieldname1(S, [{fixedtypevaluefield,Name,_,'UNIQUE',Opt}|T], Acc) -> + get_unique_fieldname1(S, T, [{Name,Opt}|Acc]); +get_unique_fieldname1(S, [_|T], Acc) -> + get_unique_fieldname1(S, T, Acc); +get_unique_fieldname1(S, [], Acc) -> + case Acc of + [] -> no_unique; + [Name] -> Name; + [_|_] -> asn1_error(S, multiple_uniqs) + end. get_tableconstraint_info(S,Type,{CheckedTs,EComps,CheckedTs2}) -> {get_tableconstraint_info(S,Type,CheckedTs,[]), @@ -6400,31 +5524,8 @@ get_tableconstraint_info(S,Type,[C|Cs],Acc) -> get_referenced_fieldname([{_,FirstFieldname}]) -> {FirstFieldname,[]}; -get_referenced_fieldname([{_,FirstFieldname}|Rest]) -> - {FirstFieldname,lists:map(fun(X)->element(2,X) end,Rest)}; -get_referenced_fieldname(Def={FieldName,RestFieldName}) when is_atom(FieldName),is_list(RestFieldName)-> - Def; -get_referenced_fieldname(Def) -> - {no_type,Def}. - -%% get_ObjectClassFieldType extracts the type from the chain of -%% objects that leads to a final type. -get_ObjectClassFieldType(S,ERef,PrimFieldNameList) when - is_record(ERef,'Externaltypereference') -> - {MName,Type} = get_referenced_type(S,ERef), - NewS = update_state(S#state{type=Type, - tname=ERef#'Externaltypereference'.type},MName), - ClassSpec = check_class(NewS,Type), - Fields = ClassSpec#objectclass.fields, - get_ObjectClassFieldType(S,Fields,PrimFieldNameList); -get_ObjectClassFieldType(S,Fields,L=[_PrimFieldName1|_Rest]) -> - check_PrimitiveFieldNames(S,Fields,L), - get_OCFType(S,Fields,L); -get_ObjectClassFieldType(S,ERef,{FieldName,Rest}) -> - get_ObjectClassFieldType(S,ERef,Rest ++ [FieldName]). - -check_PrimitiveFieldNames(_S,_Fields,_) -> - ok. +get_referenced_fieldname([{_,FirstFieldname}|T]) -> + {FirstFieldname,[element(2, X) || X <- T]}. %% get_ObjectClassFieldType_classdef gets the def of the class of the %% ObjectClassFieldType, i.e. the objectclass record. If the type has @@ -6445,15 +5546,13 @@ get_OCFType(S,Fields,[PrimFieldName|Rest]) -> {fixedtypevaluefield,PrimFieldName,Type}; {value,{objectfield,_,ClassRef,_Unique,_OptSpec}} -> {MName,ClassDef} = get_referenced_type(S,ClassRef), - NewS = update_state(S#state{type=ClassDef, - tname=get_datastr_name(ClassDef)}, + NewS = update_state(S#state{tname=get_datastr_name(ClassDef)}, MName), CheckedCDef = check_class(NewS,ClassDef), get_OCFType(S,CheckedCDef#objectclass.fields,Rest); {value,{objectsetfield,_,Type,_OptSpec}} -> {MName,ClassDef} = get_referenced_type(S,Type#type.def), - NewS = update_state(S#state{type=ClassDef, - tname=get_datastr_name(ClassDef)}, + NewS = update_state(S#state{tname=get_datastr_name(ClassDef)}, MName), CheckedCDef = check_class(NewS,ClassDef), get_OCFType(S,CheckedCDef#objectclass.fields,Rest); @@ -6461,7 +5560,7 @@ get_OCFType(S,Fields,[PrimFieldName|Rest]) -> {value,Other} -> {element(1,Other),PrimFieldName}; _ -> - throw({error,lists:flatten(io_lib:format("undefined FieldName in ObjectClassFieldType: ~w",[PrimFieldName]))}) + asn1_error(S, {illegal_object_field, PrimFieldName}) end. get_taglist(S,Ext) when is_record(Ext,'Externaltypereference') -> @@ -6485,30 +5584,8 @@ get_taglist(_S,#'ObjectClassFieldType'{type={typefield,_}}) -> []; get_taglist(S,#'ObjectClassFieldType'{type={fixedtypevaluefield,_,Type}}) -> get_taglist(S,Type); -get_taglist(S,{ERef=#'Externaltypereference'{},FieldNameList}) - when is_list(FieldNameList) -> - case get_ObjectClassFieldType(S,ERef,FieldNameList) of - {fixedtypevaluefield,_,Type} -> get_taglist(S,Type); - {TypeFieldName,_} when is_atom(TypeFieldName) -> []%should check if allowed - end; -get_taglist(S,{ObjCl,FieldNameList}) when is_record(ObjCl,objectclass), - is_list(FieldNameList) -> - case get_ObjectClassFieldType(S,ObjCl#objectclass.fields,FieldNameList) of - {fixedtypevaluefield,_,Type} -> get_taglist(S,Type); - {TypeFieldName,_} when is_atom(TypeFieldName) -> []%should check if allowed - end; -get_taglist(S,Def) -> - 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. +get_taglist(_, _) -> + []. get_taglist1(S,[#'ComponentType'{name=_Cname,tags=TagL}|Rest]) when is_list(TagL) -> %% tag_list has been here , just return TagL and continue with next alternative @@ -6565,15 +5642,6 @@ get_taglist1(_S,[]) -> %% tag_number('CHARACTER STRING') -> 29; %% tag_number('BMPString') -> 30. - -dbget_ex(_S,Module,Key) -> - case asn1_db:dbget(Module,Key) of - undefined -> - - throw({error,{asn1,{undefined,{Module,Key}}}}); % this is catched on toplevel type or value - T -> T - end. - merge_tags(T1, T2) when is_list(T2) -> merge_tags2(T1 ++ T2, []); merge_tags(T1, T2) -> @@ -6590,75 +5658,46 @@ merge_tags2([H|T],Acc) -> merge_tags2([], Acc) -> lists:reverse(Acc). -%% merge_constraints(C1, []) -> -%% C1; -%% merge_constraints([], C2) -> -%% C2; -%% merge_constraints(C1, C2) -> -%% {SList,VList,PAList,Rest} = splitlist(C1++C2,[],[],[],[]), -%% SizeC = merge_constraints(SList), -%% ValueC = merge_constraints(VList), -%% PermAlphaC = merge_constraints(PAList), -%% case Rest of -%% [] -> -%% SizeC ++ ValueC ++ PermAlphaC; -%% _ -> -%% throw({error,{asn1,{not_implemented,{merge_constraints,Rest}}}}) -%% end. - -%% merge_constraints([]) -> []; -%% merge_constraints([C1 = {_,{Low1,High1}},{_,{Low2,High2}}|Rest]) when Low1 >= Low2, -%% High1 =< High2 -> -%% merge_constraints([C1|Rest]); -%% merge_constraints([C1={'PermittedAlphabet',_},C2|Rest]) -> -%% [C1|merge_constraints([C2|Rest])]; -%% merge_constraints([C1 = {_,{_Low1,_High1}},C2 = {_,{_Low2,_High2}}|_Rest]) -> -%% throw({error,asn1,{conflicting_constraints,{C1,C2}}}); -%% merge_constraints([C]) -> -%% [C]. - -%% splitlist([C={'SizeConstraint',_}|Rest],Sacc,Vacc,PAacc,Restacc) -> -%% splitlist(Rest,[C|Sacc],Vacc,PAacc,Restacc); -%% splitlist([C={'ValueRange',_}|Rest],Sacc,Vacc,PAacc,Restacc) -> -%% splitlist(Rest,Sacc,[C|Vacc],PAacc,Restacc); -%% splitlist([C={'PermittedAlphabet',_}|Rest],Sacc,Vacc,PAacc,Restacc) -> -%% splitlist(Rest,Sacc,Vacc,[C|PAacc],Restacc); -%% splitlist([C|Rest],Sacc,Vacc,PAacc,Restacc) -> -%% splitlist(Rest,Sacc,Vacc,PAacc,[C|Restacc]); -%% splitlist([],Sacc,Vacc,PAacc,Restacc) -> -%% {lists:reverse(Sacc), -%% lists:reverse(Vacc), -%% lists:reverse(PAacc), -%% lists:reverse(Restacc)}. - - - -storeindb(S,M) when is_record(M,module) -> - TVlist = M#module.typeorval, - NewM = M#module{typeorval=findtypes_and_values(TVlist)}, - asn1_db:dbnew(NewM#module.name, S#state.erule), - asn1_db:dbput(NewM#module.name,'MODULE', NewM), - Res = storeindb(#state{mname=NewM#module.name}, TVlist, []), - include_default_class(S,NewM#module.name), +storeindb(S0, #module{name=ModName,typeorval=TVlist0}=M) -> + S = S0#state{mname=ModName}, + TVlist1 = [{asn1ct:get_name_of_def(Def),Def} || Def <- TVlist0], + case check_duplicate_defs(S, TVlist1) of + ok -> + storeindb_1(S, M, TVlist0, TVlist1); + {error,_}=Error -> + Error + end. + +storeindb_1(S, #module{name=ModName}=M, TVlist0, TVlist) -> + NewM = M#module{typeorval=findtypes_and_values(TVlist0)}, + asn1_db:dbnew(ModName, S#state.erule), + asn1_db:dbput(ModName, 'MODULE', NewM), + asn1_db:dbput(ModName, TVlist), + include_default_class(S, NewM#module.name), include_default_type(NewM#module.name), - Res. + ok. -storeindb(#state{mname=Module}=S, [H|T], Errors) -> - Name = asn1ct:get_name_of_def(H), - case asn1_db:dbget(Module, Name) of - undefined -> - asn1_db:dbput(Module, Name, H), - storeindb(S, T, Errors); - Prev -> - PrevLine = asn1ct:get_pos_of_def(Prev), - Error = return_asn1_error(S, H, {already_defined,Name,PrevLine}), - storeindb(S, T, [Error|Errors]) - end; -storeindb(_, [], []) -> - ok; -storeindb(_, [], [_|_]=Errors) -> - {error,Errors}. +check_duplicate_defs(S, Defs) -> + Set0 = sofs:relation(Defs), + Set1 = sofs:relation_to_family(Set0), + Set = sofs:to_external(Set1), + case [duplicate_def(S, N, Dup) || {N,[_,_|_]=Dup} <- Set] of + [] -> + ok; + [_|_]=E -> + {error,lists:append(E)} + end. + +duplicate_def(S, Name, Dups0) -> + Dups1 = [{asn1ct:get_pos_of_def(Def),Def} || Def <- Dups0], + [{Prev,_}|Dups] = lists:sort(Dups1), + duplicate_def_1(S, Dups, Name, Prev). +duplicate_def_1(S, [{_,Def}|T], Name, Prev) -> + E = return_asn1_error(S, Def, {already_defined,Name,Prev}), + [E|duplicate_def_1(S, T, Name, Prev)]; +duplicate_def_1(_, [], _, _) -> + []. findtypes_and_values(TVList) -> findtypes_and_values(TVList,[],[],[],[],[],[]).%% Types,Values, @@ -6698,99 +5737,146 @@ findtypes_and_values([],Tacc,Vacc,Pacc,Cacc,Oacc,OSacc) -> {lists:reverse(Tacc),lists:reverse(Vacc),lists:reverse(Pacc), lists:reverse(Cacc),lists:reverse(Oacc),lists:reverse(OSacc)}. +return_asn1_error(#state{error_context=Context}=S, Error) -> + return_asn1_error(S, Context, Error). + return_asn1_error(#state{mname=Where}, Item, Error) -> Pos = asn1ct:get_pos_of_def(Item), {structured_error,{Where,Pos},?MODULE,Error}. -asn1_error(S, Item, Error) -> - throw({error,return_asn1_error(S, Item, Error)}). +asn1_error(S, Error) -> + throw({error,return_asn1_error(S, Error)}). format_error({already_defined,Name,PrevLine}) -> io_lib:format("the name ~p has already been defined at line ~p", [Name,PrevLine]); +format_error({duplicate_identifier,Ids}) -> + io_lib:format("the identifier '~p' has already been used", [Ids]); +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_id, Id}) -> + io_lib:format("illegal identifier: ~p", [Id]); +format_error({illegal_choice_type, Ref}) -> + io_lib:format("expecting a CHOICE type: ~p", [Ref]); +format_error({illegal_class_name,Class}) -> + io_lib:format("the class name '~s' is illegal (it must start with an uppercase letter and only contain uppercase letters, digits, or hyphens)", [Class]); +format_error({illegal_COMPONENTS_OF, Ref}) -> + io_lib:format("expected a SEQUENCE or SET got: ~p", [Ref]); +format_error(illegal_external_value) -> + "illegal value in EXTERNAL type"; format_error({illegal_instance_of,Class}) -> io_lib:format("using INSTANCE OF on class '~s' is illegal, " - "because INSTANCE OF may only be used on the class TYPE-IDENTFIER", + "because INSTANCE OF may only be used on the class TYPE-IDENTIFIER", [Class]); +format_error(illegal_integer_value) -> + "expecting an integer value"; +format_error(illegal_object) -> + "expecting an object"; +format_error({illegal_object_field, Id}) -> + io_lib:format("expecting a class field: ~p",[Id]); +format_error({illegal_oid,o_id}) -> + "illegal OBJECT IDENTIFIER"; +format_error({illegal_oid,rel_oid}) -> + "illegal RELATIVE-OID"; format_error(illegal_octet_string_value) -> "expecting a bstring or an hstring as value for an OCTET STRING"; format_error({illegal_typereference,Name}) -> io_lib:format("'~p' is used as a typereference, but does not start with an uppercase letter", [Name]); +format_error(illegal_table_constraint) -> + "table constraints may only be applied to CLASS.&field constructs"; +format_error(illegal_value) -> + "expecting a value"; +format_error({illegal_value, TYPE}) -> + io_lib:format("expecting a ~s value", [TYPE]); format_error({invalid_fields,Fields,Obj}) -> io_lib:format("invalid ~s in ~p", [format_fields(Fields),Obj]); format_error({invalid_bit_number,Bit}) -> io_lib:format("the bit number '~p' is invalid", [Bit]); +format_error(invalid_table_constraint) -> + "the table constraint is not an object set"; +format_error(invalid_objectset) -> + "expecting an object set"; +format_error({implicit_tag_before,Kind}) -> + "illegal implicit tag before " ++ + case Kind of + choice -> "'CHOICE'"; + open_type -> "open type" + end; format_error({missing_mandatory_fields,Fields,Obj}) -> io_lib:format("missing mandatory ~s in ~p", [format_fields(Fields),Obj]); +format_error({missing_table_constraint,Component}) -> + io_lib:format("the component '~s' is referenced by a component relation constraint using the '@field-name' notation, but does not have a table constraint", + [Component]); +format_error({missing_id,Id}) -> + io_lib:format("expected the mandatory component '~p'", [Id]); +format_error({missing_ocft,Component}) -> + io_lib:format("the component '~s' must be an ObjectClassFieldType (CLASSNAME.&field-name)", [Component]); +format_error(multiple_uniqs) -> + "implementation limitation: only one UNIQUE field is allowed in CLASS"; format_error({namelist_redefinition,Name}) -> io_lib:format("the name '~s' can not be redefined", [Name]); +format_error({param_bad_type, Ref}) -> + io_lib:format("'~p' is not a parameterized type", [Ref]); +format_error(param_wrong_number_of_arguments) -> + "wrong number of arguments"; +format_error(reversed_range) -> + "ranges must be given in increasing order"; +format_error({syntax_duplicated_fields,Fields}) -> + io_lib:format("~s must only occur once in the syntax list", + [format_fields(Fields)]); +format_error(syntax_nomatch) -> + "unexpected end of object definition"; +format_error({syntax_mandatory_in_optional_group,Name}) -> + io_lib:format("the field '&~s' must not be within an optional group since it is not optional", + [Name]); +format_error({syntax_missing_mandatory_fields,Fields}) -> + io_lib:format("missing mandatory ~s in the syntax list", + [format_fields(Fields)]); +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_export,Ref}) -> + io_lib:format("'~s' is exported but is not defined", [Ref]); +format_error({undefined_field,FieldName}) -> + io_lib:format("the field '&~s' is undefined", [FieldName]); format_error({undefined_import,Ref,Module}) -> io_lib:format("'~s' is not exported from ~s", [Ref,Module]); +format_error({unique_and_default,Field}) -> + io_lib:format("the field '&~s' must not have both 'UNIQUE' and 'DEFAULT'", + [Field]); format_error({value_reused,Val}) -> io_lib:format("the value '~p' is used more than once", [Val]); +format_error({non_unique_object,Id}) -> + io_lib:format("object set with a UNIQUE field value of '~p' is used more than once", [Id]); format_error(Other) -> io_lib:format("~p", [Other]). format_fields([F]) -> - io_lib:format("field &~s", [F]); + io_lib:format("field '&~s'", [F]); format_fields([H|T]) -> - [io_lib:format("fields &~s", [H])| - [io_lib:format(", &~s", [F]) || F <- T]]. - -error({_,{structured_error,_,_,_}=SE,_}) -> - SE; -error({export,Msg,#state{mname=Mname,type=Ref,tname=Typename}}) -> - Pos = Ref#'Externaltypereference'.pos, - io:format("asn1error:~p:~p:~p~n~p~n",[Pos,Mname,Typename,Msg]), - {error,{export,Pos,Mname,Typename,Msg}}; -% error({type,{Msg1,Msg2},#state{mname=Mname,type=Type,tname=Typename}}) -% when is_record(Type,typedef) -> -% io:format("asn1error:~p:~p:~p ~p~n", -% [Type#typedef.pos,Mname,Typename,Msg1]), -% {error,{type,Type#typedef.pos,Mname,Typename,Msg1,Msg2}}; -error({type,Msg,#state{mname=Mname,type=Type,tname=Typename}}) - when is_record(Type,type) -> - io:format("asn1error:~p:~p~n~p~n", - [Mname,Typename,Msg]), - {error,{type,Mname,Typename,Msg}}; -error({type,Msg,#state{mname=Mname,type=Type,tname=Typename}}) - when is_record(Type,typedef) -> - io:format("asn1error:~p:~p:~p~n~p~n", - [Type#typedef.pos,Mname,Typename,Msg]), - {error,{type,Type#typedef.pos,Mname,Typename,Msg}}; -error({type,Msg,#state{mname=Mname,type=Type,tname=Typename}}) - when is_record(Type,ptypedef) -> - io:format("asn1error:~p:~p:~p~n~p~n", - [Type#ptypedef.pos,Mname,Typename,Msg]), - {error,{type,Type#ptypedef.pos,Mname,Typename,Msg}}; -error({type,Msg,#state{mname=Mname,value=Value,vname=Valuename}}) - when is_record(Value,valuedef) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Value#valuedef.pos,Mname,Valuename,Msg]), - {error,{type,Value#valuedef.pos,Mname,Valuename,Msg}}; -error({type,Msg,#state{mname=Mname,type=Type,tname=Typename}}) - when is_record(Type,pobjectdef) -> - io:format("asn1error:~p:~p:~p~n~p~n", - [Type#pobjectdef.pos,Mname,Typename,Msg]), - {error,{type,Type#pobjectdef.pos,Mname,Typename,Msg}}; -error({value,Msg,#state{mname=Mname,value=Value,vname=Valuename}}) - when is_record(Value,valuedef) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Value#valuedef.pos,Mname,Valuename,Msg]), - {error,{value,Value#valuedef.pos,Mname,Valuename,Msg}}; -error({Other,Msg,#state{mname=Mname,value=#valuedef{pos=Pos},vname=Valuename}}) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Pos,Mname,Valuename,Msg]), - {error,{Other,Pos,Mname,Valuename,Msg}}; -error({Other,Msg,#state{mname=Mname,type=#typedef{pos=Pos},tname=Typename}}) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Pos,Mname,Typename,Msg]), - {error,{Other,Pos,Mname,Typename,Msg}}; -error({Other,Msg,#state{mname=Mname,type=#classdef{pos=Pos},tname=Typename}}) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Pos,Mname,Typename,Msg]), - {error,{Other,Pos,Mname,Typename,Msg}}; -error({Other,Msg,#state{mname=Mname,type=Type,tname=Typename}}) -> - io:format("asn1error:~p:~p:~p~n~p~n",[asn1ct:get_pos_of_def(Type),Mname,Typename,Msg]), - {error,{Other,asn1ct:get_pos_of_def(Type),Mname,Typename,Msg}}. + [io_lib:format("fields '&~s'", [H])| + [io_lib:format(", '&~s'", [F]) || F <- T]]. + +format_elements([H1,H2|T]) -> + [io_lib:format("~p, ", [H1])|format_elements([H2|T])]; +format_elements([H]) -> + io_lib:format("~p", [H]). include_default_type(Module) -> NameAbsList = default_type_list(), @@ -6953,62 +6039,62 @@ 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()], + 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) -> +default_class_list() -> [{'TYPE-IDENTIFIER', - {objectclass, - [{fixedtypevaluefield, - id, - #type{tag=?TAG_PRIMITIVE(?N_OBJECT_IDENTIFIER), - def='OBJECT IDENTIFIER'}, - 'UNIQUE', - 'MANDATORY'}, - {typefield,'Type','MANDATORY'}], - {'WITH SYNTAX', - [{typefieldreference,'Type'}, - 'IDENTIFIED', - 'BY', - {valuefieldreference,id}]}}}, + #objectclass{fields=[{fixedtypevaluefield, + id, + #type{tag=[?TAG_PRIMITIVE(?N_OBJECT_IDENTIFIER)], + def='OBJECT IDENTIFIER'}, + 'UNIQUE', + 'MANDATORY'}, + {typefield,'Type','MANDATORY'}], + syntax={'WITH SYNTAX', + [{typefieldreference,'Type'}, + 'IDENTIFIED', + 'BY', + {valuefieldreference,id}]}}}, {'ABSTRACT-SYNTAX', - {objectclass, - [{fixedtypevaluefield, - id, - #type{tag=?TAG_PRIMITIVE(?N_OBJECT_IDENTIFIER), - def='OBJECT IDENTIFIER'}, - 'UNIQUE', - 'MANDATORY'}, - {typefield,'Type','MANDATORY'}, - {fixedtypevaluefield, - property, - #type{tag=?TAG_PRIMITIVE(?N_BIT_STRING), - def={'BIT STRING',[]}}, - undefined, - {'DEFAULT', - [0,1,0]}}], - {'WITH SYNTAX', - [{typefieldreference,'Type'}, - 'IDENTIFIED', - 'BY', - {valuefieldreference,id}, - ['HAS', - 'PROPERTY', - {valuefieldreference,property}]]}}}]. - + #objectclass{fields=[{fixedtypevaluefield, + id, + #type{tag=[?TAG_PRIMITIVE(?N_OBJECT_IDENTIFIER)], + def='OBJECT IDENTIFIER'}, + 'UNIQUE', + 'MANDATORY'}, + {typefield,'Type','MANDATORY'}, + {fixedtypevaluefield, + property, + #type{tag=[?TAG_PRIMITIVE(?N_BIT_STRING)], + def={'BIT STRING',[]}}, + undefined, + {'DEFAULT', + [0,1,0]}}], + syntax={'WITH SYNTAX', + [{typefieldreference,'Type'}, + 'IDENTIFIED', + 'BY', + {valuefieldreference,id}, + ['HAS', + 'PROPERTY', + {valuefieldreference,property}]]}}}]. new_reference_name(Name) -> case get(asn1_reference) of @@ -7037,8 +6123,9 @@ insert_once(S,Tab,Key) -> skipped end. -check_fold(S, [H|T], Check) -> - Type = asn1_db:dbget(S#state.mname, H), +check_fold(S0, [H|T], Check) -> + Type = asn1_db:dbget(S0#state.mname, H), + S = S0#state{error_context=Type}, case Check(S, H, Type) of ok -> check_fold(S, T, Check); @@ -7047,5 +6134,19 @@ check_fold(S, [H|T], Check) -> end; check_fold(_, [], Check) when is_function(Check, 3) -> []. +error_value(Value) when is_integer(Value) -> Value; +error_value(Value) when is_atom(Value) -> Value; +error_value(#type{def=Value}) when is_atom(Value) -> Value; +error_value(#type{def=Value}) -> error_value(Value); +error_value(RefOrType) -> + try name_of_def(RefOrType) of + Name -> Name + catch _:_ -> + case get_datastr_name(RefOrType) of + undefined -> RefOrType; + Name -> Name + end + end. + name_of_def(#'Externaltypereference'{type=N}) -> N; name_of_def(#'Externalvaluereference'{value=N}) -> N. diff --git a/lib/asn1/src/asn1ct_constructed_per.erl b/lib/asn1/src/asn1ct_constructed_per.erl index a91404ed54..0bc6688a49 100644 --- a/lib/asn1/src/asn1ct_constructed_per.erl +++ b/lib/asn1/src/asn1ct_constructed_per.erl @@ -410,12 +410,11 @@ gen_dec_open_type(Erule, Val, {Xmod,Xtype}, LeadingAttr, #classdef{typespec=ClassDef} = asn1_db:dbget(ClMod, ClType), #objectclass{fields=ClassFields} = ClassDef, Extensible = lists:member('EXTENSIONMARK', ObjSet1), - ObjSet2 = [{Key,fix_object_code(Name, Code, ClassFields)} || - {_,Key,Code} <- ObjSet1], - ObjSet = lists:sort([P || {_,B}=P <- ObjSet2, B =/= none]), + Typename = [Name,ClType], + ObjSet = index_object_set(Erule, ClType, Name, + ObjSet1, ClassFields), Key = erlang:md5(term_to_binary({decode,ObjSet,RestFieldNames, Prop,Extensible})), - Typename = [Name,ClType], Gen = fun(_Fd, N) -> dec_objset_optional(N, Prop), dec_objset(Erule, N, ObjSet, RestFieldNames, Typename), @@ -467,46 +466,15 @@ dec_objset_2(Erule, Obj, RestFields0, Typename) -> Imm = asn1ct_gen_per:gen_dec_imm(Erule, Type), {Term,_} = asn1ct_imm:dec_slim_cg(Imm, 'Bytes'), emit([com,nl,Term]); - #typedef{name={constructed,bif},typespec=Def} -> - InnerType = asn1ct_gen:get_inner(Def#type.def), - case InnerType of - 'CHOICE' -> - asn1ct_name:start(), - asn1ct_name:new(bytes), - {'CHOICE',CompList} = Def#type.def, - Ext = extensible_enc(CompList), - emit(["{Result,_} = begin",nl]), - gen_dec_choice(Erule, Typename, CompList, Ext), - emit([nl, - "end",com,nl, - "Result"]); - 'SET' -> - Imm0 = gen_dec_constructed_imm(Erule, Typename, Def), - Imm = opt_imm(Imm0), - asn1ct_name:start(), - emit(["{Result,_} = begin",nl]), - emit_gen_dec_imm(Imm), - emit([nl, - "end",com,nl, - "Result"]); - 'SET OF' -> - asn1ct_name:start(), - do_gen_decode_sof(Erule, Typename, 'SET OF', - Def, false); - 'SEQUENCE' -> - Imm0 = gen_dec_constructed_imm(Erule, Typename, Def), - Imm = opt_imm(Imm0), - asn1ct_name:start(), - emit(["{Result,_} = begin",nl]), - emit_gen_dec_imm(Imm), - emit([nl, - "end",com,nl, - "Result"]); - 'SEQUENCE OF' -> - asn1ct_name:start(), - do_gen_decode_sof(Erule, Typename, 'SEQUENCE OF', - Def, false) - end; + #typedef{name={constructed,bif},typespec=Type}=Def -> + Prefix = "dec_outlined_", + Key = {dec_outlined,Def}, + Gen = fun(_Fd, Name) -> + gen_dec_obj(Erule, Name, Typename, Type) + end, + Func = asn1ct_func:call_gen(Prefix, Key, Gen), + emit(["{Term,_} = ",{asis,Func},"(Bytes)",com,nl, + "Term"]); #typedef{name=Type} -> emit(["{Result,_} = ",{asis,enc_func("dec_", Type)},"(Bytes),",nl, "Result"]); @@ -531,6 +499,12 @@ dec_objset_2(Erule, Obj, RestFields0, Typename) -> end end. +gen_dec_obj(Erules, Name, Typename, Type) -> + emit([{asis,Name},"(Bytes) ->",nl]), + InnerType = asn1ct_gen:get_inner(Type#type.def), + asn1ct_gen:gen_decode_constructed(Erules, Typename, + InnerType, Type). + gen_encode_choice(Erule, TopType, D) -> asn1ct_name:start(), Imm = gen_encode_choice_imm(Erule, TopType, D), @@ -595,10 +569,10 @@ gen_encode_sof_imm(Erule, Typename, SeqOrSetOf, #type{}=D) -> gen_decode_sof(Erules, Typename, SeqOrSetOf, #type{}=D) -> asn1ct_name:start(), - do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D, true), + do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D), emit([".",nl,nl]). -do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D, NeedRest) -> +do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D) -> {_SeqOrSetOf,ComponentType} = D#type.def, SizeConstraint = asn1ct_imm:effective_constraint(bitstring, D#type.constraint), @@ -610,12 +584,11 @@ do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D, NeedRest) -> "" end, {Num,Buf} = gen_decode_length(SizeConstraint, Erules), - Key = erlang:md5(term_to_binary({Typename,SeqOrSetOf, - ComponentType,NeedRest})), + Key = erlang:md5(term_to_binary({Typename,SeqOrSetOf,ComponentType})), Gen = fun(_Fd, Name) -> gen_decode_sof_components(Erules, Name, Typename, SeqOrSetOf, - ComponentType, NeedRest) + ComponentType) end, F = asn1ct_func:call_gen("dec_components", Key, Gen), emit([",",nl, @@ -629,7 +602,7 @@ gen_decode_length(Constraint, Erule) -> Imm = asn1ct_imm:per_dec_length(Constraint, true, is_aligned(Erule)), asn1ct_imm:dec_slim_cg(Imm, "Bytes"). -gen_decode_sof_components(Erule, Name, Typename, SeqOrSetOf, Cont, NeedRest) -> +gen_decode_sof_components(Erule, Name, Typename, SeqOrSetOf, Cont) -> {ObjFun,ObjFun_Var} = case Cont#type.tablecinf of [{objfun,_}|_R] -> @@ -637,14 +610,8 @@ gen_decode_sof_components(Erule, Name, Typename, SeqOrSetOf, Cont, NeedRest) -> _ -> {"",""} end, - case NeedRest of - false -> - emit([{asis,Name},"(0, _Bytes",ObjFun_Var,", Acc) ->",nl, - "lists:reverse(Acc);",nl]); - true -> - emit([{asis,Name},"(0, Bytes",ObjFun_Var,", Acc) ->",nl, - "{lists:reverse(Acc),Bytes};",nl]) - end, + emit([{asis,Name},"(0, Bytes",ObjFun_Var,", Acc) ->",nl, + "{lists:reverse(Acc),Bytes};",nl]), emit([{asis,Name},"(Num, Bytes",ObjFun,", Acc) ->",nl, "{Term,Remain} = "]), Constructed_Suffix = asn1ct_gen:constructed_suffix(SeqOrSetOf, @@ -1024,11 +991,12 @@ enc_var_type_call(Erule, Name, RestFieldNames, #classdef{typespec=ClassDef} = asn1_db:dbget(ClMod, ClType), #objectclass{fields=ClassFields} = ClassDef, Extensible = lists:member('EXTENSIONMARK', ObjSet1), - ObjSet2 = [{Key,fix_object_code(Name, Code, ClassFields)} || - {_,Key,Code} <- ObjSet1], - ObjSet = lists:sort([P || {_,B}=P <- ObjSet2, B =/= none]), + ObjSet = index_object_set(Erule, ClType, Name, + ObjSet1, ClassFields), Key = erlang:md5(term_to_binary({encode,ObjSet,RestFieldNames,Extensible})), - Imm = enc_objset_imm(Erule, Name, ObjSet, RestFieldNames, Extensible), + TypeName = [ClType,Name], + Imm = enc_objset_imm(Erule, TypeName, Name, ObjSet, + RestFieldNames, Extensible), Lambda = {lambda,[{var,"Val"},{var,"Id"}],Imm}, Gen = fun(_Fd, N) -> Aligned = is_aligned(Erule), @@ -1039,11 +1007,27 @@ enc_var_type_call(Erule, Name, RestFieldNames, Prefix = lists:concat(["enc_os_",Name]), [{call_gen,Prefix,Key,Gen,Lambda,[Val,Fun]}]. -fix_object_code(Name, [{Name,B}|_], _ClassFields) -> - B; -fix_object_code(Name, [_|T], ClassFields) -> - fix_object_code(Name, T, ClassFields); -fix_object_code(Name, [], ClassFields) -> +index_object_set(_Erules, _ClType, Name, Set0, ClassFields) -> + Set = index_object_set_1(Name, Set0, ClassFields), + lists:sort(Set). + +index_object_set_1(Name, [{_,Key,Code}|T], ClassFields) -> + case index_object_set_2(Name, Code, ClassFields) of + none -> + index_object_set_1(Name, T, ClassFields); + Type -> + [{Key,Type}|index_object_set_1(Name, T, ClassFields)] + end; +index_object_set_1(Name, [_|T], ClassFields) -> + index_object_set_1(Name, T, ClassFields); +index_object_set_1(_, [], _) -> + []. + +index_object_set_2(Name, [{Name,Type}|_], _ClassFields) -> + Type; +index_object_set_2(Name, [_|T], ClassFields) -> + index_object_set_2(Name, T, ClassFields); +index_object_set_2(Name, [], ClassFields) -> case lists:keyfind(Name, 2, ClassFields) of {typefield,Name,'OPTIONAL'} -> none; @@ -1059,7 +1043,8 @@ fix_object_code(Name, [], ClassFields) -> end end. -enc_objset_imm(Erule, Component, ObjSet, RestFieldNames, Extensible) -> +enc_objset_imm(Erule, TypeName, Component, ObjSet, + RestFieldNames, Extensible) -> Aligned = is_aligned(Erule), E = {error, fun() -> @@ -1070,7 +1055,7 @@ enc_objset_imm(Erule, Component, ObjSet, RestFieldNames, Extensible) -> end}, [{'cond', [[{eq,{var,"Id"},Key}| - enc_obj(Erule, Obj, RestFieldNames, Aligned)] || + enc_obj(Erule, Obj, TypeName, RestFieldNames, Aligned)] || {Key,Obj} <- ObjSet] ++ [['_',case Extensible of false -> @@ -1086,24 +1071,18 @@ enc_objset_imm(Erule, Component, ObjSet, RestFieldNames, Extensible) -> end end]]}]. -enc_obj(Erule, Obj, RestFieldNames0, Aligned) -> +enc_obj(Erule, Obj, TypeName, RestFieldNames0, Aligned) -> + Val = {var,"Val"}, case Obj of + #typedef{name={constructed,bif},typespec=Type}=Def -> + Prefix = "enc_outlined_", + Key = {enc_outlined,Def}, + Gen = fun(_Fd, Name) -> + gen_enc_obj(Erule, Name, TypeName, Type) + end, + [{call_gen,Prefix,Key,Gen,undefined,[Val]}]; #typedef{name={primitive,bif},typespec=Def} -> asn1ct_gen_per:gen_encode_prim_imm({var,"Val"}, Def, Aligned); - #typedef{name={constructed,bif},typespec=Def} -> - InnerType = asn1ct_gen:get_inner(Def#type.def), - case InnerType of - 'CHOICE' -> - gen_encode_choice_imm(Erule, name, Def); - 'SET' -> - gen_encode_constructed_imm(Erule, name, Def); - 'SET OF' -> - gen_encode_sof_imm(Erule, name, InnerType, Def); - 'SEQUENCE' -> - gen_encode_constructed_imm(Erule, name, Def); - 'SEQUENCE OF' -> - gen_encode_sof_imm(Erule, name, InnerType, Def) - end; #typedef{name=Type} -> [{apply,{local,enc_func(Type),Type},[{var,"Val"}]}]; #'Externalvaluereference'{module=Mod,value=Value} -> @@ -1112,7 +1091,8 @@ enc_obj(Erule, Obj, RestFieldNames0, Aligned) -> {object,_,Fields} = Def, [NextField|RestFieldNames] = RestFieldNames0, {NextField,Typedef} = lists:keyfind(NextField, 1, Fields), - enc_obj(Erule, Typedef, RestFieldNames, Aligned) + enc_obj(Erule, Typedef, TypeName, + RestFieldNames, Aligned) end; #'Externaltypereference'{module=Mod,type=Type} -> Func = enc_func(Type), @@ -1124,6 +1104,11 @@ enc_obj(Erule, Obj, RestFieldNames0, Aligned) -> end end. +gen_enc_obj(Erules, Name, Typename, Type) -> + emit([{asis,Name},"(Val) ->",nl]), + InnerType = asn1ct_gen:get_inner(Type#type.def), + asn1ct_gen:gen_encode_constructed(Erules, Typename, + InnerType, Type). gen_dec_components_call(Erule, TopType, {Root,ExtList}, DecInfObj, Ext, NumberOfOptionals) -> diff --git a/lib/asn1/src/asn1ct_gen.erl b/lib/asn1/src/asn1ct_gen.erl index 2ef8466309..0e41aa1a7a 100644 --- a/lib/asn1/src/asn1ct_gen.erl +++ b/lib/asn1/src/asn1ct_gen.erl @@ -531,34 +531,30 @@ gen_part_decode_funcs({primitive,bif},_TypeName, gen_part_decode_funcs(WhatKind,_TypeName,{_,Directive,_,_}) -> throw({error,{asn1,{"Not implemented yet",WhatKind," partial incomplete directive:",Directive}}}). - -gen_types(Erules,Tname,{RootL1,ExtList,RootL2}) +%% EncDec = 'gen_encode' | 'gen_decode' +gen_types(Erules, Tname, {RootL1,ExtList,RootL2}, EncDec) when is_list(RootL1), is_list(RootL2) -> - gen_types(Erules,Tname,RootL1), - Rtmod = ct_gen_module(Erules), - gen_types(Erules,Tname,Rtmod:extaddgroup2sequence(ExtList)), - gen_types(Erules,Tname,RootL2); -gen_types(Erules,Tname,{RootList,ExtList}) when is_list(RootList) -> - gen_types(Erules,Tname,RootList), + gen_types(Erules, Tname, RootL1, EncDec), Rtmod = ct_gen_module(Erules), - gen_types(Erules,Tname,Rtmod:extaddgroup2sequence(ExtList)); -gen_types(Erules,Tname,[{'EXTENSIONMARK',_,_}|Rest]) -> - gen_types(Erules,Tname,Rest); -gen_types(Erules,Tname,[ComponentType|Rest]) -> + gen_types(Erules, Tname, Rtmod:extaddgroup2sequence(ExtList), EncDec), + gen_types(Erules, Tname, RootL2, EncDec); +gen_types(Erules, Tname, {RootList,ExtList}, EncDec) when is_list(RootList) -> + gen_types(Erules, Tname, RootList, EncDec), Rtmod = ct_gen_module(Erules), + gen_types(Erules, Tname, Rtmod:extaddgroup2sequence(ExtList), EncDec); +gen_types(Erules, Tname, [{'EXTENSIONMARK',_,_}|T], EncDec) -> + gen_types(Erules, Tname, T, EncDec); +gen_types(Erules, Tname, [ComponentType|T], EncDec) -> asn1ct_name:clear(), - Rtmod:gen_encode(Erules,Tname,ComponentType), - asn1ct_name:clear(), - Rtmod:gen_decode(Erules,Tname,ComponentType), - gen_types(Erules,Tname,Rest); -gen_types(_,_,[]) -> - true; -gen_types(Erules,Tname,Type) when is_record(Type,type) -> Rtmod = ct_gen_module(Erules), + Rtmod:EncDec(Erules, Tname, ComponentType), + gen_types(Erules, Tname, T, EncDec); +gen_types(_, _, [], _) -> + ok; +gen_types(Erules, Tname, #type{}=Type, EncDec) -> asn1ct_name:clear(), - Rtmod:gen_encode(Erules,Tname,Type), - asn1ct_name:clear(), - Rtmod:gen_decode(Erules,Tname,Type). + Rtmod = ct_gen_module(Erules), + Rtmod:EncDec(Erules, Tname, Type). %% VARIOUS GENERATOR STUFF %% ************************************************* @@ -599,25 +595,25 @@ gen_encode_constructed(Erules,Typename,InnerType,D) when is_record(D,type) -> 'SET' -> Rtmod:gen_encode_set(Erules,Typename,D), #'SET'{components=Components} = D#type.def, - gen_types(Erules,Typename,Components); + gen_types(Erules, Typename, Components, gen_encode); 'SEQUENCE' -> Rtmod:gen_encode_sequence(Erules,Typename,D), #'SEQUENCE'{components=Components} = D#type.def, - gen_types(Erules,Typename,Components); + gen_types(Erules, Typename, Components, gen_encode); 'CHOICE' -> Rtmod:gen_encode_choice(Erules,Typename,D), {_,Components} = D#type.def, - gen_types(Erules,Typename,Components); + gen_types(Erules, Typename, Components, gen_encode); 'SEQUENCE OF' -> Rtmod:gen_encode_sof(Erules,Typename,InnerType,D), {_,Type} = D#type.def, NameSuffix = asn1ct_gen:constructed_suffix(InnerType,Type#type.def), - gen_types(Erules,[NameSuffix|Typename],Type); + gen_types(Erules, [NameSuffix|Typename], Type, gen_encode); 'SET OF' -> Rtmod:gen_encode_sof(Erules,Typename,InnerType,D), {_,Type} = D#type.def, NameSuffix = asn1ct_gen:constructed_suffix(InnerType,Type#type.def), - gen_types(Erules,[NameSuffix|Typename],Type); + gen_types(Erules, [NameSuffix|Typename], Type, gen_encode); _ -> exit({nyi,InnerType}) end; @@ -630,20 +626,29 @@ gen_decode_constructed(Erules,Typename,InnerType,D) when is_record(D,type) -> asn1ct:step_in_constructed(), %% updates namelist for exclusive decode case InnerType of 'SET' -> - Rtmod:gen_decode_set(Erules,Typename,D); + Rtmod:gen_decode_set(Erules,Typename,D), + #'SET'{components=Components} = D#type.def, + gen_types(Erules, Typename, Components, gen_decode); 'SEQUENCE' -> - Rtmod:gen_decode_sequence(Erules,Typename,D); + Rtmod:gen_decode_sequence(Erules,Typename,D), + #'SEQUENCE'{components=Components} = D#type.def, + gen_types(Erules, Typename, Components, gen_decode); 'CHOICE' -> - Rtmod:gen_decode_choice(Erules,Typename,D); + Rtmod:gen_decode_choice(Erules,Typename,D), + {_,Components} = D#type.def, + gen_types(Erules, Typename, Components, gen_decode); 'SEQUENCE OF' -> - Rtmod:gen_decode_sof(Erules,Typename,InnerType,D); + Rtmod:gen_decode_sof(Erules,Typename,InnerType,D), + {_,#type{def=Def}=Type} = D#type.def, + NameSuffix = asn1ct_gen:constructed_suffix(InnerType, Def), + gen_types(Erules, [NameSuffix|Typename], Type, gen_decode); 'SET OF' -> - Rtmod:gen_decode_sof(Erules,Typename,InnerType,D); - _ -> - exit({nyi,InnerType}) + Rtmod:gen_decode_sof(Erules,Typename,InnerType,D), + {_,#type{def=Def}=Type} = D#type.def, + NameSuffix = asn1ct_gen:constructed_suffix(InnerType, Def), + gen_types(Erules, [NameSuffix|Typename], Type, gen_decode) end; - gen_decode_constructed(Erules,Typename,InnerType,D) when is_record(D,typedef) -> gen_decode_constructed(Erules,Typename,InnerType,D#typedef.typespec). diff --git a/lib/asn1/src/asn1ct_gen_ber_bin_v2.erl b/lib/asn1/src/asn1ct_gen_ber_bin_v2.erl index e51b0898be..37413298a7 100644 --- a/lib/asn1/src/asn1ct_gen_ber_bin_v2.erl +++ b/lib/asn1/src/asn1ct_gen_ber_bin_v2.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2002-2013. All Rights Reserved. +%% Copyright Ericsson AB 2002-2014. 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 @@ -24,7 +24,7 @@ -include("asn1_records.hrl"). --export([decode_class/1, decode_type/1]). +-export([decode_class/1]). -export([gen_encode/2,gen_encode/3,gen_decode/2,gen_decode/3]). -export([gen_encode_prim/4]). -export([gen_dec_prim/3]). @@ -278,8 +278,7 @@ emit_enc_enumerated_cases(L, Tags) -> emit_enc_enumerated_cases(L, Tags, noext). emit_enc_enumerated_cases([{EnumName,EnumVal}|T], Tags, Ext) -> - Bytes = encode_pos_integer(EnumVal, []), - Len = length(Bytes), + {Bytes,Len} = encode_integer(EnumVal), emit([{asis,EnumName}," -> ", {call,ber,encode_tags,[Tags,{asis,Bytes},Len]},";",nl]), emit_enc_enumerated_cases(T, Tags, Ext); @@ -288,10 +287,25 @@ emit_enc_enumerated_cases([], _Tags, _Ext) -> emit([{curr,enumval}," -> exit({error,{asn1, {enumerated_not_in_range,",{curr, enumval},"}}})"]), emit([nl,"end"]). -encode_pos_integer(0, [B|_Acc] = L) when B < 128 -> +encode_integer(Val) -> + Bytes = + if + Val >= 0 -> + encode_integer_pos(Val, []); + true -> + encode_integer_neg(Val, []) + end, + {Bytes,length(Bytes)}. + +encode_integer_pos(0, [B|_Acc]=L) when B < 128 -> L; -encode_pos_integer(N, Acc) -> - encode_pos_integer(N bsr 8, [N band 255|Acc]). +encode_integer_pos(N, Acc) -> + encode_integer_pos((N bsr 8), [N band 16#ff| Acc]). + +encode_integer_neg(-1, [B1|_T]=L) when B1 > 127 -> + L; +encode_integer_neg(N, Acc) -> + encode_integer_neg(N bsr 8, [N band 16#ff|Acc]). %%=============================================================================== %%=============================================================================== @@ -1179,23 +1193,25 @@ gen_objset_enc(_,_,{unique,undefined},_,_,_,_,_) -> gen_objset_enc(Erules, ObjSetName, UniqueName, [{ObjName,Val,Fields}|T], ClName, ClFields, NthObj,Acc)-> - emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl]), CurrMod = get(currmod), {InternalFunc,NewNthObj}= case ObjName of {no_mod,no_name} -> - gen_inlined_enc_funs(Fields,ClFields,ObjSetName,NthObj); + gen_inlined_enc_funs(Fields, ClFields, ObjSetName, Val, NthObj); {CurrMod,Name} -> - emit({" fun 'enc_",Name,"'/3"}), + emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl, + " fun 'enc_",Name,"'/3;",nl]), {[],NthObj}; {ModuleName,Name} -> + emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl]), emit_ext_fun(enc,ModuleName,Name), + emit([";",nl]), {[],NthObj}; _ -> - emit({" fun 'enc_",ObjName,"'/3"}), + emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl, + " fun 'enc_",ObjName,"'/3;",nl]), {[],NthObj} end, - emit({";",nl}), gen_objset_enc(Erules, ObjSetName, UniqueName, T, ClName, ClFields, NewNthObj, InternalFunc ++ Acc); %% See X.681 Annex E for the following case @@ -1223,13 +1239,14 @@ emit_default_getenc(ObjSetName,UniqueName) -> %% gen_inlined_enc_funs for each object iterates over all fields of a %% class, and for each typefield it checks if the object has that %% field and emits the proper code. -gen_inlined_enc_funs(Fields, [{typefield,_,_}|_]=T, ObjSetName, NthObj) -> - emit([indent(3),"fun(Type, Val, _RestPrimFieldName) ->",nl, +gen_inlined_enc_funs(Fields, [{typefield,_,_}|_]=T, ObjSetName, Val, NthObj) -> + emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl, + indent(3),"fun(Type, Val, _RestPrimFieldName) ->",nl, indent(6),"case Type of",nl]), gen_inlined_enc_funs1(Fields, T, ObjSetName, [], NthObj, []); -gen_inlined_enc_funs(Fields,[_|Rest],ObjSetName,NthObj) -> - gen_inlined_enc_funs(Fields,Rest,ObjSetName,NthObj); -gen_inlined_enc_funs(_,[],_,NthObj) -> +gen_inlined_enc_funs(Fields, [_|Rest], ObjSetName, Val, NthObj) -> + gen_inlined_enc_funs(Fields, Rest, ObjSetName, Val, NthObj); +gen_inlined_enc_funs(_, [], _, _, NthObj) -> {[],NthObj}. gen_inlined_enc_funs1(Fields, [{typefield,Name,_}|Rest], ObjSetName, @@ -1276,7 +1293,7 @@ gen_inlined_enc_funs1(Fields,[_|Rest], ObjSetName, Sep, NthObj, Acc)-> gen_inlined_enc_funs1(Fields, Rest, ObjSetName, Sep, NthObj, Acc); gen_inlined_enc_funs1(_, [], _, _, NthObj, Acc) -> emit([nl,indent(6),"end",nl, - indent(3),"end"]), + indent(3),"end;",nl]), {Acc,NthObj}. emit_enc_open_type(I) -> @@ -1358,23 +1375,25 @@ gen_objset_dec(_,_,{unique,undefined},_,_,_,_) -> ok; gen_objset_dec(Erules, ObjSName, UniqueName, [{ObjName,Val,Fields}|T], ClName, ClFields, NthObj)-> - emit(["'getdec_",ObjSName,"'(",{asis,Val},") ->",nl]), CurrMod = get(currmod), NewNthObj= case ObjName of {no_mod,no_name} -> - gen_inlined_dec_funs(Fields,ClFields,ObjSName,NthObj); + gen_inlined_dec_funs(Fields,ClFields,ObjSName,Val,NthObj); {CurrMod,Name} -> - emit([" fun 'dec_",Name,"'/3"]), + emit(["'getdec_",ObjSName,"'(",{asis,Val},") ->",nl, + " fun 'dec_",Name,"'/3;", nl]), NthObj; {ModuleName,Name} -> + emit(["'getdec_",ObjSName,"'(",{asis,Val},") ->",nl]), emit_ext_fun(dec,ModuleName,Name), + emit([";",nl]), NthObj; _ -> - emit([" fun 'dec_",ObjName,"'/3"]), + emit(["'getdec_",ObjSName,"'(",{asis,Val},") ->",nl, + " fun 'dec_",ObjName,"'/3;", nl]), NthObj end, - emit([";",nl]), gen_objset_dec(Erules, ObjSName, UniqueName, T, ClName, ClFields, NewNthObj); gen_objset_dec(_,ObjSetName,_UniqueName,['EXTENSIONMARK'],_ClName, @@ -1394,10 +1413,15 @@ emit_default_getdec(ObjSetName,UniqueName) -> emit(["'getdec_",ObjSetName,"'(ErrV) ->",nl]), emit([indent(2), "fun(C,V,_) -> exit({{component,C},{value,V},{unique_name_and_value,",{asis,UniqueName},", ErrV}}) end"]). -gen_inlined_dec_funs(Fields, ClFields, ObjSetName, NthObj) -> +gen_inlined_dec_funs(Fields, [{typefield,_,_}|_]=ClFields, ObjSetName, Val, NthObj) -> + emit(["'getdec_",ObjSetName,"'(",{asis,Val},") ->",nl]), emit([indent(3),"fun(Type, Bytes, _RestPrimFieldName) ->",nl, indent(6),"case Type of",nl]), - gen_inlined_dec_funs1(Fields, ClFields, ObjSetName, "", NthObj). + gen_inlined_dec_funs1(Fields, ClFields, ObjSetName, "", NthObj); +gen_inlined_dec_funs(Fields, [_|ClFields], ObjSetName, Val, NthObj) -> + gen_inlined_dec_funs(Fields, ClFields, ObjSetName, Val, NthObj); +gen_inlined_dec_funs(_, _, _, _,NthObj) -> + NthObj. gen_inlined_dec_funs1(Fields, [{typefield,Name,Prop}|Rest], ObjSetName, Sep0, NthObj) -> @@ -1439,7 +1463,7 @@ gen_inlined_dec_funs1(Fields, [_|Rest], ObjSetName, Sep, NthObj)-> gen_inlined_dec_funs1(Fields, Rest, ObjSetName, Sep, NthObj); gen_inlined_dec_funs1(_, [], _, _, NthObj) -> emit([nl,indent(6),"end",nl, - indent(3),"end"]), + indent(3),"end;",nl]), NthObj. emit_dec_open_type(I) -> @@ -1534,39 +1558,6 @@ decode_class('CONTEXT') -> decode_class('PRIVATE') -> ?PRIVATE. -decode_type('BOOLEAN') -> 1; -decode_type('INTEGER') -> 2; -decode_type('BIT STRING') -> 3; -decode_type('OCTET STRING') -> 4; -decode_type('NULL') -> 5; -decode_type('OBJECT IDENTIFIER') -> 6; -decode_type('ObjectDescriptor') -> 7; -decode_type('EXTERNAL') -> 8; -decode_type('REAL') -> 9; -decode_type('ENUMERATED') -> 10; -decode_type('EMBEDDED_PDV') -> 11; -decode_type('UTF8String') -> 12; -decode_type('RELATIVE-OID') -> 13; -decode_type('SEQUENCE') -> 16; -decode_type('SEQUENCE OF') -> 16; -decode_type('SET') -> 17; -decode_type('SET OF') -> 17; -decode_type('NumericString') -> 18; -decode_type('PrintableString') -> 19; -decode_type('TeletexString') -> 20; -decode_type('T61String') -> 20; -decode_type('VideotexString') -> 21; -decode_type('IA5String') -> 22; -decode_type('UTCTime') -> 23; -decode_type('GeneralizedTime') -> 24; -decode_type('GraphicString') -> 25; -decode_type('VisibleString') -> 26; -decode_type('GeneralString') -> 27; -decode_type('UniversalString') -> 28; -decode_type('BMPString') -> 30; -decode_type('CHOICE') -> 'CHOICE'; % choice gets the tag from the actual alternative -decode_type(Else) -> exit({error,{asn1,{unrecognized_type,Else}}}). - mkfuncname(#'Externaltypereference'{module=Mod,type=EType}, DecOrEnc) -> CurrMod = get(currmod), case CurrMod of diff --git a/lib/asn1/src/asn1ct_imm.erl b/lib/asn1/src/asn1ct_imm.erl index bdd14871d1..5bf69e9294 100644 --- a/lib/asn1/src/asn1ct_imm.erl +++ b/lib/asn1/src/asn1ct_imm.erl @@ -499,6 +499,8 @@ per_dec_enumerated_fix_list([], Tail, _) -> Tail. per_dec_integer_1([{'SingleValue',Value}], _Aligned) -> {value,Value}; +per_dec_integer_1([{'ValueRange',{'MIN',_}}], Aligned) -> + per_dec_unconstrained(Aligned); per_dec_integer_1([{'ValueRange',{Lb,'MAX'}}], Aligned) when is_integer(Lb) -> per_decode_semi_constrained(Lb, Aligned); per_dec_integer_1([{'ValueRange',{Lb,Ub}}], Aligned) when is_integer(Lb), @@ -1094,6 +1096,9 @@ per_enc_integer_1(Val0, [Constr], Aligned) -> per_enc_integer_2(Val, {'SingleValue',Sv}, Aligned) when is_integer(Sv) -> per_enc_constrained(Val, Sv, Sv, Aligned); +per_enc_integer_2(Val, {'ValueRange',{'MIN',Ub}}, Aligned) + when is_integer(Ub) -> + {[],{lt,Val,Ub+1},per_enc_unconstrained(Val, Aligned)}; per_enc_integer_2(Val0, {'ValueRange',{Lb,'MAX'}}, Aligned) when is_integer(Lb) -> {Prefix,Val} = sub_lb(Val0, Lb), @@ -1580,7 +1585,7 @@ do_combine_put_bits(_, _, _) -> throw(impossible). debit(Budget0, Alternatives) -> - case Budget0 - log2(Alternatives) of + case Budget0 - math:log2(Alternatives) of Budget when Budget > 0.0 -> Budget; _ -> @@ -1593,8 +1598,6 @@ num_clauses([_|T], N) -> num_clauses(T, N+1); num_clauses([], N) -> N. -log2(N) -> - math:log(N) / math:log(2.0). collect_put_bits(Imm) -> lists:splitwith(fun({put_bits,V,_,_}) when is_integer(V) -> true; @@ -1919,16 +1922,7 @@ enc_opt(nil, St) -> enc_opt({seq,H0,T0}, St0) -> {H,St1} = enc_opt(H0, St0), {T,St} = enc_opt(T0, St1), - case {H,T} of - {none,_} -> - {T,St}; - {{list,Imm,Data}, - {seq,{call,per,complete,[Data],_},_}} -> - %% Get rid of any explicit 'align' added by per_enc_open_type/2. - {{seq,{list,remove_trailing_align(Imm),Data},T},St}; - {_,_} -> - {{seq,H,T},St} - end; + {enc_opt_seq(H, T),St}; enc_opt({set,_,_}=Imm, St) -> {Imm,St#ost{t=undefined}}; enc_opt({sub,Src0,Int,Dst}, St0) -> @@ -1962,6 +1956,28 @@ remove_trailing_align({seq,H,T}) -> {seq,H,remove_trailing_align(T)}; remove_trailing_align(Imm) -> Imm. +enc_opt_seq(none, T) -> + T; +enc_opt_seq({list,Imm,Data}, {seq,{call,per,complete,[Data],_},_}=T) -> + %% Get rid of any explicit 'align' added by per_enc_open_type/2. + {seq,{list,remove_trailing_align(Imm),Data},T}; +enc_opt_seq({call,_,_,_,{var,_}=Dst}=H, T) -> + case is_var_unused(Dst, T) of + false -> {seq,H,T}; + true -> T + end; +enc_opt_seq(H, T) -> + {seq,H,T}. + +is_var_unused(_, align) -> + true; +is_var_unused(V, {call,_,_,Args}) -> + not lists:member(V, Args); +is_var_unused(V, {cons,H,T}) -> + is_var_unused(V, H) andalso is_var_unused(V, T); +is_var_unused(_, _) -> + false. + bit_size_propagate(Bin, Type, St) -> case t_range(Type) of any -> diff --git a/lib/asn1/src/asn1ct_parser.yrl b/lib/asn1/src/asn1ct_parser.yrl deleted file mode 100644 index 083162f191..0000000000 --- a/lib/asn1/src/asn1ct_parser.yrl +++ /dev/null @@ -1,1177 +0,0 @@ -%%<copyright> -%% <year>1997-2008</year> -%% <holder>Ericsson AB, All Rights Reserved</holder> -%%</copyright> -%%<legalnotice> -%% 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. -%% -%% The Initial Developer of the Original Code is Ericsson AB. -%%</legalnotice>
-%%
-Nonterminals
-ModuleDefinition ModuleIdentifier DefinitiveIdentifier DefinitiveObjIdComponentList
-DefinitiveObjIdComponent TagDefault ExtensionDefault
-ModuleBody Exports SymbolsExported Imports SymbolsImported
-SymbolsFromModuleList SymbolsFromModule GlobalModuleReference AssignedIdentifier SymbolList
-Symbol Reference AssignmentList Assignment
-ExtensionAndException
-ComponentTypeLists
-Externaltypereference Externalvaluereference DefinedType DefinedValue
-AbsoluteReference ItemSpec ItemId ComponentId TypeAssignment
-ValueAssignment
-% ValueSetTypeAssignment
-ValueSet
-Type BuiltinType NamedType ReferencedType
-Value ValueNotNull BuiltinValue ReferencedValue NamedValue
-% BooleanType
-BooleanValue IntegerType NamedNumberList NamedNumber SignedNumber
-% inlined IntegerValue
-EnumeratedType
-% inlined Enumerations
-Enumeration EnumerationItem
-% inlined EnumeratedValue
-% RealType
-RealValue NumericRealValue SpecialRealValue BitStringType
-% inlined BitStringValue
-IdentifierList
-% OctetStringType
-% inlined OctetStringValue
-% NullType NullValue
-SequenceType ComponentTypeList ComponentType
-% SequenceValue SequenceOfValue
-ComponentValueList SequenceOfType
-SAndSOfValue ValueList SetType
-% SetValue SetOfValue
-SetOfType
-ChoiceType
-% AlternativeTypeList made common with ComponentTypeList
-ChoiceValue
-AnyValue
-AnyDefBy
-SelectionType
-TaggedType Tag ClassNumber Class
-% redundant TaggedValue
-% EmbeddedPDVType EmbeddedPDVValue ExternalType ExternalValue ObjectIdentifierType
-ObjectIdentifierValue ObjIdComponentList ObjIdComponent
-% NameForm NumberForm NameAndNumberForm
-CharacterStringType
-RestrictedCharacterStringValue CharacterStringList
-% CharSyms CharsDefn
-Quadruple
-% Group Plane Row Cell
-Tuple
-% TableColumn TableRow
-% UnrestrictedCharacterString
-CharacterStringValue
-% UnrestrictedCharacterStringValue
-ConstrainedType Constraint ConstraintSpec TypeWithConstraint
-ElementSetSpecs ElementSetSpec
-%GeneralConstraint
-UserDefinedConstraint UserDefinedConstraintParameter
-UserDefinedConstraintParameters
-ExceptionSpec
-ExceptionIdentification
-Unions
-UnionMark
-UElems
-Intersections
-IntersectionElements
-IntersectionMark
-IElems
-Elements
-Elems
-SubTypeElements
-Exclusions
-LowerEndpoint
-UpperEndpoint
-LowerEndValue
-UpperEndValue
-TypeConstraints NamedConstraint PresenceConstraint
-
-ParameterizedTypeAssignment
-ParameterList
-Parameters
-Parameter
-ParameterizedType
-
-% X.681
-ObjectClassAssignment ObjectClass ObjectClassDefn
-FieldSpecs FieldSpec OptionalitySpec WithSyntaxSpec
-TokenOrGroupSpecs TokenOrGroupSpec
-SyntaxList OptionalGroup RequiredToken Word
-TypeOptionalitySpec
-ValueOrObjectOptSpec
-VSetOrOSetOptSpec
-ValueOptionalitySpec
-ObjectOptionalitySpec
-ValueSetOptionalitySpec
-ObjectSetOptionalitySpec
-% X.681 chapter 15
-InformationFromObjects
-ValueFromObject
-%ValueSetFromObjects
-TypeFromObject
-%ObjectFromObject
-%ObjectSetFromObjects
-ReferencedObjects
-FieldName
-PrimitiveFieldName
-
-ObjectAssignment
-ObjectSetAssignment
-ObjectSet
-ObjectSetElements
-Object
-ObjectDefn
-DefaultSyntax
-DefinedSyntax
-FieldSettings
-FieldSetting
-DefinedSyntaxTokens
-DefinedSyntaxToken
-Setting
-DefinedObject
-ObjectFromObject
-ObjectSetFromObjects
-ParameterizedObject
-ExternalObjectReference
-DefinedObjectSet
-DefinedObjectClass
-ExternalObjectClassReference
-
-% X.682
-TableConstraint
-ComponentRelationConstraint
-ComponentIdList
-
-% X.683
-ActualParameter
-.
-
-%UsefulType.
-
-Terminals
-'ABSENT' 'ABSTRACT-SYNTAX' 'ALL' 'ANY'
-'APPLICATION' 'AUTOMATIC' 'BEGIN' 'BIT'
-'BOOLEAN' 'BY' 'CHARACTER' 'CHOICE' 'CLASS' 'COMPONENT'
-'COMPONENTS' 'CONSTRAINED' 'DEFAULT' 'DEFINED' 'DEFINITIONS'
-'EMBEDDED' 'END' 'ENUMERATED' 'EXCEPT' 'EXPLICIT'
-'EXPORTS' 'EXTENSIBILITY' 'EXTERNAL' 'FALSE' 'FROM' 'GeneralizedTime'
-'TYPE-IDENTIFIER'
-'IDENTIFIER' 'IMPLICIT' 'IMPLIED' 'IMPORTS'
-'INCLUDES' 'INSTANCE' 'INTEGER' 'INTERSECTION'
-'MAX' 'MIN' 'MINUS-INFINITY' 'NULL'
-'OBJECT' 'ObjectDescriptor' 'OCTET' 'OF' 'OPTIONAL' 'PDV' 'PLUS-INFINITY'
-'PRESENT' 'PRIVATE' 'REAL' 'SEQUENCE' 'SET' 'SIZE'
-'STRING' 'SYNTAX' 'TAGS' 'TRUE' 'UNION'
-'UNIQUE' 'UNIVERSAL' 'UTCTime' 'WITH'
-'{' '}' '(' ')' '.' '::=' ';' ',' '@' '*' '-' '[' ']'
-'!' '..' '...' '|' '<' ':' '^'
-number identifier typereference restrictedcharacterstringtype
-bstring hstring cstring typefieldreference valuefieldreference
-objectclassreference word.
-
-Rootsymbol ModuleDefinition.
-Endsymbol '$end'.
-
-Left 300 'EXCEPT'.
-Left 200 '^'.
-Left 200 'INTERSECTION'.
-Left 100 '|'.
-Left 100 'UNION'.
-
-
-ModuleDefinition -> ModuleIdentifier
- 'DEFINITIONS'
- TagDefault
- ExtensionDefault
- '::='
- 'BEGIN'
- ModuleBody
- 'END' :
- {'ModuleBody',Ex,Im,Types} = '$7',
- {{typereference,Pos,Name},Defid} = '$1',
- #module{
- pos= Pos,
- name= Name,
- defid= Defid,
- tagdefault='$3',
- extensiondefault='$4',
- exports=Ex,
- imports=Im,
- typeorval=Types}.
-% {module, '$1','$3','$6'}.
-% Results always in a record of type module defined in asn_records.hlr
-
-ModuleIdentifier -> typereference DefinitiveIdentifier :
- put(asn1_module,'$1'#typereference.val),
- {'$1','$2'}.
-
-DefinitiveIdentifier -> '{' DefinitiveObjIdComponentList '}' : '$2' .
-DefinitiveIdentifier -> '$empty': [].
-
-DefinitiveObjIdComponentList -> DefinitiveObjIdComponent : ['$1'].
-DefinitiveObjIdComponentList -> DefinitiveObjIdComponent DefinitiveObjIdComponentList : ['$1'|'$2'].
-
-DefinitiveObjIdComponent -> identifier : '$1' . %expanded->
-% DefinitiveObjIdComponent -> NameForm : '$1' .
-DefinitiveObjIdComponent -> number : '$1' . %expanded->
-% DefinitiveObjIdComponent -> DefinitiveNumberForm : 'fix' .
-DefinitiveObjIdComponent -> identifier '(' number ')' : {'$1','$3'} . %expanded->
-% DefinitiveObjIdComponent -> DefinitiveNameAndNumberForm : {'$1','$3'} .
-
-% DefinitiveNumberForm -> number : 'fix' .
-
-% DefinitiveNameAndNumberForm -> identifier '(' DefinitiveNumberForm ')' : 'fix' .
-
-TagDefault -> 'EXPLICIT' 'TAGS' : put(tagdefault,'EXPLICIT'),'EXPLICIT' .
-TagDefault -> 'IMPLICIT' 'TAGS' : put(tagdefault,'IMPLICIT'),'IMPLICIT' .
-TagDefault -> 'AUTOMATIC' 'TAGS' : put(tagdefault,'AUTOMATIC'),'AUTOMATIC' .
-TagDefault -> '$empty': put(tagdefault,'EXPLICIT'),'EXPLICIT'. % because this is the default
-
-ExtensionDefault -> 'EXTENSIBILITY' 'IMPLIED' : 'IMPLIED'.
-ExtensionDefault -> '$empty' : 'false'. % because this is the default
-
-ModuleBody -> Exports Imports AssignmentList : {'ModuleBody','$1','$2','$3'}.
-ModuleBody -> '$empty' : {'ModuleBody',nil,nil,[]}.
-
-Exports -> 'EXPORTS' SymbolList ';' : {exports,'$2'}.
-Exports -> 'EXPORTS' ';' : {exports,[]}.
-Exports -> '$empty' : {exports,all} .
-
-% inlined above SymbolsExported -> SymbolList : '$1'.
-% inlined above SymbolsExported -> '$empty' : [].
-
-Imports -> 'IMPORTS' SymbolsFromModuleList ';' : {imports,'$2'}.
-Imports -> 'IMPORTS' ';' : {imports,[]}.
-Imports -> '$empty' : {imports,[]} .
-
-% inlined above SymbolsImported -> SymbolsFromModuleList : '$1'.
-% inlined above SymbolsImported -> '$empty' : [].
-
-SymbolsFromModuleList -> SymbolsFromModule :['$1'].
-% SymbolsFromModuleList -> SymbolsFromModuleList SymbolsFromModule :$1.%changed
-SymbolsFromModuleList -> SymbolsFromModule SymbolsFromModuleList :['$1'|'$2'].
-
-% expanded SymbolsFromModule -> SymbolList 'FROM' GlobalModuleReference : #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-SymbolsFromModule -> SymbolList 'FROM' typereference : #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-SymbolsFromModule -> SymbolList 'FROM' typereference '{' ValueList '}': #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-%SymbolsFromModule -> SymbolList 'FROM' typereference identifier: #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-%SymbolsFromModule -> SymbolList 'FROM' typereference Externalvaluereference: #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-%SymbolsFromModule -> SymbolList 'FROM' typereference DefinedValue: #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-
-% inlined GlobalModuleReference -> typereference AssignedIdentifier : {'$1','$2'} .
-
-% inlined above AssignedIdentifier -> '{' ValueList '}' : '$2'.
-% replaced AssignedIdentifier -> '{' DefinedValue ObjIdComponentList '}' :{'$2','$3'}.
-% not necessary , replaced by SAndSOfValue AssignedIdentifier -> ObjectIdentifierValue :'$1'.
-% AssignedIdentifier -> DefinedValue : '$1'.
-% inlined AssignedIdentifier -> '$empty' : undefined.
-
-SymbolList -> Symbol : ['$1'].
-SymbolList -> Symbol ',' SymbolList :['$1'|'$3'].
-
-Symbol -> Reference :'$1'.
-% later Symbol -> ParameterizedReference :'$1'.
-
-Reference -> typereference :'$1'.
-Reference -> identifier:'$1'.
-Reference -> typereference '{' '}':'$1'.
-Reference -> Externaltypereference '{' '}':'$1'.
-
-% later Reference -> objectclassreference :'$1'.
-% later Reference -> objectreference :'$1'.
-% later Reference -> objectsetreference :'$1'.
-
-AssignmentList -> Assignment : ['$1'].
-% modified AssignmentList -> AssignmentList Assignment : '$1'.
-AssignmentList -> Assignment AssignmentList : ['$1'|'$2'].
-
-Assignment -> TypeAssignment : '$1'.
-Assignment -> ValueAssignment : '$1'.
-% later Assignment -> ValueSetTypeAssignment : '$1'.
-Assignment -> ObjectClassAssignment : '$1'.
-% later Assignment -> ObjectAssignment : '$1'.
-% combined with ValueAssignment Assignment -> ObjectAssignment : '$1'.
-Assignment -> ObjectSetAssignment : '$1'.
-Assignment -> ParameterizedTypeAssignment : '$1'.
-%Assignment -> ParameterizedValueAssignment : '$1'.
-%Assignment -> ParameterizedValueSetTypeAssignment : '$1'.
-%Assignment -> ParameterizedObjectClassAssignment : '$1'.
-
-ObjectClassAssignment -> typereference '::=' 'CLASS' '{' FieldSpecs '}' :
-%ObjectClassAssignment -> objectclassreference '::=' 'CLASS' '{' FieldSpecs '}' :
- #typedef{pos=element(2,'$1'),name=element(3,'$1'),typespec={'CLASS','$5',[]}}.
-ObjectClassAssignment -> typereference '::=' 'CLASS' '{' FieldSpecs '}' WithSyntaxSpec :
-%ObjectClassAssignment -> objectclassreference '::=' 'CLASS' '{' FieldSpecs '}' WithSyntaxSpec :
- #typedef{pos=element(2,'$1'),name=element(3,'$1'),typespec={'CLASS','$5','$7'}}.
-
-FieldSpecs -> FieldSpec : ['$1'].
-FieldSpecs -> FieldSpec ',' FieldSpecs : ['$1'|'$3'].
-
-FieldSpec -> typefieldreference TypeOptionalitySpec : {typefield,'$1','$2'}.
-
-FieldSpec -> valuefieldreference Type 'UNIQUE' ValueOrObjectOptSpec :
- {fixedtypevaluefield,'$1','$2','UNIQUE','$4'}.
-FieldSpec -> valuefieldreference Type ValueOrObjectOptSpec :
- {fixedtypevaluefield,'$1','$2',undefined,'$3'}.
-
-FieldSpec -> valuefieldreference typefieldreference ValueOrObjectOptSpec :
- {variabletypevaluefield, '$1','$2','$3'}.
-
-FieldSpec -> typefieldreference typefieldreference VSetOrOSetOptSpec :
- {variabletypevaluesetfield, '$1','$2','$3'}.
-
-FieldSpec -> typefieldreference Type VSetOrOSetOptSpec :
- {fixedtypevaluesetfield, '$1','$2','$3'}.
-
-TypeOptionalitySpec -> 'DEFAULT' Type : {'DEFAULT','$2'}.
-TypeOptionalitySpec -> 'OPTIONAL' : 'OPTIONAL'.
-TypeOptionalitySpec -> '$empty' : 'MANDATORY'.
-
-ValueOrObjectOptSpec -> ValueOptionalitySpec : '$1'.
-ValueOrObjectOptSpec -> ObjectOptionalitySpec : '$1'.
-ValueOrObjectOptSpec -> 'OPTIONAL' : 'OPTIONAL'.
-ValueOrObjectOptSpec -> '$empty' : 'MANDATORY'.
-
-ValueOptionalitySpec -> 'DEFAULT' Value :
- case '$2' of
- {identifier,_,Id} -> {'DEFAULT',Id};
- _ -> {'DEFAULT','$2'}
- end.
-
-%ObjectOptionalitySpec -> 'DEFAULT' Object :{'DEFAULT','$1'}.
-ObjectOptionalitySpec -> 'DEFAULT' '{' FieldSetting ',' FieldSettings '}' :
- {'DEFAULT',{object,['$2'|'$4']}}.
-ObjectOptionalitySpec -> 'DEFAULT' '{' FieldSetting '}' :
- {'DEFAULT',{object, ['$2']}}.
-%ObjectOptionalitySpec -> 'DEFAULT' '{' DefinedSyntaxTokens '}' :
-% {'DEFAULT',{object, '$2'}}.
-ObjectOptionalitySpec -> 'DEFAULT' ObjectFromObject :
- {'DEFAULT',{object, '$2'}}.
-
-
-VSetOrOSetOptSpec -> ValueSetOptionalitySpec : '$1'.
-%VSetOrOSetOptSpec -> ObjectSetOptionalitySpec : '$1'.
-VSetOrOSetOptSpec -> 'OPTIONAL' : 'OPTIONAL'.
-VSetOrOSetOptSpec -> '$empty' : 'MANDATORY'.
-
-ValueSetOptionalitySpec -> 'DEFAULT' ValueSet : {'DEFAULT','$1'}.
-
-%ObjectSetOptionalitySpec -> 'DEFAULT' ObjectSet : {'DEFAULT','$1'}.
-
-OptionalitySpec -> 'DEFAULT' Type : {'DEFAULT','$2'}.
-OptionalitySpec -> 'DEFAULT' ValueNotNull :
- case '$2' of
- {identifier,_,Id} -> {'DEFAULT',Id};
- _ -> {'DEFAULT','$2'}
- end.
-OptionalitySpec -> 'OPTIONAL' : 'OPTIONAL'.
-OptionalitySpec -> '$empty' : 'MANDATORY'.
-
-WithSyntaxSpec -> 'WITH' 'SYNTAX' SyntaxList : {'WITH SYNTAX','$3'}.
-
-SyntaxList -> '{' TokenOrGroupSpecs '}' : '$2'.
-SyntaxList -> '{' '}' : [].
-
-TokenOrGroupSpecs -> TokenOrGroupSpec : ['$1'].
-TokenOrGroupSpecs -> TokenOrGroupSpec TokenOrGroupSpecs : ['$1'|'$2'].
-
-TokenOrGroupSpec -> RequiredToken : '$1'.
-TokenOrGroupSpec -> OptionalGroup : '$1'.
-
-OptionalGroup -> '[' TokenOrGroupSpecs ']' : '$2'.
-
-RequiredToken -> typereference : '$1'.
-RequiredToken -> Word : '$1'.
-RequiredToken -> ',' : '$1'.
-RequiredToken -> PrimitiveFieldName : '$1'.
-
-Word -> 'BY' : 'BY'.
-
-ParameterizedTypeAssignment -> typereference ParameterList '::=' Type :
- #ptypedef{pos=element(2,'$1'),name=element(3,'$1'),
- args='$2', typespec='$4'}.
-
-ParameterList -> '{' Parameters '}':'$2'.
-
-Parameters -> Parameter: ['$1'].
-Parameters -> Parameter ',' Parameters: ['$1'|'$3'].
-
-Parameter -> typereference: '$1'.
-Parameter -> Value: '$1'.
-Parameter -> Type ':' typereference: {'$1','$3'}.
-Parameter -> Type ':' Value: {'$1','$3'}.
-Parameter -> '{' typereference '}': {objectset,'$2'}.
-
-
-% Externaltypereference -> modulereference '.' typereference : {'$1','$3'} .
-Externaltypereference -> typereference '.' typereference : #'Externaltypereference'{pos=element(2,'$1'),module=element(3,'$1'),type=element(3,'$3')}.
-
-% Externalvaluereference -> modulereference '.' valuereference : {'$1','$3'} .
-% inlined Externalvaluereference -> typereference '.' identifier : #'Externalvaluereference'{pos=element(2,'$1'),module=element(3,'$1'),value=element(3,'$3')}.
-
-
-DefinedType -> Externaltypereference : '$1' .
-DefinedType -> typereference :
- #'Externaltypereference'{pos='$1'#typereference.pos,
- module= get(asn1_module),
- type= '$1'#typereference.val} .
-DefinedType -> typereference ParameterList : {pt,'$1','$2'}.
-DefinedType -> Externaltypereference ParameterList : {pt,'$1','$2'}.
-
-% ActualParameterList -> '{' ActualParameters '}' : '$1'.
-
-% ActualParameters -> ActualParameter : ['$1'].
-% ActualParameters -> ActualParameter ',' ActualParameters : ['$1'|'$3'].
-
-ActualParameter -> Type : '$1'.
-ActualParameter -> ValueNotNull : '$1'.
-ActualParameter -> ValueSet : '$1'.
-% later DefinedType -> ParameterizedType : '$1' .
-% later DefinedType -> ParameterizedValueSetType : '$1' .
-
-% inlined DefinedValue -> Externalvaluereference :'$1'.
-% inlined DefinedValue -> identifier :'$1'.
-% later DefinedValue -> ParameterizedValue :'$1'.
-
-% not referenced yet AbsoluteReference -> '@' GlobalModuleReference '.' ItemSpec :{'$2','$4'}.
-
-% not referenced yet ItemSpec -> typereference :'$1'.
-% not referenced yet ItemSpec -> ItemId '.' ComponentId : {'$1','$3'}.
-
-% not referenced yet ItemId -> ItemSpec : '$1'.
-
-% not referenced yet ComponentId -> identifier :'$1'.
-% not referenced yet ComponentId -> number :'$1'.
-% not referenced yet ComponentId -> '*' :'$1'.
-
-TypeAssignment -> typereference '::=' Type :
- #typedef{pos=element(2,'$1'),name=element(3,'$1'),typespec='$3'}.
-
-ValueAssignment -> identifier Type '::=' Value :
- #valuedef{pos=element(2,'$1'),name=element(3,'$1'),type='$2',value='$4'}.
-
-% later ValueSetTypeAssignment -> typereference Type '::=' ValueSet :{'ValueSetTypeAssignment','$1','$2','$4'}.
-
-
-ValueSet -> '{' ElementSetSpec '}' : {valueset,'$2'}.
-
-% record(type,{tag,def,constraint}).
-Type -> BuiltinType :#type{def='$1'}.
-Type -> 'NULL' :#type{def='NULL'}.
-Type -> TaggedType:'$1'.
-Type -> ReferencedType:#type{def='$1'}. % change notag later
-Type -> ConstrainedType:'$1'.
-
-%ANY is here for compatibility with the old ASN.1 standard from 1988
-BuiltinType -> 'ANY' AnyDefBy:
- case '$2' of
- [] -> 'ANY';
- _ -> {'ANY DEFINED BY','$2'}
- end.
-BuiltinType -> BitStringType :'$1'.
-BuiltinType -> 'BOOLEAN' :element(1,'$1').
-BuiltinType -> CharacterStringType :'$1'.
-BuiltinType -> ChoiceType :'$1'.
-BuiltinType -> 'EMBEDDED' 'PDV' :'EMBEDDED PDV'.
-BuiltinType -> EnumeratedType :'$1'.
-BuiltinType -> 'EXTERNAL' :element(1,'$1').
-% later BuiltinType -> InstanceOfType :'$1'.
-BuiltinType -> IntegerType :'$1'.
-% BuiltinType -> 'NULL' :element(1,'$1').
-% later BuiltinType -> ObjectClassFieldType :'$1'.
-BuiltinType -> 'OBJECT' 'IDENTIFIER' :'OBJECT IDENTIFIER'.
-BuiltinType -> 'OCTET' 'STRING' :'OCTET STRING'.
-BuiltinType -> 'REAL' :element(1,'$1').
-BuiltinType -> SequenceType :'$1'.
-BuiltinType -> SequenceOfType :'$1'.
-BuiltinType -> SetType :'$1'.
-BuiltinType -> SetOfType :'$1'.
-% The so called Useful types
-BuiltinType -> 'GeneralizedTime': 'GeneralizedTime'.
-BuiltinType -> 'UTCTime' :'UTCTime'.
-BuiltinType -> 'ObjectDescriptor' : 'ObjectDescriptor'.
-
-% moved BuiltinType -> TaggedType :'$1'.
-
-
-AnyDefBy -> 'DEFINED' 'BY' identifier: '$3'.
-AnyDefBy -> '$empty': [].
-
-NamedType -> identifier Type :
-%{_,Pos,Val} = '$1',
-%{'NamedType',Pos,{Val,'$2'}}.
-V1 = '$1',
-{'NamedType',V1#identifier.pos,{V1#identifier.val,'$2'}}.
-NamedType -> SelectionType :'$1'.
-
-ReferencedType -> DefinedType : '$1'.
-% redundant ReferencedType -> UsefulType : 'fix'.
-ReferencedType -> SelectionType : '$1'.
-ReferencedType -> TypeFromObject : '$1'.
-% later ReferencedType -> ValueSetFromObjects : 'fix'.
-
-% to much conflicts Value -> AnyValue :'$1'.
-Value -> ValueNotNull : '$1'.
-Value -> 'NULL' :element(1,'$1').
-
-ValueNotNull -> BuiltinValue :'$1'.
-% inlined Value -> DefinedValue :'$1'. % DefinedValue , identifier
-% inlined Externalvaluereference -> Externalvaluereference :'$1'.
-ValueNotNull -> typereference '.' identifier :
- #'Externalvaluereference'{pos=element(2,'$1'),module=element(3,'$1'),
- value=element(3,'$3')}.
-ValueNotNull -> identifier :'$1'.
-
-
-%tmp Value -> NamedNumber: '$1'. % not a value but part of ObjIdC
-% redundant BuiltinValue -> BitStringValue :'$1'.
-BuiltinValue -> BooleanValue :'$1'.
-BuiltinValue -> CharacterStringValue :'$1'.
-BuiltinValue -> ChoiceValue :'$1'.
-% BuiltinValue -> EmbeddedPDVValue :'$1'. ==SequenceValue
-% BuiltinValue -> EnumeratedValue :'$1'. identifier
-% BuiltinValue -> ExternalValue :'$1'. ==SequenceValue
-% later BuiltinValue -> InstanceOfValue :'$1'.
-BuiltinValue -> SignedNumber :'$1'.
-% BuiltinValue -> 'NULL' :'$1'.
-% later BuiltinValue -> ObjectClassFieldValue :'$1'.
-% replaced by SAndSOfValue BuiltinValue -> ObjectIdentifierValue :'$1'.
-BuiltinValue -> bstring :element(3,'$1').
-BuiltinValue -> hstring :element(3,'$1').
-% conflict BuiltinValue -> RealValue :'$1'.
-BuiltinValue -> SAndSOfValue :'$1'.
-% replaced BuiltinValue -> SequenceOfValue :'$1'.
-% replaced BuiltinValue -> SequenceValue :'$1'.
-% replaced BuiltinValue -> SetValue :'$1'.
-% replaced BuiltinValue -> SetOfValue :'$1'.
-% conflict redundant BuiltinValue -> TaggedValue :'$1'.
-
-% inlined ReferencedValue -> DefinedValue:'$1'.
-% ReferencedValue -> Externalvaluereference:'$1'.
-% ReferencedValue -> identifier :'$1'.
-% later ReferencedValue -> ValueFromObject:'$1'.
-
-% inlined BooleanType -> BOOLEAN :'BOOLEAN'.
-
-% to much conflicts AnyValue -> Type ':' Value : {'ANYVALUE',{'$1','$3'}}.
-
-BooleanValue -> TRUE :true.
-BooleanValue -> FALSE :false.
-
-IntegerType -> 'INTEGER' : 'INTEGER'.
-IntegerType -> 'INTEGER' '{' NamedNumberList '}' : {'INTEGER','$3'}.
-
-NamedNumberList -> NamedNumber :['$1'].
-% modified NamedNumberList -> NamedNumberList ',' NamedNumber :'fix'.
-NamedNumberList -> NamedNumber ',' NamedNumberList :['$1'|'$3'].
-
-NamedNumber -> identifier '(' SignedNumber ')' : {'NamedNumber',element(3,'$1'),'$3'}.
-NamedNumber -> identifier '(' typereference '.' identifier ')' : {'NamedNumber',element(3,'$1'),{'ExternalValue',element(3,'$3'),element(3,'$5')}}.
-NamedNumber -> identifier '(' identifier ')' : {'NamedNumber',element(3,'$1'),element(3,'$3')}.
-
-%NamedValue -> identifier Value :
-% {'NamedValue',element(2,'$1'),element(3,'$1'),'$2'}.
-
-
-SignedNumber -> number : element(3,'$1').
-SignedNumber -> '-' number : - element(3,'$1').
-
-% inlined IntegerValue -> SignedNumber :'$1'.
-% conflict moved to Value IntegerValue -> identifier:'$1'.
-
-EnumeratedType -> ENUMERATED '{' Enumeration '}' :{'ENUMERATED','$3'}.
-
-% inlined Enumerations -> Enumeration :{'$1','false',[]}.
-% inlined Enumerations -> Enumeration ',' '...' : {'$1','true',[]}.
-% inlined Enumerations -> Enumeration ',' '...' ',' Enumeration : {'$1','true','$5'}.
-
-Enumeration -> EnumerationItem :['$1'].
-% modified Enumeration -> EnumerationItem ',' Enumeration :'fix'.
-Enumeration -> EnumerationItem ',' Enumeration :['$1'|'$3'].
-
-EnumerationItem -> identifier:element(3,'$1').
-EnumerationItem -> NamedNumber :'$1'.
-EnumerationItem -> '...' :'EXTENSIONMARK'.
-
-% conflict moved to Value EnumeratedValue -> identifier:'$1'.
-
-% inlined RealType -> REAL:'REAL'.
-
-RealValue -> NumericRealValue :'$1'.
-RealValue -> SpecialRealValue:'$1'.
-
-% ?? NumericRealValue -> number:'$1'. % number MUST BE '0'
-NumericRealValue -> SAndSOfValue : '$1'. % Value of the associated sequence type
-
-SpecialRealValue -> 'PLUS-INFINITY' :'$1'.
-SpecialRealValue -> 'MINUS-INFINITY' :'$1'.
-
-BitStringType -> 'BIT' 'STRING' :{'BIT STRING',[]}.
-BitStringType -> 'BIT' 'STRING' '{' NamedNumberList '}' :{'BIT STRING','$4'}.
-% NamedBitList replaced by NamedNumberList to reduce the grammar
-% Must check later that all "numbers" are positive
-
-% inlined BitStringValue -> bstring:'$1'.
-% inlined BitStringValue -> hstring:'$1'.
-% redundant use SequenceValue BitStringValue -> '{' IdentifierList '}' :$2.
-% redundant use SequenceValue BitStringValue -> '{' '}' :'fix'.
-
-IdentifierList -> identifier :[element(3,'$1')].
-% modified IdentifierList -> IdentifierList ',' identifier :'$1'.
-IdentifierList -> identifier ',' IdentifierList :[element(3,'$1')|'$3'].
-
-% inlined OctetStringType -> 'OCTET' 'STRING' :'OCTET STRING'.
-
-% inlined OctetStringValue -> bstring:'$1'.
-% inlined OctetStringValue -> hstring:'$1'.
-
-% inlined NullType -> 'NULL':'NULL'.
-
-% inlined NullValue -> NULL:'NULL'.
-
-% result is {'SEQUENCE',Optionals,Extensionmark,Componenttypelist}.
-SequenceType -> SEQUENCE '{' ComponentTypeList '}' :{'SEQUENCE','$3'}.
-% SequenceType -> SEQUENCE '{' ComponentTypeLists '}' :{'SEQUENCE','$3'}.
-% SequenceType -> SEQUENCE '{' ExtensionAndException '}' :{'SEQUENCE','$3'}.
-SequenceType -> SEQUENCE '{' '}' :{'SEQUENCE',[]}.
-
-% result is {RootComponentList,ExtensionAndException,AdditionalComponentTypeList}.
-%ComponentTypeLists -> ComponentTypeList ',' ExtensionAndException :{'$1','$3',[]}.
-%ComponentTypeLists -> ComponentTypeList :{'$1','false',[]}.
-%ComponentTypeLists -> ComponentTypeList ',' ExtensionAndException
-% ',' ComponentTypeList :{'$1','$3', '$5'}.
-%ComponentTypeLists -> ExtensionAndException ',' ComponentTypeList :{[],'$1','$3'}.
-
-ComponentTypeList -> ComponentType :['$1'].
-% modified below ComponentTypeList -> ComponentTypeList ',' ComponentType :'$1'.
-ComponentTypeList -> ComponentType ',' ComponentTypeList :['$1'|'$3'].
-
-% -record('ComponentType',{pos,name,type,attrib}).
-ComponentType -> '...' ExceptionSpec :{'EXTENSIONMARK',element(2,'$1'),'$2'}.
-ComponentType -> NamedType :
- {'NamedType',Pos,{Name,Type}} = '$1',
- #'ComponentType'{pos=Pos,name=Name,typespec=Type,prop=mandatory}.
-ComponentType -> NamedType 'OPTIONAL' :
- {'NamedType',Pos,{Name,Type}} = '$1',
- #'ComponentType'{pos=Pos,name=Name,typespec=Type,prop='OPTIONAL'}.
-ComponentType -> NamedType 'DEFAULT' Value:
- {'NamedType',Pos,{Name,Type}} = '$1',
- #'ComponentType'{pos=Pos,name=Name,typespec=Type,prop={'DEFAULT','$3'}}.
-ComponentType -> 'COMPONENTS' 'OF' Type :{'COMPONENTS OF','$3'}.
-
-% redundant ExtensionAndException -> '...' : extensionmark.
-% ExtensionAndException -> '...' ExceptionSpec : {extensionmark,'$2'}.
-
-% replaced SequenceValue -> '{' ComponentValueList '}':'$2'.
-% replaced SequenceValue -> '{' '}':[].
-
-ValueList -> Value :['$1'].
-ValueList -> NamedNumber :['$1'].
-% modified ValueList -> ValueList ',' Value :'$1'.
-ValueList -> Value ',' ValueList :['$1'|'$3'].
-ValueList -> Value ',' '...' :['$1' |[]].
-ValueList -> Value ValueList : ['$1',space|'$2'].
-ValueList -> NamedNumber ValueList: ['$1',space|'$2'].
-
-%ComponentValueList -> identifier ObjIdComponent:[{'NamedValue','$1','$2'}].
-%ComponentValueList -> NamedValue :['$1'].
-%ComponentValueList -> NamedValue ',' ComponentValueList:['$1'|'$3'].
-%ComponentValueList -> identifier ObjIdComponent ',' ComponentValueList :[{'NamedValue', '$1','$2'}|'$4'].
-
-SequenceOfType -> SEQUENCE OF Type : {'SEQUENCE OF','$3'}.
-
-% replaced SequenceOfValue with SAndSOfValue
-
-SAndSOfValue -> '{' ValueList '}' :'$2'.
-%SAndSOfValue -> '{' ComponentValueList '}' :'$2'.
-SAndSOfValue -> '{' '}' :[].
-
-% save for later SetType ->
-% result is {'SET',Optionals,Extensionmark,Componenttypelist}.
-SetType -> SET '{' ComponentTypeList '}' :{'SET','$3'}.
-% SetType -> SET '{' ExtensionAndException '}' :{'SET','$3'}.
-SetType -> SET '{' '}' :{'SET',[]}.
-
-% replaced SetValue with SAndSOfValue
-
-SetOfType -> SET OF Type : {'SET OF','$3'}.
-
-% replaced SetOfValue with SAndSOfValue
-
-ChoiceType -> 'CHOICE' '{' ComponentTypeList '}' :{'CHOICE','$3'}.
-% AlternativeTypeList is replaced by ComponentTypeList
-ChoiceValue -> identifier ':' Value : {'ChoiceValue',element(3,'$1'),'$3'}.
-% save for later SelectionType ->
-
-TaggedType -> Tag Type : '$2'#type{tag=['$1'#tag{type={default,get(tagdefault)}}]}.
-TaggedType -> Tag IMPLICIT Type :'$3'#type{tag=['$1'#tag{type='IMPLICIT'}]}.
-TaggedType -> Tag EXPLICIT Type :'$3'#type{tag=['$1'#tag{type='EXPLICIT'}]}.
-
-Tag -> '[' Class ClassNumber ']': #tag{class='$2',number='$3'}.
-Tag -> '[' Class typereference '.' identifier ']':
- #tag{class='$2',number=#'Externalvaluereference'{pos=element(2,'$3'),module=element(3,'$3'),
- value=element(3,'$5')}}.
-Tag -> '[' Class number ']': #tag{class='$2',number=element(3,'$3')}.
-Tag -> '[' Class identifier ']': #tag{class='$2',number=element(3,'$3')}.
-
-ClassNumber -> number :element(3,'$1').
-% inlined above ClassNumber -> typereference '.' identifier :{'Externalvaluereference',element(3,'$1'),element(3,'$3')}.
-ClassNumber -> identifier :element(3,'$1').
-
-Class -> 'UNIVERSAL' :element(1,'$1').
-Class -> 'APPLICATION' :element(1,'$1').
-Class -> 'PRIVATE' :element(1,'$1').
-Class -> '$empty' :'CONTEXT'.
-
-% conflict redundant TaggedValue -> Value:'$1'.
-
-% inlined EmbeddedPDVType -> 'EMBEDDED' 'PDV' :'EMBEDDED PDV'.
-
-% inlined EmbeddedPDVValue -> SequenceValue:'$1'.
-
-% inlined ExternalType -> 'EXTERNAL' :'EXTERNAL'.
-
-% inlined ExternalValue -> SequenceValue :'$1'.
-
-% inlined ObjectIdentifierType -> 'OBJECT' 'IDENTIFIER' :'OBJECT IDENTIFIER'.
-
-ObjectIdentifierValue -> '{' ObjIdComponentList '}' :'$2'.
-% inlined ObjectIdentifierValue -> SequenceAndSequenceOfValue :'$1'.
-% ObjectIdentifierValue -> '{' identifier ObjIdComponentList '}' :{'ObjectIdentifierValue','$2','$3'}.
-% ObjectIdentifierValue -> '{' typereference '.' identifier ObjIdComponentList '}' :{'ObjectIdentifierValue',{'$2','$4'},'$5'}.
-
-ObjIdComponentList -> Value:'$1'.
-ObjIdComponentList -> Value ObjIdComponentList :['$1'|'$2'].
-%ObjIdComponentList -> DefinedValue:'$1'.
-%ObjIdComponentList -> number:'$1'.
-%ObjIdComponentList -> DefinedValue ObjIdComponentList :['$1'|'$2'].
-%ObjIdComponentList -> number ObjIdComponentList :['$1'|'$2'].
-%ObjIdComponentList -> ObjIdComponent ObjIdComponentList :['$1'|'$2'].
-%ObjIdComponentList -> ObjIdComponent ObjIdComponentList :['$1'|'$2'].
-
-% redundant ObjIdComponent -> NameForm :'$1'. % expanded
-% replaced by 2 ObjIdComponent -> NumberForm :'$1'.
-% ObjIdComponent -> number :'$1'.
-% ObjIdComponent -> DefinedValue :'$1'. % means DefinedValue
-% ObjIdComponent -> NameAndNumberForm :'$1'.
-% ObjIdComponent -> NamedNumber :'$1'.
-% NamedBit replaced by NamedNumber to reduce grammar
-% must check later that "number" is positive
-
-% NameForm -> identifier:'$1'.
-
-% inlined NumberForm -> number :'$1'.
-% inlined NumberForm -> DefinedValue :'$1'.
-
-% replaced by NamedBit NameAndNumberForm -> identifier '(' NumberForm ')'.
-% NameAndNumberForm -> NamedBit:'$1'.
-
-
-CharacterStringType -> restrictedcharacterstringtype :element(3,'$1').
-CharacterStringType -> 'CHARACTER' 'STRING' :'CHARACTER STRING'.
-
-RestrictedCharacterStringValue -> cstring :element(3, '$1').
-% modified below RestrictedCharacterStringValue -> CharacterStringList :'$1'.
-% conflict vs BuiltinValue RestrictedCharacterStringValue -> SequenceAndSequenceOfValue :'$1'.
-RestrictedCharacterStringValue -> Quadruple :'$1'.
-RestrictedCharacterStringValue -> Tuple :'$1'.
-
-% redundant CharacterStringList -> '{' ValueList '}' :'$2'. % modified
-
-% redundant CharSyms -> CharsDefn :'$1'.
-% redundant CharSyms -> CharSyms ',' CharsDefn :['$1'|'$3'].
-
-% redundant CharsDefn -> cstring :'$1'.
-% temporary replaced see below CharsDefn -> DefinedValue :'$1'.
-% redundant CharsDefn -> Value :'$1'.
-
-Quadruple -> '{' number ',' number ',' number ',' number '}' :{'Quadruple','$2','$4','$6','$8'}.
-% {Group,Plane,Row,Cell}
-
-Tuple -> '{' number ',' number '}' :{'Tuple', '$2','$4'}.
-% {TableColumn,TableRow}
-
-% inlined UnrestrictedCharacterString -> 'CHARACTER' 'STRING' :'CHARACTER STRING'.
-
-CharacterStringValue -> RestrictedCharacterStringValue :'$1'.
-% conflict vs BuiltinValue CharacterStringValue -> SequenceValue :'$1'. % UnrestrictedCharacterStringValue
-
-% inlined UsefulType -> typereference :'$1'.
-
-SelectionType -> identifier '<' Type : {'SelectionType',element(3,'$1'),'$3'}.
-
-ConstrainedType -> Type Constraint :
- '$1'#type{constraint=merge_constraints(['$2'])}.
-ConstrainedType -> Type Constraint Constraint :
- '$1'#type{constraint=merge_constraints(['$2','$3'])}.
-ConstrainedType -> Type Constraint Constraint Constraint:
- '$1'#type{constraint=merge_constraints(['$2','$3','$4'])}.
-ConstrainedType -> Type Constraint Constraint Constraint Constraint:
- '$1'#type{constraint=merge_constraints(['$2','$3','$4','$5'])}.
-%ConstrainedType -> Type Constraint :'$1'#type{constraint='$2'}.
-%ConstrainedType -> Type Constraint :'$1'#type{constraint='$2'}.
-ConstrainedType -> TypeWithConstraint :'$1'.
-
-TypeWithConstraint -> 'SET' Constraint 'OF' Type :
- #type{def = {'SET OF','$4'},constraint=merge_constraints(['$2'])}.
-TypeWithConstraint -> 'SET' 'SIZE' Constraint 'OF' Type :
- #type{def = {'SET OF','$5'},constraint = merge_constraints([#constraint{c={'SizeConstraint','$3'#constraint.c}}])}.
-TypeWithConstraint -> 'SEQUENCE' Constraint 'OF' Type :
- #type{def = {'SEQUENCE OF','$4'},constraint =
- merge_constraints(['$2'])}.
-TypeWithConstraint -> 'SEQUENCE' 'SIZE' Constraint 'OF' Type :
- #type{def = {'SEQUENCE OF','$5'},constraint = merge_constraints([#constraint{c={'SizeConstraint','$3'#constraint.c}}])}.
-
-
-Constraint -> '(' ConstraintSpec ExceptionSpec ')' :
- #constraint{c='$2',e='$3'}.
-
-% inlined Constraint -> SubTypeConstraint :'$1'.
-ConstraintSpec -> ElementSetSpecs :'$1'.
-ConstraintSpec -> UserDefinedConstraint :'$1'.
-ConstraintSpec -> TableConstraint :'$1'.
-
-TableConstraint -> ComponentRelationConstraint : '$1'.
-TableConstraint -> ObjectSet : '$1'.
-%TableConstraint -> '{' typereference '}' :tableconstraint.
-
-ComponentRelationConstraint -> '{' typereference '}' '{' '@' ComponentIdList '}' : componentrelation.
-ComponentRelationConstraint -> '{' typereference '}' '{' '@' '.' ComponentIdList '}' : componentrelation.
-
-ComponentIdList -> identifier: ['$1'].
-ComponentIdList -> identifier '.' ComponentIdList: ['$1'| '$3'].
-
-
-% later ConstraintSpec -> GeneralConstraint :'$1'.
-
-% from X.682
-UserDefinedConstraint -> 'CONSTRAINED' 'BY' '{' '}' : {constrained_by,[]}.
-UserDefinedConstraint -> 'CONSTRAINED' 'BY'
- '{' UserDefinedConstraintParameters '}' : {constrained_by,'$4'}.
-
-UserDefinedConstraintParameters -> UserDefinedConstraintParameter : ['$1'].
-UserDefinedConstraintParameters ->
- UserDefinedConstraintParameter ','
- UserDefinedConstraintParameters: ['$1'|'$3'].
-
-UserDefinedConstraintParameter -> Type '.' ActualParameter : {'$1','$3'}.
-UserDefinedConstraintParameter -> ActualParameter : '$1'.
-
-
-
-ExceptionSpec -> '!' ExceptionIdentification : '$1'.
-ExceptionSpec -> '$empty' : undefined.
-
-ExceptionIdentification -> SignedNumber : '$1'.
-% inlined ExceptionIdentification -> DefinedValue : '$1'.
-ExceptionIdentification -> typereference '.' identifier :
- #'Externalvaluereference'{pos=element(2,'$1'),module=element(3,'$1'),
- value=element(3,'$1')}.
-ExceptionIdentification -> identifier :'$1'.
-ExceptionIdentification -> Type ':' Value : {'$1','$3'}.
-
-% inlined SubTypeConstraint -> ElementSetSpec
-
-ElementSetSpecs -> ElementSetSpec : '$1'.
-ElementSetSpecs -> ElementSetSpec ',' '...': {'$1',[]}.
-ElementSetSpecs -> '...' ',' ElementSetSpec : {[],'$3'}.
-ElementSetSpecs -> ElementSetSpec ',' '...' ',' ElementSetSpec : {'$1','$5'}.
-
-ElementSetSpec -> Unions : '$1'.
-ElementSetSpec -> 'ALL' Exclusions : {'ALL','$2'}.
-
-Unions -> Intersections : '$1'.
-Unions -> UElems UnionMark IntersectionElements :
- case {'$1','$3'} of
- {{'SingleValue',V1},{'SingleValue',V2}} ->
- {'SingleValue',ordsets:union(to_set(V1),to_set(V2))}
- end.
-
-UElems -> Unions :'$1'.
-
-Intersections -> IntersectionElements :'$1'.
-Intersections -> IElems IntersectionMark IntersectionElements :
- case {'$1','$3'} of
- {{'SingleValue',V1},{'SingleValue',V2}} ->
- {'SingleValue',ordsets:intersection(to_set(V1),to_set(V2))};
- {V1,V2} when list(V1) ->
- V1 ++ [V2];
- {V1,V2} ->
- [V1,V2]
- end.
-%Intersections -> IElems '^' IntersectionElements :{'INTERSECTION','$1','$3'}.
-%Intersections -> IElems 'INTERSECTION' IntersectionElements :{'INTERSECTION','$1','$3'}.
-
-IElems -> Intersections :'$1'.
-
-IntersectionElements -> Elements :'$1'.
-IntersectionElements -> Elems Exclusions :{'$1','$2'}.
-
-Elems -> Elements :'$1'.
-
-Exclusions -> 'EXCEPT' Elements :{'EXCEPT','$2'}.
-
-IntersectionMark -> 'INTERSECTION':'$1'.
-IntersectionMark -> '^':'$1'.
-UnionMark -> 'UNION':'$1'.
-UnionMark -> '|':'$1'.
-
-
-Elements -> SubTypeElements : '$1'.
-%Elements -> ObjectSetElements : '$1'.
-Elements -> '(' ElementSetSpec ')' : '$2'.
-Elements -> ReferencedType : '$1'.
-
-SubTypeElements -> ValueList : {'SingleValue','$1'}. % NOTE it must be a Value
-% The rule above modifyed only because of conflicts
-SubTypeElements -> 'INCLUDES' Type : {'ContainedSubType','$2'}.
-%not lalr1 if this is activated SubTypeElements -> Type : {'TypeConstraint','$1'}.
-SubTypeElements -> LowerEndpoint '..' UpperEndpoint : {'ValueRange',{'$1','$3'}}.
-SubTypeElements -> 'FROM' Constraint : {'PermittedAlphabet','$2'#constraint.c}.
-SubTypeElements -> 'SIZE' Constraint: {'SizeConstraint','$2'#constraint.c}.
-% later will introduce conflicts related to NULL SubTypeElements -> Type : {'TypeConstraint','$1'}.
-SubTypeElements -> 'WITH' 'COMPONENT' Constraint:{'WITH COMPONENT','$3'}.
-SubTypeElements -> 'WITH' 'COMPONENTS' '{' TypeConstraints '}':{'WITH COMPONENTS',{'FullSpecification','$4'}}.
-SubTypeElements -> 'WITH' 'COMPONENTS' '{' '...' ',' TypeConstraints '}' :{'WITH COMPONENTS',{'PartialSpecification','$3'}}.
-
-% inlined above InnerTypeConstraints ::=
-% inlined above SingleTypeConstraint::= Constraint
-% inlined above MultipleTypeConstraints ::= FullSpecification | PartialSpecification
-% inlined above FullSpecification ::= "{" TypeConstraints "}"
-% inlined above PartialSpecification ::= "{" "..." "," TypeConstraints "}"
-% TypeConstraints -> identifier : [{'NamedConstraint',element(3,'$1'),undefined,undefined}]. % is this really meaningful or allowed
-TypeConstraints -> NamedConstraint : ['$1'].
-TypeConstraints -> NamedConstraint ',' TypeConstraints : ['$1'|'$3'].
-TypeConstraints -> identifier : ['$1'].
-TypeConstraints -> identifier ',' TypeConstraints : ['$1'|'$3'].
-
-NamedConstraint -> identifier Constraint PresenceConstraint :{'NamedConstraint',element(3,'$1'),'$2','$3'}.
-NamedConstraint -> identifier Constraint :{'NamedConstraint',element(3,'$1'),'$2',undefined}.
-NamedConstraint -> identifier PresenceConstraint :{'NamedConstraint',element(3,'$1'),undefined,'$2'}.
-
-PresenceConstraint -> 'PRESENT' : 'PRESENT'.
-PresenceConstraint -> 'ABSENT' : 'ABSENT'.
-PresenceConstraint -> 'OPTIONAL' : 'OPTIONAL'.
-
-
-
-LowerEndpoint -> LowerEndValue :'$1'.
-%LowerEndpoint -> LowerEndValue '<':{gt,'$1'}.
-LowerEndpoint -> LowerEndValue '<':('$1'+1).
-
-UpperEndpoint -> UpperEndValue :'$1'.
-%UpperEndpoint -> '<' UpperEndValue :{lt,'$2'}.
-UpperEndpoint -> '<' UpperEndValue :('$2'-1).
-
-LowerEndValue -> Value :'$1'.
-LowerEndValue -> 'MIN' :'MIN'.
-
-UpperEndValue -> Value :'$1'.
-UpperEndValue -> 'MAX' :'MAX'.
-
-
-% X.681
-
-
-% X.681 chap 15
-
-%TypeFromObject -> ReferencedObjects '.' FieldName : {'$1','$3'}.
-TypeFromObject -> typereference '.' FieldName : {'$1','$3'}.
-
-ReferencedObjects -> typereference : '$1'.
-%ReferencedObjects -> ParameterizedObject
-%ReferencedObjects -> DefinedObjectSet
-%ReferencedObjects -> ParameterizedObjectSet
-
-FieldName -> typefieldreference : ['$1'].
-FieldName -> valuefieldreference : ['$1'].
-FieldName -> FieldName '.' FieldName : ['$1' | '$3'].
-
-PrimitiveFieldName -> typefieldreference : '$1'.
-PrimitiveFieldName -> valuefieldreference : '$1'.
-
-%ObjectSetAssignment -> typereference DefinedObjectClass '::=' ObjectSet: null.
-ObjectSetAssignment -> typereference typereference '::=' ObjectSet :
- #typedef{pos=element(2,'$1'),name=element(3,'$1'),typespec={'ObjectSet',element(3,'$2'), '$4'}}.
-ObjectSetAssignment -> typereference typereference '.' typereference '::=' ObjectSet.
-
-ObjectSet -> '{' ElementSetSpecs '}' : '$2'.
-ObjectSet -> '{' '...' '}' : ['EXTENSIONMARK'].
-
-%ObjectSetElements -> Object.
-% ObjectSetElements -> identifier : '$1'.
-%ObjectSetElements -> DefinedObjectSet.
-%ObjectSetElements -> ObjectSetFromObjects.
-%ObjectSetElements -> ParameterizedObjectSet.
-
-%ObjectAssignment -> identifier DefinedObjectClass '::=' Object.
-ObjectAssignment -> ValueAssignment.
-%ObjectAssignment -> identifier typereference '::=' Object.
-%ObjectAssignment -> identifier typereference '.' typereference '::=' Object.
-
-%Object -> DefinedObject: '$1'.
-%Object -> ExternalObjectReference: '$1'.%Object -> DefinedObject: '$1'.
-Object -> typereference '.' identifier: '$1'.%Object -> DefinedObject: '$1'.
-Object -> identifier: '$1'.%Object -> DefinedObject: '$1'.
-
-%Object -> ObjectDefn -> DefaultSyntax: '$1'.
-Object -> '{' FieldSetting ',' FieldSettings '}' : ['$2'|'$4'].
-Object -> '{' FieldSetting '}' :['$2'].
-
-%% For User-friendly notation
-%% Object -> ObjectDefn -> DefinedSyntax
-Object -> '{' '}'.
-Object -> '{' DefinedSyntaxTokens '}'.
-
-% later Object -> ParameterizedObject: '$1'. look in x.683
-
-%DefinedObject -> ExternalObjectReference: '$1'.
-%DefinedObject -> identifier: '$1'.
-
-DefinedObjectClass -> typereference.
-%DefinedObjectClass -> objectclassreference.
-DefinedObjectClass -> ExternalObjectClassReference.
-%DefinedObjectClass -> typereference '.' objectclassreference.
-%%DefinedObjectClass -> UsefulObjectClassReference.
-
-ExternalObjectReference -> typereference '.' identifier.
-ExternalObjectClassReference -> typereference '.' typereference.
-%%ExternalObjectClassReference -> typereference '.' objectclassreference.
-
-ObjectDefn -> DefaultSyntax: '$1'.
-%ObjectDefn -> DefinedSyntax: '$1'.
-
-ObjectFromObject -> ReferencedObjects '.' FieldName : {'ObjectFromObject','$1','$3'}.
-
-% later look in x.683 ParameterizedObject ->
-
-%DefaultSyntax -> '{' '}'.
-%DefaultSyntax -> '{' FieldSettings '}': '$2'.
-DefaultSyntax -> '{' FieldSetting ',' FieldSettings '}': '$2'.
-DefaultSyntax -> '{' FieldSetting '}': '$2'.
-
-FieldSetting -> PrimitiveFieldName Setting: {'$1','$2'}.
-
-FieldSettings -> FieldSetting ',' FieldSettings: ['$1'|'$3'].
-FieldSettings -> FieldSetting ',' FieldSettings: ['$1'|'$3'].
-FieldSettings -> FieldSetting: '$1'.
-
-%DefinedSyntax -> '{' '}'.
-DefinedSyntax -> '{' DefinedSyntaxTokens '}': '$2'.
-
-DefinedSyntaxTokens -> DefinedSyntaxToken: '$1'.
-DefinedSyntaxTokens -> DefinedSyntaxToken DefinedSyntaxTokens: ['$1'|'$2'].
-
-% expanded DefinedSyntaxToken -> Literal: '$1'.
-%DefinedSyntaxToken -> typereference: '$1'.
-DefinedSyntaxToken -> word: '$1'.
-DefinedSyntaxToken -> ',': '$1'.
-DefinedSyntaxToken -> Setting: '$1'.
-%DefinedSyntaxToken -> '$empty': nil .
-
-% Setting ::= Type|Value|ValueSet|Object|ObjectSet
-Setting -> Type: '$1'.
-%Setting -> Value: '$1'.
-%Setting -> ValueNotNull: '$1'.
-Setting -> BuiltinValue: '$1'.
-Setting -> ValueSet: '$1'.
-%Setting -> Object: '$1'.
-%Setting -> ExternalObjectReference.
-Setting -> typereference '.' identifier.
-Setting -> identifier.
-Setting -> ObjectDefn.
-
-Setting -> ObjectSet: '$1'.
-
-
-Erlang code.
-%%-author('[email protected]').
--copyright('Copyright (c) 1991-99 Ericsson Telecom AB').
--vsn('$Revision: /main/release/1 $').
--include("asn1_records.hrl").
-
-to_set(V) when list(V) ->
- ordsets:list_to_set(V);
-to_set(V) ->
- ordsets:list_to_set([V]).
-
-merge_constraints({Rlist,ExtList}) -> % extensionmarker in constraint
- {merge_constraints(Rlist,[],[]),
- merge_constraints(ExtList,[],[])};
-
-merge_constraints(Clist) ->
- merge_constraints(Clist, [], []).
-
-merge_constraints([Ch|Ct],Cacc, Eacc) ->
- NewEacc = case Ch#constraint.e of
- undefined -> Eacc;
- E -> [E|Eacc]
- end,
- merge_constraints(Ct,[fixup_constraint(Ch#constraint.c)|Cacc],NewEacc);
-
-merge_constraints([],Cacc,[]) ->
- lists:flatten(Cacc);
-merge_constraints([],Cacc,Eacc) ->
- lists:flatten(Cacc) ++ [{'Errors',Eacc}].
-
-fixup_constraint(C) ->
- case C of
- {'SingleValue',V} when list(V) ->
- [C,
- {'ValueRange',{lists:min(V),lists:max(V)}}];
- {'PermittedAlphabet',{'SingleValue',V}} when list(V) ->
- V2 = {'SingleValue',
- ordsets:list_to_set(lists:flatten(V))},
- {'PermittedAlphabet',V2};
- {'PermittedAlphabet',{'SingleValue',V}} ->
- V2 = {'SingleValue',[V]},
- {'PermittedAlphabet',V2};
- {'SizeConstraint',Sc} ->
- {'SizeConstraint',fixup_size_constraint(Sc)};
-
- List when list(List) ->
- [fixup_constraint(Xc)||Xc <- List];
- Other ->
- Other
- end.
-
-fixup_size_constraint({'ValueRange',{Lb,Ub}}) ->
- {Lb,Ub};
-fixup_size_constraint({{'ValueRange',R},[]}) ->
- {R,[]};
-fixup_size_constraint({[],{'ValueRange',R}}) ->
- {[],R};
-fixup_size_constraint({{'ValueRange',R1},{'ValueRange',R2}}) ->
- {R1,R2};
-fixup_size_constraint({'SingleValue',[Sv]}) ->
- fixup_size_constraint({'SingleValue',Sv});
-fixup_size_constraint({'SingleValue',L}) when list(L) ->
- ordsets:list_to_set(L);
-fixup_size_constraint({'SingleValue',L}) ->
- {L,L};
-fixup_size_constraint({C1,C2}) ->
- {fixup_size_constraint(C1), fixup_size_constraint(C2)}.
-
-
-
-
-
-
-
-
-
-
-
-
-
diff --git a/lib/asn1/src/asn1ct_parser2.erl b/lib/asn1/src/asn1ct_parser2.erl index 3891fce8d3..488e4af4e0 100644 --- a/lib/asn1/src/asn1ct_parser2.erl +++ b/lib/asn1/src/asn1ct_parser2.erl @@ -20,7 +20,7 @@ %% -module(asn1ct_parser2). --export([parse/1]). +-export([parse/2,format_error/1]). -include("asn1_records.hrl"). %% Only used internally within this module. @@ -28,26 +28,34 @@ -record(constraint, {c,e}). -record(identifier, {pos,val}). -%% parse all types in module -parse(Tokens) -> - case catch parse_ModuleDefinition(Tokens) of - {'EXIT',Reason} -> - {error,{{undefined,get(asn1_module), - [internal,error,'when',parsing,module,definition,Reason]}, - hd(Tokens)}}; - {asn1_error,Reason} -> - {error,{Reason,hd(Tokens)}}; - {ModuleDefinition,Rest1} -> - {Types,Rest2} = parse_AssignmentList(Rest1), - clean_process_dictionary(), - case Rest2 of - [{'END',_}|_Rest3] -> - {ok,ModuleDefinition#module{typeorval = Types}}; - _ -> - {error,{{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'END']}, - hd(Rest2)}} - end +parse(File0, Tokens0) -> + try do_parse(Tokens0) of + {ok,#module{}}=Result -> + Result + catch + throw:{asn1_error,Fun} when is_function(Fun, 0) -> + handle_parse_error(File0, Fun()); + throw:{asn1_error,{parse_error,Tokens}} -> + handle_parse_error(File0, Tokens) + after + clean_process_dictionary() + end. + +handle_parse_error(File0, [Token|_]) -> + File = filename:basename(File0), + Line = get_line(Token), + Error = {structured_error,{File,Line},?MODULE, + {syntax_error,get_token(Token)}}, + {error,[Error]}. + +do_parse(Tokens0) -> + {ModuleDefinition,Tokens1} = parse_ModuleDefinition(Tokens0), + {Types,Tokens2} = parse_AssignmentList(Tokens1), + case Tokens2 of + [{'END',_}|_Rest3] -> + {ok,ModuleDefinition#module{typeorval=Types}}; + _ -> + parse_error(Tokens2) end. clean_process_dictionary() -> @@ -57,6 +65,11 @@ clean_process_dictionary() -> _ = erase(extensiondefault), ok. +format_error({syntax_error,Token}) when is_atom(Token) -> + io_lib:format("syntax error before: '~s'", [Token]); +format_error({syntax_error,Token}) -> + io_lib:format("syntax error before: '~p'", [Token]). + parse_ModuleDefinition([{typereference,L1,ModuleIdentifier}|Rest0]) -> put(asn1_module,ModuleIdentifier), {_DefinitiveIdentifier,Rest02} = @@ -70,9 +83,7 @@ parse_ModuleDefinition([{typereference,L1,ModuleIdentifier}|Rest0]) -> [{'DEFINITIONS',_}|Rest03] -> Rest03; _ -> - throw({asn1_error,{get_line(hd(Rest02)),get(asn1_module), - [got,get_token(hd(Rest02)), - expected,'DEFINITIONS']}}) + parse_error(Rest02) end, {TagDefault,Rest2} = case Rest of @@ -104,12 +115,11 @@ parse_ModuleDefinition([{typereference,L1,ModuleIdentifier}|Rest0]) -> extensiondefault = ExtensionDefault, exports = Exports, imports = {imports, Imports}}, Rest6}; - _ -> throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,"::= BEGIN"]}}) + _ -> + parse_error(Rest3) end; parse_ModuleDefinition(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typereference]}}). + parse_error(Tokens). parse_Exports([{'EXPORTS',_L1},{';',_L2}|Rest]) -> {{exports,[]},Rest}; @@ -122,8 +132,7 @@ parse_Exports([{'EXPORTS',_L1}|Rest]) -> [{';',_}|Rest3] -> {{exports,SymbolList},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,';']}}) + parse_error(Rest2) end; parse_Exports(Rest) -> {{exports,all},Rest}. @@ -137,29 +146,25 @@ parse_SymbolList(Tokens,Acc) -> [{',',_L1}|Rest2] -> parse_SymbolList(Rest2,[Symbol|Acc]); Rest2 -> - {lists:reverse([Symbol|Acc]),Rest2} + {lists:reverse(Acc, [Symbol]),Rest2} end. parse_Symbol(Tokens) -> parse_Reference(Tokens). parse_Reference([{typereference,L1,TrefName},{'{',_L2},{'}',_L3}|Rest]) -> -% {Tref,Rest}; {tref2Exttref(L1,TrefName),Rest}; parse_Reference([Tref1 = {typereference,_,_},{'.',_},Tref2 = {typereference,_,_}, {'{',_L2},{'}',_L3}|Rest]) -> -% {{Tref1,Tref2},Rest}; {{tref2Exttref(Tref1),tref2Exttref(Tref2)},Rest}; parse_Reference([Tref = {typereference,_L1,_TrefName}|Rest]) -> {tref2Exttref(Tref),Rest}; -parse_Reference([Vref = {identifier,_L1,_VName},{'{',_L2},{'}',_L3}|Rest]) -> +parse_Reference([#identifier{}=Vref,{'{',_L2},{'}',_L3}|Rest]) -> {identifier2Extvalueref(Vref),Rest}; -parse_Reference([Vref = {identifier,_L1,_VName}|Rest]) -> +parse_Reference([#identifier{}=Vref|Rest]) -> {identifier2Extvalueref(Vref),Rest}; parse_Reference(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typereference,identifier]]}}). + parse_error(Tokens). parse_Imports([{'IMPORTS',_L1},{';',_L2}|Rest]) -> {{imports,[]},Rest}; @@ -168,9 +173,8 @@ parse_Imports([{'IMPORTS',_L1}|Rest]) -> case Rest2 of [{';',_L2}|Rest3] -> {{imports,SymbolsFromModuleList},Rest3}; - Rest3 -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,';']}}) + _ -> + parse_error(Rest2) end; parse_Imports(Tokens) -> {{imports,[]},Tokens}. @@ -180,11 +184,12 @@ parse_SymbolsFromModuleList(Tokens) -> parse_SymbolsFromModuleList(Tokens,Acc) -> {SymbolsFromModule,Rest} = parse_SymbolsFromModule(Tokens), - case (catch parse_SymbolsFromModule(Rest)) of + try parse_SymbolsFromModule(Rest) of {Sl,_Rest2} when is_record(Sl,'SymbolsFromModule') -> - parse_SymbolsFromModuleList(Rest,[SymbolsFromModule|Acc]); - _ -> - {lists:reverse([SymbolsFromModule|Acc]),Rest} + parse_SymbolsFromModuleList(Rest, [SymbolsFromModule|Acc]) + catch + throw:{asn1_error,_} -> + {lists:reverse(Acc, [SymbolsFromModule]),Rest} end. parse_SymbolsFromModule(Tokens) -> @@ -198,169 +203,154 @@ parse_SymbolsFromModule(Tokens) -> end, {SymbolList,Rest} = parse_SymbolList(Tokens), case Rest of - [{'FROM',_L1},Tref = {typereference,_,Name},Ref={identifier,_L2,_Id},C={',',_}|Rest2] -> - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + [{'FROM',_L1},{typereference,_,Name}=Tref| + [#identifier{},{',',_}|_]=Rest2] -> + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, - module=tref2Exttref(Tref)},[Ref,C|Rest2]}; + module=tref2Exttref(Tref)},Rest2}; %% This a special case when there is only one Symbol imported %% from the next module. No other way to distinguish Ref from %% a part of the GlobalModuleReference of Name. - [{'FROM',_L1},Tref = {typereference,_,Name},Ref = {identifier,_L2,_Id},From = {'FROM',_}|Rest2] -> - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + [{'FROM',_L1},{typereference,_,Name}=Tref| + [#identifier{},{'FROM',_}|_]=Rest2] -> + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, - module=tref2Exttref(Tref)},[Ref,From|Rest2]}; - [{'FROM',_L1},Tref = {typereference,_,Name},{identifier,_L2,_Id}|Rest2] -> - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + module=tref2Exttref(Tref)},Rest2}; + [{'FROM',_L1},{typereference,_,Name}=Tref,#identifier{}|Rest2] -> + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, module=tref2Exttref(Tref)},Rest2}; - [{'FROM',_L1},Tref = {typereference,_,Name},Brace = {'{',_}|Rest2] -> - {_ObjIdVal,Rest3} = parse_ObjectIdentifierValue([Brace|Rest2]), % value not used yet, fix me - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + [{'FROM',_L1},{typereference,_,Name}=Tref|[{'{',_}|_]=Rest2] -> + {_ObjIdVal,Rest3} = parse_ObjectIdentifierValue(Rest2), % value not used yet, fix me + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, module=tref2Exttref(Tref)},Rest3}; - [{'FROM',_L1},Tref = {typereference,_,Name}|Rest2] -> - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + [{'FROM',_L1},{typereference,_,Name}=Tref|Rest2] -> + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, module=tref2Exttref(Tref)},Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected, - ['FROM typerefernece identifier ,', - 'FROM typereference identifier', - 'FROM typereference {', - 'FROM typereference']]}}) + parse_error(Rest) end. parse_ObjectIdentifierValue([{'{',_}|Rest]) -> parse_ObjectIdentifierValue(Rest,[]). -parse_ObjectIdentifierValue([{number,_,Num}|Rest],Acc) -> +parse_ObjectIdentifierValue([{number,_,Num}|Rest], Acc) -> parse_ObjectIdentifierValue(Rest,[Num|Acc]); -parse_ObjectIdentifierValue([{identifier,_,Id},{'(',_}, {number,_,Num}, {')',_}|Rest],Acc) -> +parse_ObjectIdentifierValue([#identifier{val=Id},{'(',_},{number,_,Num},{')',_}|Rest], Acc) -> parse_ObjectIdentifierValue(Rest,[{'NamedNumber',Id,Num}|Acc]); -parse_ObjectIdentifierValue([{identifier,_,Id},{'(',_}, {identifier,_,Id2}, {')',_}|Rest],Acc) -> +parse_ObjectIdentifierValue([#identifier{val=Id},{'(',_},#identifier{val=Id2},{')',_}|Rest], Acc) -> parse_ObjectIdentifierValue(Rest,[{'NamedNumber',Id,Id2}|Acc]); -parse_ObjectIdentifierValue([{identifier,_,Id},{'(',_}, {typereference,_,Tref},{'.',_},{identifier,_,Id2}, {')',_}|Rest],Acc) -> - parse_ObjectIdentifierValue(Rest,[{'NamedNumber',Id,{'ExternalValue',Tref,Id2}}|Acc]); -parse_ObjectIdentifierValue([Id = {identifier,_,_}|Rest],Acc) -> - parse_ObjectIdentifierValue(Rest,[identifier2Extvalueref(Id)|Acc]); -parse_ObjectIdentifierValue([{'}',_}|Rest],Acc) -> +parse_ObjectIdentifierValue([#identifier{val=Id},{'(',_},{typereference,_,Tref},{'.',_},#identifier{val=Id2}, {')',_}|Rest], Acc) -> + parse_ObjectIdentifierValue(Rest, [{'NamedNumber',Id,{'ExternalValue',Tref,Id2}}|Acc]); +parse_ObjectIdentifierValue([#identifier{}=Id|Rest], Acc) -> + parse_ObjectIdentifierValue(Rest, [identifier2Extvalueref(Id)|Acc]); +parse_ObjectIdentifierValue([{'}',_}|Rest], Acc) -> {lists:reverse(Acc),Rest}; -parse_ObjectIdentifierValue([H|_T],_Acc) -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected, - ['{ some of the following }',number,'identifier ( number )', - 'identifier ( identifier )', - 'identifier ( typereference.identifier)',identifier]]}}). +parse_ObjectIdentifierValue(Tokens, _Acc) -> + parse_error(Tokens). -parse_AssignmentList(Tokens = [{'END',_}|_Rest]) -> - {[],Tokens}; -parse_AssignmentList(Tokens = [{'$end',_}|_Rest]) -> - {[],Tokens}; parse_AssignmentList(Tokens) -> - parse_AssignmentList(Tokens,[]). + parse_AssignmentList(Tokens, []). -parse_AssignmentList(Tokens= [{'END',_}|_Rest],Acc) -> +parse_AssignmentList([{'END',_}|_]=Tokens, Acc) -> {lists:reverse(Acc),Tokens}; -parse_AssignmentList(Tokens= [{'$end',_}|_Rest],Acc) -> +parse_AssignmentList([{'$end',_}|_]=Tokens, Acc) -> {lists:reverse(Acc),Tokens}; -parse_AssignmentList(Tokens,Acc) -> - case (catch parse_Assignment(Tokens)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,R} -> -% [H|T] = Tokens, - throw({error,{R,hd(Tokens)}}); - {Assignment,Rest} -> - parse_AssignmentList(Rest,[Assignment|Acc]) - end. - -parse_Assignment(Tokens) -> - Flist = [fun parse_TypeAssignment/1, - fun parse_ValueAssignment/1, - fun parse_ObjectClassAssignment/1, - fun parse_ObjectAssignment/1, - fun parse_ObjectSetAssignment/1, - fun parse_ParameterizedAssignment/1, +parse_AssignmentList(Tokens0, Acc) -> + {Assignment,Tokens} = parse_Assignment(Tokens0), + parse_AssignmentList(Tokens, [Assignment|Acc]). + +parse_Assignment([{typereference,L1,Name},{'::=',_}|Tokens0]) -> + %% 1) Type ::= TypeDefinition + %% 2) CLASS-NAME ::= CLASS {...} + Flist = [{type,fun parse_Type/1}, + {class,fun parse_ObjectClass/1}], + case parse_or_tag(Tokens0, Flist) of + {{type,Type},Tokens} -> + %% TypeAssignment + {#typedef{pos=L1,name=Name,typespec=Type},Tokens}; + {{class,Type},Tokens} -> + %% ObjectClassAssignment + {#classdef{pos=L1,name=Name,module=resolve_module(Type), + typespec=Type},Tokens} + end; +parse_Assignment([{typereference,_,_},{'{',_}|_]=Tokens) -> + %% 1) Type{...} ::= ... + %% 2) ValueSet{...} Type ::= ... + %% ObjectSet{...} CLASS-NAME ::= CLASS {...} + %% 3) CLASS-NAME{...} ::= CLASS {...} + %% A parameterized value set and and a parameterized object set + %% cannot be distinguished from each other without type information. + Flist = [fun parse_ParameterizedTypeAssignment/1, + fun parse_ParameterizedValueSetTypeAssignment/1, + fun parse_ParameterizedObjectClassAssignment/1], + parse_or(Tokens, Flist); +parse_Assignment([{typereference,_,_}|_]=Tokens) -> + %% 1) ObjectSet CLASS-NAME ::= ... + %% 2) ValueSet Type ::= ... + Flist = [fun parse_ObjectSetAssignment/1, fun parse_ValueSetTypeAssignment/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - {asn1_assignment_error,Reason} -> - throw({asn1_error,Reason}); - Result -> - Result - end. - + parse_or(Tokens, Flist); +parse_Assignment([#identifier{},{'{',_}|_]=Tokens) -> + %% 1) value{...} Type ::= ... + %% 2) object{...} CLASS-NAME ::= ... + Flist = [fun parse_ParameterizedValueAssignment/1, + fun parse_ParameterizedObjectAssignment/1], + parse_or(Tokens, Flist); +parse_Assignment([#identifier{}|_]=Tokens) -> + %% 1) value Type ::= ... + %% 2) object CLASS-NAME ::= ... + Flist = [fun parse_ValueAssignment/1, + fun parse_ObjectAssignment/1], + parse_or(Tokens, Flist); +parse_Assignment(Tokens) -> + parse_error(Tokens). parse_or(Tokens,Flist) -> parse_or(Tokens,Flist,[]). -parse_or(_Tokens,[],ErrList) -> - case ErrList of - [] -> - throw({asn1_error,{parse_or,ErrList}}); - L when is_list(L) -> - %% chose to throw 1) the error with the highest line no, - %% 2) the last error which is not a asn1_assignment_error or - %% 3) the last error. - throw(prioritize_error(ErrList)) +parse_or(Tokens, [Fun|Funs], ErrList) when is_function(Fun, 1) -> + try Fun(Tokens) of + {_,Rest}=Result when is_list(Rest) -> + Result + catch + throw:{asn1_error,Error} -> + parse_or(Tokens, Funs, [Error|ErrList]) end; -parse_or(Tokens,[Fun|Frest],ErrList) -> - case (catch Fun(Tokens)) of - Exit = {'EXIT',_Reason} -> - parse_or(Tokens,Frest,[Exit|ErrList]); - AsnErr = {asn1_error,_} -> - parse_or(Tokens,Frest,[AsnErr|ErrList]); - AsnAssErr = {asn1_assignment_error,_} -> - parse_or(Tokens,Frest,[AsnAssErr|ErrList]); - Result = {_,L} when is_list(L) -> - Result; - Error -> - parse_or(Tokens,Frest,[Error|ErrList]) - end. - -parse_or_tag(Tokens,Flist) -> - parse_or_tag(Tokens,Flist,[]). - -parse_or_tag(_Tokens,[],ErrList) -> - case ErrList of - [] -> - throw({asn1_error,{parse_or_tag,ErrList}}); - L when is_list(L) -> - %% chose to throw 1) the error with the highest line no, - %% 2) the last error which is not a asn1_assignment_error or - %% 3) the last error. - throw(prioritize_error(ErrList)) +parse_or(_Tokens, [], ErrList) -> + throw({asn1_error,fun() -> prioritize_error(ErrList) end}). + +parse_or_tag(Tokens, Flist) -> + parse_or_tag(Tokens, Flist, []). + +parse_or_tag(Tokens, [{Tag,Fun}|Funs], ErrList) when is_function(Fun, 1) -> + try Fun(Tokens) of + {Parsed,Rest} when is_list(Rest) -> + {{Tag,Parsed},Rest} + catch + throw:{asn1_error,Error} -> + parse_or_tag(Tokens, Funs, [Error|ErrList]) end; -parse_or_tag(Tokens,[{Tag,Fun}|Frest],ErrList) when is_function(Fun) -> - case (catch Fun(Tokens)) of - Exit = {'EXIT',_Reason} -> - parse_or_tag(Tokens,Frest,[Exit|ErrList]); - AsnErr = {asn1_error,_} -> - parse_or_tag(Tokens,Frest,[AsnErr|ErrList]); - AsnAssErr = {asn1_assignment_error,_} -> - parse_or_tag(Tokens,Frest,[AsnAssErr|ErrList]); - {ParseRes,Rest} when is_list(Rest) -> - {{Tag,ParseRes},Rest}; - Error -> - parse_or_tag(Tokens,Frest,[Error|ErrList]) - end. +parse_or_tag(_Tokens, [], ErrList) -> + throw({asn1_error,fun() -> prioritize_error(ErrList) end}). + +prioritize_error(Errors0) -> + Errors1 = prioritize_error_1(Errors0), + Errors2 = [{length(L),L} || L <- Errors1], + Errors = lists:sort(Errors2), + [Res|_] = [L || {_,L} <- Errors], + Res. + +prioritize_error_1([F|T]) when is_function(F, 0) -> + [F()|prioritize_error_1(T)]; +prioritize_error_1([{parse_error,Tokens}|T]) -> + [Tokens|prioritize_error_1(T)]; +prioritize_error_1([]) -> + []. -parse_TypeAssignment([{typereference,L1,Tref},{'::=',_}|Rest]) -> - {Type,Rest2} = parse_Type(Rest), - {#typedef{pos=L1,name=Tref,typespec=Type},Rest2}; -parse_TypeAssignment([H1,H2|_Rest]) -> - throw({asn1_assignment_error,{get_line(H1),get(asn1_module), - [got,[get_token(H1),get_token(H2)], expected, - typereference,'::=']}}); -parse_TypeAssignment([H|_T]) -> - throw({asn1_assignment_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected, - typereference]}}). %% parse_Type(Tokens) -> Ret %% @@ -370,9 +360,8 @@ parse_TypeAssignment([H|_T]) -> %% parse_Type(Tokens) -> {Tag,Rest3} = case Tokens of - [Lbr= {'[',_}|Rest] -> - parse_Tag([Lbr|Rest]); - Rest-> {[],Rest} + [{'[',_}|_] -> parse_Tag(Tokens); + _ -> {[],Tokens} end, {Tag2,Rest4} = case Rest3 of [{'IMPLICIT',_}|Rest31] when is_record(Tag,tag)-> @@ -384,31 +373,17 @@ parse_Type(Tokens) -> Rest31 -> {Tag,Rest31} end, - Flist = [fun parse_BuiltinType/1,fun parse_ReferencedType/1,fun parse_TypeWithConstraint/1], - {Type,Rest5} = case (catch parse_or(Rest4,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_Reason} -> - throw(AsnErr); - Result -> - Result - end, - case hd(Rest5) of - {'(',_} -> + Flist = [fun parse_BuiltinType/1, + fun parse_ReferencedType/1, + fun parse_TypeWithConstraint/1], + {Type,Rest5} = parse_or(Rest4, Flist), + case Rest5 of + [{'(',_}|_] -> {Constraints,Rest6} = parse_Constraints(Rest5), - if is_record(Type,type) -> - {Type#type{constraint=merge_constraints(Constraints), - tag=Tag2},Rest6}; - true -> - {#type{def=Type,constraint=merge_constraints(Constraints), - tag=Tag2},Rest6} - end; - _ -> - if is_record(Type,type) -> - {Type#type{tag=Tag2},Rest5}; - true -> - {#type{def=Type,tag=Tag2},Rest5} - end + {Type#type{tag=Tag2, + constraint=merge_constraints(Constraints)},Rest6}; + [_|_] -> + {Type#type{tag=Tag2},Rest5} end. parse_BuiltinType([{'BIT',_},{'STRING',_}|Rest]) -> @@ -419,11 +394,10 @@ parse_BuiltinType([{'BIT',_},{'STRING',_}|Rest]) -> [{'}',_}|Rest4] -> {#type{def={'BIT STRING',NamedNumberList}},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,'}']}}) + parse_error(Rest3) end; _ -> - {{'BIT STRING',[]},Rest} + {#type{def={'BIT STRING',[]}},Rest} end; parse_BuiltinType([{'BOOLEAN',_}|Rest]) -> {#type{def='BOOLEAN'},Rest}; @@ -435,41 +409,33 @@ parse_BuiltinType([{'CHARACTER',_},{'STRING',_}|Rest]) -> {#type{def='CHARACTER STRING'},Rest}; parse_BuiltinType([{'CHOICE',_},{'{',_}|Rest]) -> - {AlternativeTypeLists,Rest2} = parse_AlternativeTypeLists(Rest), - AlternativeTypeLists1 = - lists:filter(fun(#'ExtensionAdditionGroup'{}) -> false; - ('ExtensionAdditionGroupEnd') -> false; - (_) -> true - end,AlternativeTypeLists), + {L0,Rest2} = parse_AlternativeTypeLists(Rest), case Rest2 of [{'}',_}|Rest3] -> - AlternativeTypeLists2 = - case {[Ext||Ext = #'EXTENSIONMARK'{} <- AlternativeTypeLists1], - get(extensiondefault)} of - {[],'IMPLIED'} -> AlternativeTypeLists1 ++ [#'EXTENSIONMARK'{}]; - _ -> AlternativeTypeLists1 + NeedExt = not lists:keymember('EXTENSIONMARK', 1, L0) andalso + get(extensiondefault) =:= 'IMPLIED', + L = case NeedExt of + true -> + L0 ++ [#'EXTENSIONMARK'{}]; + false -> + L0 end, - - {#type{def={'CHOICE',AlternativeTypeLists2}},Rest3}; + {#type{def={'CHOICE',L}},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; parse_BuiltinType([{'EMBEDDED',_},{'PDV',_}|Rest]) -> {#type{def='EMBEDDED PDV'},Rest}; parse_BuiltinType([{'ENUMERATED',_},{'{',_}|Rest]) -> - {Enumerations,Rest2} = parse_Enumerations(Rest,get(extensiondefault)), + {Enumerations,Rest2} = parse_Enumerations(Rest), case Rest2 of [{'}',_}|Rest3] -> {#type{def={'ENUMERATED',Enumerations}},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; parse_BuiltinType([{'EXTERNAL',_}|Rest]) -> {#type{def='EXTERNAL'},Rest}; - -% InstanceOfType parse_BuiltinType([{'INSTANCE',_},{'OF',_}|Rest]) -> {DefinedObjectClass,Rest2} = parse_DefinedObjectClass(Rest), case Rest2 of @@ -480,9 +446,6 @@ parse_BuiltinType([{'INSTANCE',_},{'OF',_}|Rest]) -> _ -> {#type{def={'INSTANCE OF',DefinedObjectClass,[]}},Rest2} end; - -% parse_BuiltinType(Tokens) -> - parse_BuiltinType([{'INTEGER',_}|Rest]) -> case Rest of [{'{',_}|Rest2] -> @@ -491,17 +454,13 @@ parse_BuiltinType([{'INTEGER',_}|Rest]) -> [{'}',_}|Rest4] -> {#type{def={'INTEGER',NamedNumberList}},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,'}']}}) + parse_error(Rest3) end; _ -> {#type{def='INTEGER'},Rest} end; parse_BuiltinType([{'NULL',_}|Rest]) -> {#type{def='NULL'},Rest}; - -% ObjectClassFieldType fix me later - parse_BuiltinType([{'OBJECT',_},{'IDENTIFIER',_}|Rest]) -> {#type{def='OBJECT IDENTIFIER'},Rest}; parse_BuiltinType([{'OCTET',_},{'STRING',_}|Rest]) -> @@ -529,18 +488,14 @@ parse_BuiltinType([{'SEQUENCE',_},{'{',_},{'...',Line},{'!',_}|Rest]) -> parse_ComponentTypeLists2(Rest2,[#'EXTENSIONMARK'{pos=Line}]), case Rest3 of [{'}',_}|Rest4] -> - {#type{def=#'SEQUENCE'{components=ComponentTypeLists}},Rest4}; + {#type{def=#'SEQUENCE'{components=ComponentTypeLists}},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,'}']}}) + parse_error(Rest3) end -% _ -> % Seq case 4,17-19,23-26 will fail here -% throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), -% [got,get_token(hd(Rest2)),expected,'}']}}) end; parse_BuiltinType([{'SEQUENCE',_},{'{',_}|Rest]) -> {ComponentTypeLists,Rest2} = parse_ComponentTypeLists(Rest), - case Rest2 of + case Rest2 of [{'}',_}|Rest3] -> ComponentTypeLists2 = case {[Ext||Ext = #'EXTENSIONMARK'{} <- ComponentTypeLists], @@ -551,25 +506,19 @@ parse_BuiltinType([{'SEQUENCE',_},{'{',_}|Rest]) -> {#type{def=#'SEQUENCE'{components = ComponentTypeLists2}}, Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; - -parse_BuiltinType([{'SEQUENCE',_},{'OF',_},Id={identifier,_,_},Lt={'<',_}|Rest]) -> -%% TODO: take care of the identifier for something useful - {Type,Rest2} = parse_SelectionType([Id,Lt|Rest]), - {#type{def={'SEQUENCE OF',#type{def=Type,tag=[]}}},Rest2}; - -parse_BuiltinType([{'SEQUENCE',_},{'OF',_},{identifier,_,_} |Rest]) -> +parse_BuiltinType([{'SEQUENCE',_},{'OF',_}| + [#identifier{},{'<',_}|_]=Tokens0]) -> + {Type,Tokens} = parse_SelectionType(Tokens0), + {#type{def={'SEQUENCE OF',Type}},Tokens}; +parse_BuiltinType([{'SEQUENCE',_},{'OF',_},#identifier{} |Rest]) -> %% TODO: take care of the identifier for something useful {Type,Rest2} = parse_Type(Rest), {#type{def={'SEQUENCE OF',Type}},Rest2}; - parse_BuiltinType([{'SEQUENCE',_},{'OF',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {#type{def={'SEQUENCE OF',Type}},Rest2}; - - parse_BuiltinType([{'SET',_},{'{',_},{'...',Line},{'}',_}|Rest]) -> {#type{def=#'SET'{components=[#'EXTENSIONMARK'{pos = Line}]}},Rest}; parse_BuiltinType([{'SET',_},{'{',_},{'...',Line},{'!',_}|Rest]) -> @@ -581,12 +530,18 @@ parse_BuiltinType([{'SET',_},{'{',_},{'...',Line},{'!',_}|Rest]) -> val = ExceptionIdentification}]}}, Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + {ComponentTypeLists,Rest3}= + parse_ComponentTypeLists2(Rest2,[#'EXTENSIONMARK'{pos=Line}]), + case Rest3 of + [{'}',_}|Rest4] -> + {#type{def=#'SET'{components=ComponentTypeLists}},Rest4}; + _ -> + parse_error(Rest3) + end end; parse_BuiltinType([{'SET',_},{'{',_}|Rest]) -> {ComponentTypeLists,Rest2} = parse_ComponentTypeLists(Rest), - case Rest2 of + case Rest2 of [{'}',_}|Rest3] -> ComponentTypeLists2 = case {[Ext||Ext = #'EXTENSIONMARK'{} <- ComponentTypeLists], @@ -597,184 +552,128 @@ parse_BuiltinType([{'SET',_},{'{',_}|Rest]) -> {#type{def=#'SET'{components = ComponentTypeLists2}}, Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; - -parse_BuiltinType([{'SET',_},{'OF',_},Id={identifier,_,_},Lt={'<',_}|Rest]) -> -%% TODO: take care of the identifier for something useful - {Type,Rest2} = parse_SelectionType([Id,Lt|Rest]), - {#type{def={'SET OF',#type{def=Type,tag=[]}}},Rest2}; - - -parse_BuiltinType([{'SET',_},{'OF',_},{identifier,_,_}|Rest]) -> +parse_BuiltinType([{'SET',_},{'OF',_}| + [#identifier{},{'<',_}|_]=Tokens0]) -> + {Type,Tokens} = parse_SelectionType(Tokens0), + {#type{def={'SET OF',Type}},Tokens}; +parse_BuiltinType([{'SET',_},{'OF',_},#identifier{}|Rest]) -> %%TODO: take care of the identifier for something useful {Type,Rest2} = parse_Type(Rest), {#type{def={'SET OF',Type}},Rest2}; - parse_BuiltinType([{'SET',_},{'OF',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {#type{def={'SET OF',Type}},Rest2}; - -%% The so called Useful types parse_BuiltinType([{'GeneralizedTime',_}|Rest]) -> {#type{def='GeneralizedTime'},Rest}; parse_BuiltinType([{'UTCTime',_}|Rest]) -> {#type{def='UTCTime'},Rest}; parse_BuiltinType([{'ObjectDescriptor',_}|Rest]) -> {#type{def='ObjectDescriptor'},Rest}; - -%% For compatibility with old standard -parse_BuiltinType([{'ANY',_},{'DEFINED',_},{'BY',_},{identifier,_,Id}|Rest]) -> +parse_BuiltinType([{'ANY',_},{'DEFINED',_},{'BY',_},#identifier{val=Id}|Rest]) -> + %% For compatibility with the old standard. {#type{def={'ANY_DEFINED_BY',Id}},Rest}; parse_BuiltinType([{'ANY',_}|Rest]) -> + %% For compatibility with the old standard. {#type{def='ANY'},Rest}; - parse_BuiltinType(Tokens) -> parse_ObjectClassFieldType(Tokens). -% throw({asn1_error,unhandled_type}). -parse_TypeWithConstraint([{'SEQUENCE',_},Lpar = {'(',_}|Rest]) -> - {Constraint,Rest2} = parse_Constraint([Lpar|Rest]), +parse_TypeWithConstraint([{'SEQUENCE',_}|[{'(',_}|_]=Rest0]) -> + {Constraint,Rest2} = parse_Constraint(Rest0), Rest4 = case Rest2 of - [{'OF',_}, {identifier,_,_Id}|Rest3] -> + [{'OF',_},#identifier{}|Rest3] -> %%% TODO: make some use of the identifier, maybe useful in the XML mapping Rest3; [{'OF',_}|Rest3] -> Rest3; _ -> - throw({asn1_error, - {get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'OF']}}) + parse_error(Rest2) end, {Type,Rest5} = parse_Type(Rest4), {#type{def = {'SEQUENCE OF',Type}, constraint = merge_constraints([Constraint])},Rest5}; -parse_TypeWithConstraint([{'SEQUENCE',_},{'SIZE',_},Lpar = {'(',_}|Rest]) -> - {Constraint,Rest2} = parse_Constraint([Lpar|Rest]), +parse_TypeWithConstraint([{'SEQUENCE',_},{'SIZE',_}|[{'(',_}|_]=Rest0]) -> + {Constraint,Rest2} = parse_Constraint(Rest0), #constraint{c=C} = Constraint, - Constraint2 = Constraint#constraint{c={'SizeConstraint',C}}, + Constraint2 = Constraint#constraint{c={element_set,{'SizeConstraint',C}, + none}}, Rest4 = case Rest2 of - [{'OF',_}, {identifier,_,_Id}|Rest3] -> + [{'OF',_},#identifier{}|Rest3] -> %%% TODO: make some use of the identifier, maybe useful in the XML mapping Rest3; [{'OF',_}|Rest3] -> Rest3; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'OF']}}) + parse_error(Rest2) end, {Type,Rest5} = parse_Type(Rest4), {#type{def = {'SEQUENCE OF',Type}, constraint = merge_constraints([Constraint2])},Rest5}; -parse_TypeWithConstraint([{'SET',_},Lpar = {'(',_}|Rest]) -> - {Constraint,Rest2} = parse_Constraint([Lpar|Rest]), +parse_TypeWithConstraint([{'SET',_}|[{'(',_}|_]=Rest0]) -> + {Constraint,Rest2} = parse_Constraint(Rest0), Rest4 = case Rest2 of - [{'OF',_}, {identifier,_,_Id}|Rest3] -> + [{'OF',_},#identifier{}|Rest3] -> %%% TODO: make some use of the identifier, maybe useful in the XML mapping Rest3; [{'OF',_}|Rest3] -> Rest3; _ -> - throw({asn1_error, - {get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'OF']}}) + parse_error(Rest2) end, {Type,Rest5} = parse_Type(Rest4), {#type{def = {'SET OF',Type}, constraint = merge_constraints([Constraint])},Rest5}; -parse_TypeWithConstraint([{'SET',_},{'SIZE',_},Lpar = {'(',_}|Rest]) -> - {Constraint,Rest2} = parse_Constraint([Lpar|Rest]), +parse_TypeWithConstraint([{'SET',_},{'SIZE',_}|[{'(',_}|_]=Rest0]) -> + {Constraint,Rest2} = parse_Constraint(Rest0), #constraint{c=C} = Constraint, - Constraint2 = Constraint#constraint{c={'SizeConstraint',C}}, + Constraint2 = Constraint#constraint{c={element_set, + {'SizeConstraint',C},none}}, Rest4 = case Rest2 of - [{'OF',_}, {identifier,_,_Id}|Rest3] -> + [{'OF',_},#identifier{}|Rest3] -> %%% TODO: make some use of the identifier, maybe useful in the XML mapping Rest3; [{'OF',_}|Rest3] -> Rest3; _ -> - throw({asn1_error, - {get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'OF']}}) + parse_error(Rest2) end, {Type,Rest5} = parse_Type(Rest4), {#type{def = {'SET OF',Type}, constraint = merge_constraints([Constraint2])},Rest5}; parse_TypeWithConstraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - ['SEQUENCE','SEQUENCE SIZE','SET','SET SIZE'], - followed,by,a,constraint]}}). + parse_error(Tokens). %% -------------------------- parse_ReferencedType(Tokens) -> - Flist = [fun parse_DefinedType/1, + Flist = [fun parse_ParameterizedType/1, + fun parse_DefinedType/1, fun parse_SelectionType/1, - fun parse_TypeFromObject/1, - fun parse_ValueSetFromObjects/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + fun parse_TypeFromObject/1], + parse_or(Tokens, Flist). -parse_DefinedType(Tokens=[{typereference,_,_},{'{',_}|_Rest]) -> - parse_ParameterizedType(Tokens); -parse_DefinedType(Tokens=[{typereference,L1,TypeName}, - T2={typereference,_,_},T3={'{',_}|Rest]) -> - case (catch parse_ParameterizedType(Tokens)) of - {'EXIT',_Reason} -> - Rest2 = [T2,T3|Rest], - {#type{def = #'Externaltypereference'{pos=L1, - module=resolve_module(TypeName), - type=TypeName}},Rest2}; - {asn1_error,_} -> - Rest2 = [T2,T3|Rest], - {#type{def = #'Externaltypereference'{pos=L1, - module=resolve_module(TypeName), - type=TypeName}},Rest2}; - Result -> - Result - end; -parse_DefinedType(Tokens=[{typereference,_L1,_Module},{'.',_}, - {typereference,_,_TypeName},{'{',_}|_Rest]) -> - parse_ParameterizedType(Tokens); -parse_DefinedType([{typereference,L1,Module},{'.',_},{typereference,_,TypeName}|Rest]) -> - {#type{def = #'Externaltypereference'{pos=L1,module=Module,type=TypeName}},Rest}; -parse_DefinedType([{typereference,L1,TypeName}|Rest]) -> - case is_pre_defined_class(TypeName) of - false -> - {#type{def = #'Externaltypereference'{pos=L1,module=resolve_module(TypeName), - type=TypeName}},Rest}; - _ -> - throw({asn1_error, - {L1,get(asn1_module), - [got,TypeName,expected, - [typereference,'typereference.typereference', - 'typereference typereference']]}}) - end; +parse_DefinedType([{typereference,L1,Module}, + {'.',_}, + {typereference,_,TypeName}|Tokens]) -> + {#type{def = #'Externaltypereference'{pos=L1,module=Module, + type=TypeName}},Tokens}; +parse_DefinedType([{typereference,_,_}=Tr|Tokens]) -> + {#type{def=tref2Exttref(Tr)},Tokens}; parse_DefinedType(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typereference,'typereference.typereference', - 'typereference typereference']]}}). + parse_error(Tokens). -parse_SelectionType([{identifier,_,Name},{'<',_}|Rest]) -> +parse_SelectionType([#identifier{val=Name},{'<',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), - {{'SelectionType',Name,Type},Rest2}; + {#type{def={'SelectionType',Name,Type}},Rest2}; parse_SelectionType(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'identifier <']}}). + parse_error(Tokens). resolve_module(Type) -> @@ -787,30 +686,13 @@ resolve_module(_Type, Current, undefined) -> resolve_module(Type, Current, Imports) -> case [Mod || #'SymbolsFromModule'{symbols = S, module = Mod} <- Imports, #'Externaltypereference'{type = T} <- S, - Type == T] of + Type =:= T] of [#'Externaltypereference'{type = Mod}|_] -> Mod; %% This allows the same symbol to be imported several times %% which ought to be checked elsewhere and flagged as an error [] -> Current end. -%% -------------------------- - - -%% This should probably be removed very soon -% parse_ConstrainedType(Tokens) -> -% case (catch parse_TypeWithConstraint(Tokens)) of -% {'EXIT',Reason} -> -% {Type,Rest} = parse_Type(Tokens), -% {Constraint,Rest2} = parse_Constraint(Rest), -% {Type#type{constraint=Constraint},Rest2}; -% {asn1_error,Reason2} -> -% {Type,Rest} = parse_Type(Tokens), -% {Constraint,Rest2} = parse_Constraint(Rest), -% {Type#type{constraint=Constraint},Rest2}; -% Result -> -% Result -% end. parse_Constraints(Tokens) -> parse_Constraints(Tokens,[]). @@ -819,9 +701,9 @@ parse_Constraints(Tokens,Acc) -> {Constraint,Rest} = parse_Constraint(Tokens), case Rest of [{'(',_}|_Rest2] -> - parse_Constraints(Rest,[Constraint|Acc]); + parse_Constraints(Rest, [Constraint|Acc]); _ -> - {lists:reverse([Constraint|Acc]),Rest} + {lists:reverse(Acc, [Constraint]),Rest} end. parse_Constraint([{'(',_}|Rest]) -> @@ -830,46 +712,27 @@ parse_Constraint([{'(',_}|Rest]) -> case Rest3 of [{')',_}|Rest4] -> {#constraint{c=Constraint,e=Exception},Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,')']}}) - end; -parse_Constraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'(']}}). + [_|_] -> + parse_error(Rest3) + end. parse_ConstraintSpec(Tokens) -> Flist = [fun parse_GeneralConstraint/1, fun parse_SubtypeConstraint/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,Reason2} -> - throw({asn1_error,Reason2}); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ExceptionSpec([LPar={')',_}|Rest]) -> {undefined,[LPar|Rest]}; parse_ExceptionSpec([{'!',_}|Rest]) -> parse_ExceptionIdentification(Rest); parse_ExceptionSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,[')','!']]}}). + parse_error(Tokens). parse_ExceptionIdentification(Tokens) -> Flist = [fun parse_SignedNumber/1, fun parse_DefinedValue/1, fun parse_TypeColonValue/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,Reason2} -> - throw({asn1_error,Reason2}); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_TypeColonValue(Tokens) -> {Type,Rest} = parse_Type(Tokens), @@ -877,32 +740,28 @@ parse_TypeColonValue(Tokens) -> [{':',_}|Rest2] -> {Value,Rest3} = parse_Value(Rest2), {{Type,Value},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,':']}}) + [_|_] -> + parse_error(Rest) end. parse_SubtypeConstraint(Tokens) -> parse_ElementSetSpecs(Tokens). -parse_ElementSetSpecs([{'...',_}|Rest]) -> - {Elements,Rest2} = parse_ElementSetSpec(Rest), - {{[],Elements},Rest2}; parse_ElementSetSpecs(Tokens) -> {RootElems,Rest} = parse_ElementSetSpec(Tokens), case Rest of [{',',_},{'...',_},{',',_}|Rest2] -> {AdditionalElems,Rest3} = parse_ElementSetSpec(Rest2), - {{RootElems,AdditionalElems},Rest3}; + {{element_set,RootElems,AdditionalElems},Rest3}; [{',',_},{'...',_}|Rest2] -> - {{RootElems,[]},Rest2}; + {{element_set,RootElems,empty},Rest2}; _ -> - {RootElems,Rest} + {{element_set,RootElems,none},Rest} end. parse_ElementSetSpec([{'ALL',_},{'EXCEPT',_}|Rest]) -> {Exclusions,Rest2} = parse_Elements(Rest), - {{'ALL',{'EXCEPT',Exclusions}},Rest2}; + {{'ALL-EXCEPT',Exclusions},Rest2}; parse_ElementSetSpec(Tokens) -> parse_Unions(Tokens). @@ -918,14 +777,8 @@ parse_Unions(Tokens) -> case {InterSec,Unions} of {InterSec,[]} -> {InterSec,Rest2}; - {{'SingleValue',V1},{'SingleValue',V2}} -> - {{'SingleValue',ordsets:union(to_set(V1),to_set(V2))},Rest2}; - {V1,V2} when is_list(V2) -> - {[V1] ++ [union|V2],Rest2}; {V1,V2} -> - {[V1,union,V2],Rest2} -% Other -> -% throw(Other) + {{union,V1,V2},Rest2} end. parse_UnionsRec([{'|',_}|Rest]) -> @@ -934,12 +787,8 @@ parse_UnionsRec([{'|',_}|Rest]) -> case {InterSec,URec} of {V1,[]} -> {V1,Rest3}; - {{'SingleValue',V1},{'SingleValue',V2}} -> - {{'SingleValue',ordsets:union(to_set(V1),to_set(V2))},Rest3}; - {V1,V2} when is_list(V2) -> - {[V1] ++ [union|V2],Rest3}; {V1,V2} -> - {[V1,union,V2],Rest3} + {{union,V1,V2},Rest3} end; parse_UnionsRec([{'UNION',Info}|Rest]) -> parse_UnionsRec([{'|',Info}|Rest]); @@ -952,13 +801,8 @@ parse_Intersections(Tokens) -> case {InterSec,IRec} of {V1,[]} -> {V1,Rest2}; - {{'SingleValue',V1},{'SingleValue',V2}} -> - {{'SingleValue', - ordsets:intersection(to_set(V1),to_set(V2))},Rest2}; - {V1,V2} when is_list(V2) -> - {[V1] ++ [intersection|V2],Rest2}; {V1,V2} -> - {[V1,intersection,V2],Rest2} + {{intersection,V1,V2},Rest2} end. %% parse_IElemsRec(Tokens) -> Result @@ -967,15 +811,10 @@ parse_IElemsRec([{'^',_}|Rest]) -> {InterSec,Rest2} = parse_IntersectionElements(Rest), {IRec,Rest3} = parse_IElemsRec(Rest2), case {InterSec,IRec} of - {{'SingleValue',V1},{'SingleValue',V2}} -> - {{'SingleValue', - ordsets:intersection(to_set(V1),to_set(V2))},Rest3}; {V1,[]} -> - {V1,Rest3}; - {V1,V2} when is_list(V2) -> - {[V1] ++ [intersection|V2],Rest3}; + {V1,Rest2}; {V1,V2} -> - {[V1,intersection,V2],Rest3} + {{intersection,V1,V2},Rest3} end; parse_IElemsRec([{'INTERSECTION',Info}|Rest]) -> parse_IElemsRec([{'^',Info}|Rest]); @@ -992,7 +831,7 @@ parse_IntersectionElements(Tokens) -> case Rest of [{'EXCEPT',_}|Rest2] -> {Exclusion,Rest3} = parse_Elements(Rest2), - {{InterSec,{'EXCEPT',Exclusion}},Rest3}; + {{'EXCEPT',InterSec,Exclusion},Rest3}; Rest -> {InterSec,Rest} end. @@ -1006,102 +845,73 @@ parse_Elements([{'(',_}|Rest]) -> case Rest2 of [{')',_}|Rest3] -> {Elems,Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,')']}}) + [_|_] -> + parse_error(Rest2) end; parse_Elements(Tokens) -> Flist = [fun parse_ObjectSetElements/1, fun parse_SubtypeElements/1, -% fun parse_Value/1, -% fun parse_Type/1, fun parse_Object/1, fun parse_DefinedObjectSet/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - Err = {asn1_error,_} -> - throw(Err); - Result = {Val,_} when is_record(Val,type) -> - Result; - - Result -> - Result - end. - - + parse_or(Tokens, Flist). %% -------------------------- -parse_DefinedObjectClass([{typereference,_,_ModName},{'.',_},Tr={typereference,_,_ObjClName}|Rest]) -> -%% {{objectclassname,ModName,ObjClName},Rest}; -% {{objectclassname,tref2Exttref(Tr)},Rest}; - {tref2Exttref(Tr),Rest}; +parse_DefinedObjectClass([{typereference,_,ModName},{'.',_}, + {typereference,Pos,Name}|Tokens]) -> + Ext = #'Externaltypereference'{pos=Pos, + module=ModName, + type=Name}, + {Ext,Tokens}; parse_DefinedObjectClass([Tr={typereference,_,_ObjClName}|Rest]) -> -% {{objectclassname,tref2Exttref(Tr)},Rest}; {tref2Exttref(Tr),Rest}; parse_DefinedObjectClass(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - ['typereference . typereference', - typereference, - 'TYPE-IDENTIFIER', - 'ABSTRACT-SYNTAX']]}}). - -parse_ObjectClassAssignment([{typereference,L1,ObjClName},{'::=',_}|Rest]) -> - {Type,Rest2} = parse_ObjectClass(Rest), - {#classdef{pos=L1,name=ObjClName,module=resolve_module(Type), - typespec=Type},Rest2}; -parse_ObjectClassAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - 'typereference ::=']}}). + parse_error(Tokens). parse_ObjectClass(Tokens) -> - Flist = [fun parse_DefinedObjectClass/1, - fun parse_ObjectClassDefn/1, - fun parse_ParameterizedObjectClass/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,Reason2} -> - throw({asn1_error,Reason2}); - Result -> - Result - end. + Flist = [fun parse_ObjectClassDefn/1, + fun parse_DefinedObjectClass/1], + parse_or(Tokens, Flist). parse_ObjectClassDefn([{'CLASS',_},{'{',_}|Rest]) -> {Type,Rest2} = parse_FieldSpec(Rest), {WithSyntaxSpec,Rest3} = parse_WithSyntaxSpec(Rest2), {#objectclass{fields=Type,syntax=WithSyntaxSpec},Rest3}; parse_ObjectClassDefn(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'CLASS {']}}). + parse_error(Tokens). parse_FieldSpec(Tokens) -> parse_FieldSpec(Tokens,[]). -parse_FieldSpec(Tokens,Acc) -> - Flist = [fun parse_FixedTypeValueFieldSpec/1, - fun parse_VariableTypeValueFieldSpec/1, - fun parse_ObjectFieldSpec/1, - fun parse_FixedTypeValueSetFieldSpec/1, - fun parse_VariableTypeValueSetFieldSpec/1, - fun parse_TypeFieldSpec/1, - fun parse_ObjectSetFieldSpec/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); +parse_FieldSpec(Tokens0, Acc) -> + Fl = case Tokens0 of + [{valuefieldreference,_,_}|_] -> + %% 1) &field Type + %% &object CLASS-NAME + %% 2) &field &FieldName + %% A fixed type field cannot be distinguished from + %% an object field without type information. + [fun parse_FixedTypeValueFieldSpec/1, + fun parse_VariableTypeValueFieldSpec/1]; + [{typefieldreference,_,_}|_] -> + %% 1) &Set Type + %% &ObjectSet CLASS-NAME + %% 2) &Set &FieldName + %% 3) &Type + %% A value set and an object cannot be distinguished + %% without type information. + [fun parse_FixedTypeValueSetFieldSpec/1, + fun parse_VariableTypeValueSetFieldSpec/1, + fun parse_TypeFieldSpec/1]; + [_|_] -> + parse_error(Tokens0) + end, + case parse_or(Tokens0, Fl) of {Type,[{'}',_}|Rest]} -> - {lists:reverse([Type|Acc]),Rest}; + {lists:reverse(Acc, [Type]),Rest}; {Type,[{',',_}|Rest2]} -> - parse_FieldSpec(Rest2,[Type|Acc]); - {_,[H|_T]} -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + parse_FieldSpec(Rest2, [Type|Acc]) end. parse_PrimitiveFieldName([{typefieldreference,_,FieldName}|Rest]) -> @@ -1109,27 +919,19 @@ parse_PrimitiveFieldName([{typefieldreference,_,FieldName}|Rest]) -> parse_PrimitiveFieldName([{valuefieldreference,_,FieldName}|Rest]) -> {{valuefieldreference,FieldName},Rest}; parse_PrimitiveFieldName(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typefieldreference,valuefieldreference]]}}). + parse_error(Tokens). parse_FieldName(Tokens) -> {Field,Rest} = parse_PrimitiveFieldName(Tokens), parse_FieldName(Rest,[Field]). -parse_FieldName([{'.',_}|Rest],Acc) -> - case (catch parse_PrimitiveFieldName(Rest)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - {FieldName,Rest2} -> - parse_FieldName(Rest2,[FieldName|Acc]) - end; -parse_FieldName(Tokens,Acc) -> +parse_FieldName([{'.',_}|Rest0],Acc) -> + {FieldName,Rest1} = parse_PrimitiveFieldName(Rest0), + parse_FieldName(Rest1, [FieldName|Acc]); +parse_FieldName(Tokens, Acc) -> {lists:reverse(Acc),Tokens}. -parse_FixedTypeValueFieldSpec([{valuefieldreference,L1,VFieldName}|Rest]) -> +parse_FixedTypeValueFieldSpec([{valuefieldreference,_,VFieldName}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {Unique,Rest3} = case Rest2 of @@ -1139,109 +941,61 @@ parse_FixedTypeValueFieldSpec([{valuefieldreference,L1,VFieldName}|Rest]) -> {undefined,Rest2} end, {OptionalitySpec,Rest5} = parse_ValueOptionalitySpec(Rest3), - case {Unique,Rest5} of - {'UNIQUE',[{Del,_}|_]} when Del =:= ','; Del =:= '}' -> - case OptionalitySpec of - {'DEFAULT',_} -> - throw({asn1_error, - {L1,get(asn1_module), - ['UNIQUE and DEFAULT in same field',VFieldName]}}); - _ -> - {{fixedtypevaluefield,VFieldName,Type,Unique,OptionalitySpec},Rest5} - end; - {_,[{Del,_}|_]} when Del =:= ','; Del =:= '}' -> - {{object_or_fixedtypevalue_field,VFieldName,Type,Unique,OptionalitySpec},Rest5}; - _ -> - throw({asn1_error,{L1,get(asn1_module), - [got,get_token(hd(Rest5)),expected,[',','}']]}}) - end; -parse_FixedTypeValueFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,valuefieldreference]}}). + case is_end_delimiter(Rest5) of + false -> parse_error(Rest5); + true -> ok + end, + Tag = case Unique of + 'UNIQUE' -> fixedtypevaluefield; + _ -> object_or_fixedtypevalue_field + end, + {{Tag,VFieldName,Type,Unique,OptionalitySpec},Rest5}. + +parse_VariableTypeValueFieldSpec([{valuefieldreference,_,VFieldName}|Rest0]) -> + {FieldRef,Rest1} = parse_FieldName(Rest0), + {OptionalitySpec,Rest} = parse_ValueOptionalitySpec(Rest1), + case is_end_delimiter(Rest) of + true -> + {{variabletypevaluefield,VFieldName,FieldRef,OptionalitySpec}, + Rest}; + false -> + parse_error(Rest) + end. -parse_VariableTypeValueFieldSpec([{valuefieldreference,L,VFieldName}|Rest]) -> - {FieldRef,Rest2} = parse_FieldName(Rest), - {OptionalitySpec,Rest3} = parse_ValueOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{variabletypevaluefield,VFieldName,FieldRef,OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_VariableTypeValueFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,valuefieldreference]}}). +parse_TypeFieldSpec([{typefieldreference,_,Name}|Rest0]) -> + {OptionalitySpec,Rest} = parse_TypeOptionalitySpec(Rest0), + case is_end_delimiter(Rest) of + true -> + {{typefield,Name,OptionalitySpec},Rest}; + false -> + parse_error(Rest) + end. -parse_ObjectFieldSpec([{valuefieldreference,L,VFieldName}|Rest]) -> - {Class,Rest2} = parse_DefinedObjectClass(Rest), - {OptionalitySpec,Rest3} = parse_ObjectOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{objectfield,VFieldName,Class,undefined,OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_ObjectFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,valuefieldreference]}}). +parse_FixedTypeValueSetFieldSpec([{typefieldreference,_,Name}|Rest0]) -> + {Type,Rest1} = parse_Type(Rest0), + {OptionalitySpec,Rest} = parse_ValueSetOptionalitySpec(Rest1), + case is_end_delimiter(Rest) of + true -> + {{objectset_or_fixedtypevalueset_field,Name,Type, + OptionalitySpec},Rest}; + false -> + parse_error(Rest) + end. -parse_TypeFieldSpec([{typefieldreference,L,TFieldName}|Rest]) -> - {OptionalitySpec,Rest2} = parse_TypeOptionalitySpec(Rest), - case Rest2 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{typefield,TFieldName,OptionalitySpec},Rest2}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest2)),expected,[',','}']]}}) - end; -parse_TypeFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typefieldreference]}}). +parse_VariableTypeValueSetFieldSpec([{typefieldreference,_,Name}|Rest0]) -> + {FieldRef,Rest1} = parse_FieldName(Rest0), + {OptionalitySpec,Rest} = parse_ValueSetOptionalitySpec(Rest1), + case is_end_delimiter(Rest) of + true -> + {{variabletypevaluesetfield,Name,FieldRef,OptionalitySpec}, + Rest}; + false -> + parse_error(Rest) + end. -parse_FixedTypeValueSetFieldSpec([{typefieldreference,L,TFieldName}|Rest]) -> - {Type,Rest2} = parse_Type(Rest), - {OptionalitySpec,Rest3} = parse_ValueSetOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{objectset_or_fixedtypevalueset_field,TFieldName,Type, - OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_FixedTypeValueSetFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typefieldreference]}}). - -parse_VariableTypeValueSetFieldSpec([{typefieldreference,L,TFieldName}|Rest]) -> - {FieldRef,Rest2} = parse_FieldName(Rest), - {OptionalitySpec,Rest3} = parse_ValueSetOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{variabletypevaluesetfield,TFieldName,FieldRef,OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_VariableTypeValueSetFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typefieldreference]}}). - -parse_ObjectSetFieldSpec([{typefieldreference,L,TFieldName}|Rest]) -> - {Class,Rest2} = parse_DefinedObjectClass(Rest), - {OptionalitySpec,Rest3} = parse_ObjectSetOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{objectsetfield,TFieldName,Class,OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_ObjectSetFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typefieldreference]}}). +is_end_delimiter([{',',_}|_]) -> true; +is_end_delimiter([{'}',_}|_]) -> true; +is_end_delimiter([_|_]) -> false. parse_ValueOptionalitySpec(Tokens)-> case Tokens of @@ -1252,15 +1006,6 @@ parse_ValueOptionalitySpec(Tokens)-> _ -> {'MANDATORY',Tokens} end. -parse_ObjectOptionalitySpec(Tokens) -> - case Tokens of - [{'OPTIONAL',_}|Rest] -> {'OPTIONAL',Rest}; - [{'DEFAULT',_}|Rest] -> - {Object,Rest2} = parse_Object(Rest), - {{'DEFAULT',Object},Rest2}; - _ -> {'MANDATORY',Tokens} - end. - parse_TypeOptionalitySpec(Tokens) -> case Tokens of [{'OPTIONAL',_}|Rest] -> {'OPTIONAL',Rest}; @@ -1279,65 +1024,44 @@ parse_ValueSetOptionalitySpec(Tokens) -> _ -> {'MANDATORY',Tokens} end. -parse_ObjectSetOptionalitySpec(Tokens) -> - case Tokens of - [{'OPTIONAL',_}|Rest] -> {'OPTIONAL',Rest}; - [{'DEFAULT',_}|Rest] -> - {ObjectSet,Rest2} = parse_ObjectSet(Rest), - {{'DEFAULT',ObjectSet},Rest2}; - _ -> {'MANDATORY',Tokens} - end. - parse_WithSyntaxSpec([{'WITH',_},{'SYNTAX',_}|Rest]) -> {SyntaxList,Rest2} = parse_SyntaxList(Rest), {{'WITH SYNTAX',SyntaxList},Rest2}; parse_WithSyntaxSpec(Tokens) -> {[],Tokens}. -parse_SyntaxList([{'{',_},{'}',_}|Rest]) -> - {[],Rest}; parse_SyntaxList([{'{',_}|Rest]) -> parse_SyntaxList(Rest,[]); parse_SyntaxList(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,['{}','{']]}}). + parse_error(Tokens). -parse_SyntaxList(Tokens,Acc) -> +parse_SyntaxList(Tokens, Acc) -> {SyntaxList,Rest} = parse_TokenOrGroupSpec(Tokens), case Rest of [{'}',_}|Rest2] -> - {lists:reverse([SyntaxList|Acc]),Rest2}; + {lists:reverse(Acc, [SyntaxList]),Rest2}; _ -> - parse_SyntaxList(Rest,[SyntaxList|Acc]) + parse_SyntaxList(Rest, [SyntaxList|Acc]) end. parse_TokenOrGroupSpec(Tokens) -> Flist = [fun parse_RequiredToken/1, fun parse_OptionalGroup/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). -parse_RequiredToken([{typereference,L1,WordName}|Rest]) -> +parse_RequiredToken([{typereference,_,WordName}|Rest]=Tokens) -> case is_word(WordName) of false -> - throw({asn1_error,{L1,get(asn1_module), - [got,WordName,expected,a,'Word']}}); + parse_error(Tokens); true -> {WordName,Rest} end; parse_RequiredToken([{',',L1}|Rest]) -> {{',',L1},Rest}; -parse_RequiredToken([{WordName,L1}|Rest]) -> +parse_RequiredToken([{WordName,_}|Rest]=Tokens) -> case is_word(WordName) of false -> - throw({asn1_error,{L1,get(asn1_module), - [got,WordName,expected,a,'Word']}}); + parse_error(Tokens); true -> {WordName,Rest} end; @@ -1347,7 +1071,9 @@ parse_RequiredToken(Tokens) -> parse_OptionalGroup([{'[',_}|Rest]) -> {Spec,Rest2} = parse_TokenOrGroupSpec(Rest), {SpecList,Rest3} = parse_OptionalGroup(Rest2,[Spec]), - {SpecList,Rest3}. + {SpecList,Rest3}; +parse_OptionalGroup(Tokens) -> + parse_error(Tokens). parse_OptionalGroup([{']',_}|Rest],Acc) -> {lists:reverse(Acc),Rest}; @@ -1355,82 +1081,55 @@ parse_OptionalGroup(Tokens,Acc) -> {Spec,Rest} = parse_TokenOrGroupSpec(Tokens), parse_OptionalGroup(Rest,[Spec|Acc]). -parse_DefinedObject([Id={identifier,_,_ObjName}|Rest]) -> +parse_DefinedObject([#identifier{}=Id|Rest]) -> {{object,identifier2Extvalueref(Id)},Rest}; -parse_DefinedObject([{typereference,L1,ModName},{'.',_},{identifier,_,ObjName}|Rest]) -> +parse_DefinedObject([{typereference,L1,ModName},{'.',_},#identifier{val=ObjName}|Rest]) -> {{object, #'Externaltypereference'{pos=L1,module=ModName,type=ObjName}},Rest}; parse_DefinedObject(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [identifier,'typereference.identifier']]}}). + parse_error(Tokens). -parse_ObjectAssignment([{identifier,L1,ObjName}|Rest]) -> +parse_ObjectAssignment([#identifier{pos=L1,val=ObjName}|Rest]) -> {Class,Rest2} = parse_DefinedObjectClass(Rest), case Rest2 of [{'::=',_}|Rest3] -> {Object,Rest4} = parse_Object(Rest3), {#typedef{pos=L1,name=ObjName, typespec=#'Object'{classname=Class,def=Object}},Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}); - Other -> - throw({asn1_error,{L1,get(asn1_module), - [got,Other,expected,'::=']}}) - end; -parse_ObjectAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). - + _ -> + parse_error(Rest2) + end. %% parse_Object(Tokens) -> Ret %% Tokens = [Tok] %% Tok = tuple() %% Ret = {object,_} | {object, _, _} parse_Object(Tokens) -> - Flist=[fun parse_ObjectDefn/1, - fun parse_ObjectFromObject/1, - fun parse_ParameterizedObject/1, - fun parse_DefinedObject/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + %% The ObjectFromObject production is not included here, + %% since it will have been catched by the ValueFromObject + %% before we reach this point. + Flist = [fun parse_ObjectDefn/1, + fun parse_DefinedObject/1], + parse_or(Tokens, Flist). parse_ObjectDefn(Tokens) -> Flist=[fun parse_DefaultSyntax/1, fun parse_DefinedSyntax/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). -parse_DefaultSyntax([{'{',_},{'}',_}|Rest]) -> - {{object,defaultsyntax,[]},Rest}; parse_DefaultSyntax([{'{',_}|Rest]) -> parse_DefaultSyntax(Rest,[]); parse_DefaultSyntax(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,['{}','{']]}}). + parse_error(Tokens). -parse_DefaultSyntax(Tokens,Acc) -> +parse_DefaultSyntax(Tokens, Acc) -> {Setting,Rest} = parse_FieldSetting(Tokens), case Rest of [{',',_}|Rest2] -> parse_DefaultSyntax(Rest2,[Setting|Acc]); [{'}',_}|Rest3] -> - {{object,defaultsyntax,lists:reverse([Setting|Acc])},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,[',','}']]}}) + {{object,defaultsyntax,lists:reverse(Acc, [Setting])},Rest3}; + _ -> + parse_error(Rest) end. parse_FieldSetting(Tokens) -> @@ -1439,7 +1138,9 @@ parse_FieldSetting(Tokens) -> {{PrimFieldName,Setting},Rest2}. parse_DefinedSyntax([{'{',_}|Rest]) -> - parse_DefinedSyntax(Rest,[]). + parse_DefinedSyntax(Rest, []); +parse_DefinedSyntax(Tokens) -> + parse_error(Tokens). parse_DefinedSyntax(Tokens,Acc) -> case Tokens of @@ -1455,95 +1156,70 @@ parse_DefinedSyntax(Tokens,Acc) -> %% Literal ::= word | ',' %% Setting ::= Type | Value | ValueSet | Object | ObjectSet %% word equals typereference, but no lower cases -parse_DefinedSyntaxToken([{',',L1}|Rest]) -> - {{',',L1},Rest}; +parse_DefinedSyntaxToken([{',',_}=Comma|Rest]) -> + {Comma,Rest}; %% ObjectClassFieldType or a defined type with a constraint. %% Should also be able to parse a parameterized type. It may be %% impossible to distinguish between a parameterized type and a Literal %% followed by an object set. -parse_DefinedSyntaxToken(Tokens=[{typereference,L1,_Name},{T,_}|_Rest]) - when T == '.'; T == '(' -> - case catch parse_Setting(Tokens) of - {asn1_error,_} -> - throw({asn1_error,{L1,get(asn1_module), - [got,hd(Tokens), expected,['Word',setting]]}}); - {'EXIT',Reason} -> - exit(Reason); - Result -> - Result - end; -parse_DefinedSyntaxToken(Tokens=[TRef={typereference,L1,Name}|Rest]) -> +parse_DefinedSyntaxToken([{typereference,_,_Name},{T,_}|_]=Tokens) + when T =:= '.'; T =:= '(' -> + parse_Setting(Tokens); +parse_DefinedSyntaxToken([{typereference,L1,Name}=TRef|Rest]=Tokens) -> case is_word(Name) of false -> case lookahead_definedsyntax(Rest) of word_or_setting -> {{setting,L1,tref2Exttref(TRef)},Rest}; - _ -> + setting -> parse_Setting(Tokens) end; true -> - %% {{word_or_setting,L1,Name},Rest} {{word_or_setting,L1,tref2Exttref(TRef)},Rest} end; parse_DefinedSyntaxToken(Tokens) -> - case catch parse_Setting(Tokens) of - {asn1_error,_} -> - parse_Word(Tokens); - {'EXIT',Reason} -> - exit(Reason); - Result -> + try parse_Setting(Tokens) of + {_,_}=Result -> Result + catch + throw:{asn1_error,_} -> + parse_Word(Tokens) end. lookahead_definedsyntax([{typereference,_,Name}|_Rest]) -> - case is_word(Name) of + case is_word(Name) of true -> word_or_setting; - _ -> setting + false -> setting end; lookahead_definedsyntax([{'}',_}|_Rest]) -> word_or_setting; lookahead_definedsyntax(_) -> setting. -parse_Word([{Name,Pos}|Rest]) -> +parse_Word([{Name,Pos}|Rest]=Tokens) -> case is_word(Name) of false -> - throw({asn1_error,{Pos,get(asn1_module), - [got,Name, expected,a,'Word']}}); + parse_error(Tokens); true -> {{word_or_setting,Pos,tref2Exttref(Pos,Name)},Rest} - end. + end; +parse_Word(Tokens) -> + parse_error(Tokens). parse_Setting(Tokens) -> Flist = [{type_tag,fun parse_Type/1}, {value_tag,fun parse_Value/1}, {object_tag,fun parse_Object/1}, {objectset_tag,fun parse_ObjectSet/1}], - case (catch parse_or_tag(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result = {{value_tag,_},_} -> + case parse_or_tag(Tokens, Flist) of + {{value_tag,_},_}=Result -> + %% Keep the value_tag. Result; {{Tag,Setting},Rest} when is_atom(Tag) -> + %% Remove all other tags. {Setting,Rest} end. -%% parse_Setting(Tokens) -> -%% Flist = [fun parse_Type/1, -%% fun parse_Value/1, -%% fun parse_Object/1, -%% fun parse_ObjectSet/1], -%% case (catch parse_or(Tokens,Flist)) of -%% {'EXIT',Reason} -> -%% exit(Reason); -%% AsnErr = {asn1_error,_} -> -%% throw(AsnErr); -%% Result -> -%% Result -%% end. - parse_DefinedObjectSet([{typereference,L1,ModuleName},{'.',_}, {typereference,L2,ObjSetName}|Rest]) -> {{objectset,L1,#'Externaltypereference'{pos=L2,module=ModuleName, @@ -1552,9 +1228,7 @@ parse_DefinedObjectSet([{typereference,L1,ObjSetName}|Rest]) -> {{objectset,L1,#'Externaltypereference'{pos=L1,module=resolve_module(ObjSetName), type=ObjSetName}},Rest}; parse_DefinedObjectSet(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typereference,'typereference.typereference']]}}). + parse_error(Tokens). parse_ObjectSetAssignment([{typereference,L1,ObjSetName}|Rest]) -> {Class,Rest2} = parse_DefinedObjectClass(Rest), @@ -1564,16 +1238,9 @@ parse_ObjectSetAssignment([{typereference,L1,ObjSetName}|Rest]) -> {#typedef{pos=L1,name=ObjSetName, typespec=#'ObjectSet'{class=Class, set=ObjectSet}},Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) -%%% Other -> -%%% throw(Other) - end; -parse_ObjectSetAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest2) + end. %% parse_ObjectSet(Tokens) -> {Ret,Rest} %% Tokens = [Tok] @@ -1590,26 +1257,20 @@ parse_ObjectSet([{'{',_}|Rest]) -> case Rest2 of [{'}',_}|Rest3] -> {ObjSetSpec,Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + _ -> + parse_error(Rest2) end; parse_ObjectSet(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_error(Tokens). -parse_ObjectSetSpec([{'...',_}|Rest]) -> - case Rest of - [{',',_}|Rest2] -> - {Elements,Rest3}=parse_ElementSetSpecs(Rest2), - {{[],Elements},Rest3}; - _ -> - {['EXTENSIONMARK'],Rest} - end; +parse_ObjectSetSpec([{'...',_},{',',_}|Tokens0]) -> + {Elements,Tokens} = parse_ElementSetSpec(Tokens0), + {{element_set,empty,Elements},Tokens}; +parse_ObjectSetSpec([{'...',_}|Tokens]) -> + {{element_set,empty,empty},Tokens}; parse_ObjectSetSpec(Tokens) -> parse_ElementSetSpecs(Tokens). -% moved fun parse_Object/1 and fun parse_DefinedObjectSet/1 to parse_Elements %% parse_ObjectSetElements(Tokens) -> {Result,Rest} %% Result ::= {'ObjectSetFromObjects',Objects,Name} | {pos,ObjectSet,Params} %% Objects ::= ReferencedObjects @@ -1619,18 +1280,9 @@ parse_ObjectSetSpec(Tokens) -> %% ObjectSet ::= {objectset,integer(),#'Externaltypereference'{}} %% Params ::= list() (see parse_ActualParameterList/1) parse_ObjectSetElements(Tokens) -> - Flist = [%fun parse_Object/1, - %fun parse_DefinedObjectSet/1, - fun parse_ObjectSetFromObjects/1, + Flist = [fun parse_ObjectSetFromObjects/1, fun parse_ParameterizedObjectSet/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ObjectClassFieldType(Tokens) -> {Class,Rest} = parse_DefinedObjectClass(Tokens), @@ -1641,25 +1293,10 @@ parse_ObjectClassFieldType(Tokens) -> classname=Class, class=Class,fieldname=FieldName}, {#type{def=OCFT},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) -%%% Other -> -%%% throw(Other) + _ -> + parse_error(Rest) end. -%parse_ObjectClassFieldValue(Tokens) -> -% Flist = [fun parse_OpenTypeFieldVal/1, -% fun parse_FixedTypeFieldVal/1], -% case (catch parse_or(Tokens,Flist)) of -% {'EXIT',Reason} -> -% throw(Reason); -% AsnErr = {asn1_error,_} -> -% throw(AsnErr); -% Result -> -% Result -% end. - parse_ObjectClassFieldValue(Tokens) -> parse_OpenTypeFieldVal(Tokens). @@ -1669,28 +1306,10 @@ parse_OpenTypeFieldVal(Tokens) -> [{':',_}|Rest2] -> {Value,Rest3} = parse_Value(Rest2), {{opentypefieldvalue,Type,Value},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,':']}}) + _ -> + parse_error(Rest) end. -% parse_FixedTypeFieldVal(Tokens) -> -% parse_Value(Tokens). - -% parse_InformationFromObjects(Tokens) -> -% Flist = [fun parse_ValueFromObject/1, -% fun parse_ValueSetFromObjects/1, -% fun parse_TypeFromObject/1, -% fun parse_ObjectFromObject/1], -% case (catch parse_or(Tokens,Flist)) of -% {'EXIT',Reason} -> -% throw(Reason); -% AsnErr = {asn1_error,_} -> -% throw(AsnErr); -% Result -> -% Result -% end. - %% parse_ReferencedObjects(Tokens) -> {Result,Rest} %% Result ::= DefObject | DefObjSet | %% {po,DefObject,Params} | {pos,DefObjSet,Params} | @@ -1702,18 +1321,11 @@ parse_OpenTypeFieldVal(Tokens) -> parse_ReferencedObjects(Tokens) -> Flist = [fun parse_DefinedObject/1, fun parse_DefinedObjectSet/1, - fun parse_ParameterizedObject/1, fun parse_ParameterizedObjectSet/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ValueFromObject(Tokens) -> + %% This production also matches ObjectFromObject. {Objects,Rest} = parse_ReferencedObjects(Tokens), case Rest of [{'.',_}|Rest2] -> @@ -1722,35 +1334,10 @@ parse_ValueFromObject(Tokens) -> {valuefieldreference,_} -> {{'ValueFromObject',Objects,Name},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,typefieldreference,expected, - valuefieldreference]}}) + parse_error(Rest2) end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) -%%% Other -> -%%% throw({asn1_error,{got,Other,expected,'.'}}) - end. - -parse_ValueSetFromObjects(Tokens) -> - {Objects,Rest} = parse_ReferencedObjects(Tokens), - case Rest of - [{'.',_}|Rest2] -> - {Name,Rest3} = parse_FieldName(Rest2), - case lists:last(Name) of - {typefieldreference,_FieldName} -> - {{'ValueSetFromObjects',Objects,Name},Rest3}; - _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected, - typefieldreference]}}) - end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) -%%% Other -> -%%% throw({asn1_error,{got,Other,expected,'.'}}) + _ -> + parse_error(Rest) end. parse_TypeFromObject(Tokens) -> @@ -1760,28 +1347,12 @@ parse_TypeFromObject(Tokens) -> {Name,Rest3} = parse_FieldName(Rest2), case lists:last(Name) of {typefieldreference,_FieldName} -> - {{'TypeFromObject',Objects,Name},Rest3}; + {#type{def={'TypeFromObject',Objects,Name}},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected, - typefieldreference]}}) + parse_error(Rest2) end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) -%%% Other -> -%%% throw({asn1_error,{got,Other,expected,'.'}}) - end. - -parse_ObjectFromObject(Tokens) -> - {Objects,Rest} = parse_ReferencedObjects(Tokens), - case Rest of - [{'.',_}|Rest2] -> - {Name,Rest3} = parse_FieldName(Rest2), - {{'ObjectFromObject',Objects,Name},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) + _ -> + parse_error(Rest) end. %% parse_ObjectSetFromObjects(Tokens) -> {Result,Rest} @@ -1799,23 +1370,12 @@ parse_ObjectSetFromObjects(Tokens) -> {typefieldreference,_FieldName} -> {{'ObjectSetFromObjects',Objects,Name},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected, - typefieldreference]}}) + parse_error(Rest2) end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) + _ -> + parse_error(Rest) end. -% parse_InstanceOfType([{'INSTANCE',_},{'OF',_}|Rest]) -> -% {Class,Rest2} = parse_DefinedObjectClass(Rest), -% {{'InstanceOfType',Class},Rest2}. - -% parse_InstanceOfValue(Tokens) -> -% parse_Value(Tokens). - - %% X.682 constraint specification @@ -1823,14 +1383,7 @@ parse_GeneralConstraint(Tokens) -> Flist = [fun parse_UserDefinedConstraint/1, fun parse_TableConstraint/1, fun parse_ContentsConstraint/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_UserDefinedConstraint([{'CONSTRAINED',_},{'BY',_},{'{',_},{'}',_}|Rest])-> {{constrained_by,[]},Rest}; @@ -1841,32 +1394,23 @@ parse_UserDefinedConstraint([{'CONSTRAINED',_}, case Rest2 of [{'}',_}|Rest3] -> {{constrained_by,Param},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + _ -> + parse_error(Rest2) end; parse_UserDefinedConstraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - ['CONSTRAINED BY {}','CONSTRAINED BY {']]}}). + parse_error(Tokens). parse_UserDefinedConstraintParameter(Tokens) -> - parse_UserDefinedConstraintParameter(Tokens,[]). -parse_UserDefinedConstraintParameter(Tokens,Acc) -> + parse_UserDefinedConstraintParameter(Tokens, []). + +parse_UserDefinedConstraintParameter(Tokens0, Acc) -> Flist = [fun parse_GovernorAndActualParameter/1, fun parse_ActualParameter/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - {Result,Rest} -> - case Rest of - [{',',_}|_Rest2] -> - parse_UserDefinedConstraintParameter(Tokens,[Result|Acc]); - _ -> - {lists:reverse([Result|Acc]),Rest} - end + case parse_or(Tokens0, Flist) of + {Result,[{',',_}|Tokens]} -> + parse_UserDefinedConstraintParameter(Tokens, [Result|Acc]); + {Result,Tokens} -> + {lists:reverse(Acc, [Result]),Tokens} end. parse_GovernorAndActualParameter(Tokens) -> @@ -1875,26 +1419,18 @@ parse_GovernorAndActualParameter(Tokens) -> [{':',_}|Rest2] -> {Params,Rest3} = parse_ActualParameter(Rest2), {{'Governor_Params',Governor,Params},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,':']}}) + _ -> + parse_error(Rest) end. parse_TableConstraint(Tokens) -> Flist = [fun parse_ComponentRelationConstraint/1, fun parse_SimpleTableConstraint/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_SimpleTableConstraint(Tokens) -> {ObjectSet,Rest} = parse_ObjectSet(Tokens), - {{simpletable,ObjectSet},Rest}. + {{element_set,{simpletable,ObjectSet},none},Rest}. parse_ComponentRelationConstraint([{'{',_}|Rest]) -> {ObjectSet,Rest2} = parse_DefinedObjectSet(Rest), @@ -1903,21 +1439,18 @@ parse_ComponentRelationConstraint([{'{',_}|Rest]) -> {AtNot,Rest4} = parse_AtNotationList(Rest3,[]), case Rest4 of [{'}',_}|Rest5] -> - {{componentrelation,ObjectSet,AtNot},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + Ret = {element_set, + {componentrelation,ObjectSet,AtNot}, + none}, + {Ret,Rest5}; + _ -> + parse_error(Rest4) end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected, - 'ComponentRelationConstraint',ended,with,'}']}}) -%%% Other -> -%%% throw(Other) + _ -> + parse_error(Rest2) end; parse_ComponentRelationConstraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_error(Tokens). parse_AtNotationList(Tokens,Acc) -> {AtNot,Rest} = parse_AtNotation(Tokens), @@ -1925,7 +1458,7 @@ parse_AtNotationList(Tokens,Acc) -> [{',',_}|Rest2] -> parse_AtNotationList(Rest2,[AtNot|Acc]); _ -> - {lists:reverse([AtNot|Acc]),Rest} + {lists:reverse(Acc, [AtNot]),Rest} end. parse_AtNotation([{'@',_},{'.',_}|Rest]) -> @@ -1935,20 +1468,17 @@ parse_AtNotation([{'@',_}|Rest]) -> {CIdList,Rest2} = parse_ComponentIdList(Rest), {{outermost,CIdList},Rest2}; parse_AtNotation(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,['@','@.']]}}). + parse_error(Tokens). parse_ComponentIdList(Tokens) -> parse_ComponentIdList(Tokens,[]). -parse_ComponentIdList([Id = {identifier,_,_},{'.',_}|Rest],Acc) -> +parse_ComponentIdList([#identifier{}=Id,{'.',_}|Rest], Acc) -> parse_ComponentIdList(Rest,[identifier2Extvalueref(Id)|Acc]); -parse_ComponentIdList([Id = {identifier,_,_}|Rest],Acc) -> - {lists:reverse([identifier2Extvalueref(Id)|Acc]),Rest}; +parse_ComponentIdList([#identifier{}=Id|Rest], Acc) -> + {lists:reverse(Acc, [identifier2Extvalueref(Id)]),Rest}; parse_ComponentIdList(Tokens,_) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [identifier,'identifier.']]}}). + parse_error(Tokens). parse_ContentsConstraint([{'CONTAINING',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), @@ -1963,24 +1493,14 @@ parse_ContentsConstraint([{'ENCODED',_},{'BY',_}|Rest]) -> {Value,Rest2} = parse_Value(Rest), {{contentsconstraint,[],Value},Rest2}; parse_ContentsConstraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - 'CONTAINING','or','ENCODED BY']}}). - + parse_error(Tokens). % X.683 Parameterization of ASN.1 specifications parse_Governor(Tokens) -> Flist = [fun parse_Type/1, fun parse_DefinedObjectClass/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ActualParameter(Tokens) -> Flist = [fun parse_Type/1, @@ -1989,32 +1509,7 @@ parse_ActualParameter(Tokens) -> fun parse_DefinedObjectClass/1, fun parse_Object/1, fun parse_ObjectSet/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. - -parse_ParameterizedAssignment(Tokens) -> - Flist = [fun parse_ParameterizedTypeAssignment/1, - fun parse_ParameterizedValueAssignment/1, - fun parse_ParameterizedValueSetTypeAssignment/1, - fun parse_ParameterizedObjectClassAssignment/1, - fun parse_ParameterizedObjectAssignment/1, - fun parse_ParameterizedObjectSetAssignment/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - AsnAssErr = {asn1_assignment_error,_} -> - throw(AsnAssErr); - Result -> - Result - end. + parse_or(Tokens, Flist). %% parse_ParameterizedTypeAssignment(Tokens) -> Result %% Result = {#ptypedef{},Rest} | throw() @@ -2025,18 +1520,13 @@ parse_ParameterizedTypeAssignment([{typereference,L1,Name}|Rest]) -> {Type,Rest4} = parse_Type(Rest3), {#ptypedef{pos=L1,name=Name,args=ParameterList,typespec=Type}, Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ParameterizedTypeAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest2) + end. %% parse_ParameterizedValueAssignment(Tokens) -> Result %% Result = {#pvaluedef{},Rest} | throw() -parse_ParameterizedValueAssignment([{identifier,L1,Name}|Rest]) -> +parse_ParameterizedValueAssignment([#identifier{pos=L1,val=Name}|Rest]) -> {ParameterList,Rest2} = parse_ParameterList(Rest), {Type,Rest3} = parse_Type(Rest2), case Rest3 of @@ -2044,13 +1534,9 @@ parse_ParameterizedValueAssignment([{identifier,L1,Name}|Rest]) -> {Value,Rest5} = parse_Value(Rest4), {#pvaluedef{pos=L1,name=Name,args=ParameterList,type=Type, value=Value},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ParameterizedValueAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + _ -> + parse_error(Rest3) + end. %% parse_ParameterizedValueSetTypeAssignment(Tokens) -> Result %% Result = {#pvaluesetdef{},Rest} | throw() @@ -2062,14 +1548,9 @@ parse_ParameterizedValueSetTypeAssignment([{typereference,L1,Name}|Rest]) -> {ValueSet,Rest5} = parse_ValueSet(Rest4), {#pvaluesetdef{pos=L1,name=Name,args=ParameterList, type=Type,valueset=ValueSet},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ParameterizedValueSetTypeAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest3) + end. %% parse_ParameterizedObjectClassAssignment(Tokens) -> Result %% Result = {#ptypedef{},Rest} | throw() @@ -2080,18 +1561,13 @@ parse_ParameterizedObjectClassAssignment([{typereference,L1,Name}|Rest]) -> {Class,Rest4} = parse_ObjectClass(Rest3), {#ptypedef{pos=L1,name=Name,args=ParameterList,typespec=Class}, Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ParameterizedObjectClassAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest2) + end. %% parse_ParameterizedObjectAssignment(Tokens) -> Result %% Result = {#pobjectdef{},Rest} | throw() -parse_ParameterizedObjectAssignment([{identifier,L1,Name}|Rest]) -> +parse_ParameterizedObjectAssignment([#identifier{pos=L1,val=Name}|Rest]) -> {ParameterList,Rest2} = parse_ParameterList(Rest), {Class,Rest3} = parse_DefinedObjectClass(Rest2), case Rest3 of @@ -2099,36 +1575,9 @@ parse_ParameterizedObjectAssignment([{identifier,L1,Name}|Rest]) -> {Object,Rest5} = parse_Object(Rest4), {#pobjectdef{pos=L1,name=Name,args=ParameterList, class=Class,def=Object},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) -%%% Other -> -%%% throw(Other) - end; -parse_ParameterizedObjectAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). - -%% parse_ParameterizedObjectSetAssignment(Tokens) -> Result -%% Result = {#pobjectsetdef{},Rest} | throw{} -parse_ParameterizedObjectSetAssignment([{typereference,L1,Name}|Rest]) -> - {ParameterList,Rest2} = parse_ParameterList(Rest), - {Class,Rest3} = parse_DefinedObjectClass(Rest2), - case Rest3 of - [{'::=',_}|Rest4] -> - {ObjectSet,Rest5} = parse_ObjectSet(Rest4), - {#pobjectsetdef{pos=L1,name=Name,args=ParameterList, - class=Class,def=ObjectSet},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) -%%% Other -> -%%% throw(Other) - end; -parse_ParameterizedObjectSetAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest3) + end. %% parse_ParameterList(Tokens) -> Result %% Result = [Parameter] @@ -2137,35 +1586,24 @@ parse_ParameterizedObjectSetAssignment(Tokens) -> %% Type = #type{} %% DefinedObjectClass = #'Externaltypereference'{} %% Reference = #'Externaltypereference'{} | #'Externalvaluereference'{} -parse_ParameterList([{'{',_}|Rest]) -> - parse_ParameterList(Rest,[]); -parse_ParameterList(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). +parse_ParameterList([{'{',_}|Tokens]) -> + parse_ParameterList(Tokens, []). parse_ParameterList(Tokens,Acc) -> {Parameter,Rest} = parse_Parameter(Tokens), case Rest of [{',',_}|Rest2] -> - parse_ParameterList(Rest2,[Parameter|Acc]); + parse_ParameterList(Rest2, [Parameter|Acc]); [{'}',_}|Rest3] -> - {lists:reverse([Parameter|Acc]),Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,[',','}']]}}) + {lists:reverse(Acc, [Parameter]),Rest3}; + _ -> + parse_error(Rest) end. parse_Parameter(Tokens) -> Flist = [fun parse_ParamGovAndRef/1, fun parse_Reference/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ParamGovAndRef(Tokens) -> {ParamGov,Rest} = parse_ParamGovernor(Tokens), @@ -2173,86 +1611,54 @@ parse_ParamGovAndRef(Tokens) -> [{':',_}|Rest2] -> {Ref,Rest3} = parse_Reference(Rest2), {{ParamGov,Ref},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,':']}}) + _ -> + parse_error(Rest) end. parse_ParamGovernor(Tokens) -> Flist = [fun parse_Governor/1, fun parse_Reference/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. - -% parse_ParameterizedReference(Tokens) -> -% {Ref,Rest} = parse_Reference(Tokens), -% case Rest of -% [{'{',_},{'}',_}|Rest2] -> -% {{ptref,Ref},Rest2}; -% _ -> -% {{ptref,Ref},Rest} -% end. + parse_or(Tokens, Flist). parse_SimpleDefinedType([{typereference,L1,ModuleName},{'.',_}, {typereference,_,TypeName}|Rest]) -> {#'Externaltypereference'{pos=L1,module=ModuleName, type=TypeName},Rest}; parse_SimpleDefinedType([Tref={typereference,_,_}|Rest]) -> -% {#'Externaltypereference'{pos=L2,module=get(asn1_module), -% type=TypeName},Rest}; {tref2Exttref(Tref),Rest}; parse_SimpleDefinedType(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typereference,'typereference.typereference']]}}). + parse_error(Tokens). parse_SimpleDefinedValue([{typereference,L1,ModuleName},{'.',_}, - {identifier,_,Value}|Rest]) -> + #identifier{val=Value}|Rest]) -> {{simpledefinedvalue,#'Externalvaluereference'{pos=L1,module=ModuleName, value=Value}},Rest}; -parse_SimpleDefinedValue([Id={identifier,_,_Value}|Rest]) -> +parse_SimpleDefinedValue([#identifier{}=Id|Rest]) -> {{simpledefinedvalue,identifier2Extvalueref(Id)},Rest}; parse_SimpleDefinedValue(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - ['typereference.identifier',identifier]]}}). + parse_error(Tokens). parse_ParameterizedType(Tokens) -> + %% May also be a parameterized class. {Type,Rest} = parse_SimpleDefinedType(Tokens), {Params,Rest2} = parse_ActualParameterList(Rest), - {{pt,Type,Params},Rest2}. + {#type{def={pt,Type,Params}},Rest2}. parse_ParameterizedValue(Tokens) -> + %% May also be a parameterized object. {Value,Rest} = parse_SimpleDefinedValue(Tokens), {Params,Rest2} = parse_ActualParameterList(Rest), {{pv,Value,Params},Rest2}. -parse_ParameterizedObjectClass(Tokens) -> - {Type,Rest} = parse_DefinedObjectClass(Tokens), - {Params,Rest2} = parse_ActualParameterList(Rest), - {{poc,Type,Params},Rest2}. - parse_ParameterizedObjectSet(Tokens) -> {ObjectSet,Rest} = parse_DefinedObjectSet(Tokens), {Params,Rest2} = parse_ActualParameterList(Rest), {{pos,ObjectSet,Params},Rest2}. -parse_ParameterizedObject(Tokens) -> - {Object,Rest} = parse_DefinedObject(Tokens), - {Params,Rest2} = parse_ActualParameterList(Rest), - {{po,Object,Params},Rest2}. - parse_ActualParameterList([{'{',_}|Rest]) -> parse_ActualParameterList(Rest,[]); parse_ActualParameterList(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_error(Tokens). parse_ActualParameterList(Tokens,Acc) -> {Parameter,Rest} = parse_ActualParameter(Tokens), @@ -2260,43 +1666,22 @@ parse_ActualParameterList(Tokens,Acc) -> [{',',_}|Rest2] -> parse_ActualParameterList(Rest2,[Parameter|Acc]); [{'}',_}|Rest3] -> - {lists:reverse([Parameter|Acc]),Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,[',','}']]}}) -%%% Other -> -%%% throw(Other) + {lists:reverse(Acc, [Parameter]),Rest3}; + _ -> + parse_error(Rest) end. - - - - - - -%------------------------- - +%% Test whether Token is allowed in a syntax list. is_word(Token) -> - case not_allowed_word(Token) of + List = atom_to_list(Token), + case not_allowed_word(List) of true -> false; - _ -> - if - is_atom(Token) -> - Item = atom_to_list(Token), - is_word(Item); - is_list(Token), length(Token) == 1 -> - check_one_char_word(Token); - is_list(Token) -> - [A|Rest] = Token, - case check_first(A) of - true -> - check_rest(Rest); - _ -> - false - end - end + false -> is_word_1(List) end. +is_word_1([H|T]) -> + check_first(H) andalso check_rest(T). + not_allowed_word(Name) -> lists:member(Name,["BIT", "BOOLEAN", @@ -2321,257 +1706,123 @@ not_allowed_word(Name) -> "TRUE", "UNION"]). -check_one_char_word([A]) when $A =< A, $Z >= A -> - true; -check_one_char_word([_]) -> - false. %% unknown item in SyntaxList +check_first(C) -> + $A =< C andalso C =< $Z. -check_first(A) when $A =< A, $Z >= A -> - true; -check_first(_) -> - false. %% unknown item in SyntaxList - -check_rest([R,R|_Rs]) when $- == R -> - false; %% two consecutive hyphens are not allowed in a word -check_rest([R]) when $- == R -> - false; %% word cannot end with hyphen -check_rest([R|Rs]) when $A=<R, $Z>=R; $-==R -> +check_rest([R|Rs]) when $A =< R, R =< $Z; R =:= $- -> check_rest(Rs); check_rest([]) -> true; check_rest(_) -> false. +%%% +%%% Parse alternative type lists for CHOICE. +%%% + +parse_AlternativeTypeLists(Tokens0) -> + {Root,Tokens1} = parse_AlternativeTypeList(Tokens0), + case Tokens1 of + [{',',_}|Tokens2] -> + {ExtMarker,Tokens3} = parse_ExtensionAndException(Tokens2), + {ExtAlts,Tokens4} = parse_ExtensionAdditionAlternatives(Tokens3), + {_,Tokens} = parse_OptionalExtensionMarker(Tokens4, []), + {Root++ExtMarker++ExtAlts,Tokens}; + Tokens -> + {Root,Tokens} + end. + +parse_ExtensionAndException([{'...',L}|Tokens0]) -> + {[#'EXTENSIONMARK'{pos=L}], + case Tokens0 of + [{'!',_}|Tokens1] -> + {_,Tokens} = parse_ExceptionIdentification(Tokens1), + Tokens; + _ -> + Tokens0 + end}. + +parse_AlternativeTypeList([#identifier{}|_]=Tokens0) -> + {AltType,Tokens} = parse_NamedType(Tokens0), + parse_AlternativeTypeList_1(Tokens, [AltType]); +parse_AlternativeTypeList(Tokens) -> + parse_error(Tokens). + +parse_AlternativeTypeList_1([{',',_}|[#identifier{}|_]=Tokens0], Acc) -> + {AltType,Tokens} = parse_NamedType(Tokens0), + parse_AlternativeTypeList_1(Tokens, [AltType|Acc]); +parse_AlternativeTypeList_1(Tokens, Acc) -> + {lists:reverse(Acc),Tokens}. -to_set(V) when is_list(V) -> - ordsets:from_list(V); -to_set(V) -> - ordsets:from_list([V]). - -parse_AlternativeTypeLists(Tokens) -> - parse_AlternativeTypeLists(Tokens,[]). - -parse_AlternativeTypeLists(Tokens = [{identifier,_,_}|_Rest0],Clist) -> - {CompList,Rest1} = parse_AlternativeTypeList(Tokens,[]), - parse_AlternativeTypeLists(Rest1,Clist++CompList); -parse_AlternativeTypeLists([{'...',L1},{'!',_}|Rest02],Clist0) -> - {_,Rest03} = parse_ExceptionIdentification(Rest02), - %% Exception info is currently thrown away - parse_AlternativeTypeLists2(Rest03,Clist0++[#'EXTENSIONMARK'{pos=L1}]); -parse_AlternativeTypeLists([{',',L1},{'...',_},{'!',_}|Rest02],Clist0) when Clist0 =/= []-> - {_,Rest03} = parse_ExceptionIdentification(Rest02), - %% Exception info is currently thrown away - parse_AlternativeTypeLists2(Rest03,Clist0++[#'EXTENSIONMARK'{pos=L1}]); - -parse_AlternativeTypeLists([{',',_},{'...',L1}|Rest02],Clist0) when Clist0 =/= []-> - parse_AlternativeTypeLists2(Rest02,Clist0++[#'EXTENSIONMARK'{pos=L1}]); -parse_AlternativeTypeLists([{'...',L1}|Rest02],Clist0) -> - parse_AlternativeTypeLists2(Rest02,Clist0++[#'EXTENSIONMARK'{pos=L1}]); -parse_AlternativeTypeLists(Tokens = [{'}',_L1}|_Rest02],Clist0) -> - {Clist0,Tokens}. - -parse_AlternativeTypeLists2(Tokens,Clist) -> - {ExtAdd,Rest} = parse_ExtensionAdditionAlternatives(Tokens,Clist), - {Clist2,Rest2} = parse_OptionalExtensionMarker(Rest,lists:flatten(ExtAdd)), - case Rest2 of - [{',',_}|Rest3] -> - {CompList,Rest4} = parse_AlternativeTypeList(Rest3,[]), - {Clist2 ++ CompList,Rest4}; - _ -> - {Clist2,Rest2} - end. - - - -parse_AlternativeTypeList([{',',_},Id = {identifier,_,_}|Rest],Acc) when Acc =/= [] -> - {AlternativeType,Rest2} = parse_NamedType([Id|Rest]), - parse_AlternativeTypeList(Rest2,[AlternativeType|Acc]); -parse_AlternativeTypeList(Tokens = [{'}',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_AlternativeTypeList(Tokens = [{']',_},{']',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_AlternativeTypeList(Tokens = [{',',_},{'...',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_AlternativeTypeList(Tokens,[]) -> - {AlternativeType,Rest} = parse_NamedType(Tokens), - parse_AlternativeTypeList(Rest,[AlternativeType]); -parse_AlternativeTypeList(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['}',', identifier']]}}). - -parse_ExtensionAdditionAlternatives(Tokens =[{',',_}|_],Clist) -> - {ExtAddList,Rest2} = parse_ExtensionAdditionAlternativesList(Tokens,[]), - {Clist++lists:flatten(ExtAddList),Rest2}; -parse_ExtensionAdditionAlternatives(Tokens,Clist) -> - %% Empty - {Clist,Tokens}. +parse_ExtensionAdditionAlternatives([{',',_}|_]=Tokens0) -> + parse_ExtensionAdditionAlternativesList(Tokens0, []); +parse_ExtensionAdditionAlternatives(Tokens) -> + {[],Tokens}. -parse_ExtensionAdditionAlternativesList([{',',_},Id = {identifier,_,_}|Rest],Acc) -> - {AlternativeType,Rest2} = parse_NamedType([Id|Rest]), - parse_ExtensionAdditionAlternativesList(Rest2,[AlternativeType|Acc]); -parse_ExtensionAdditionAlternativesList([{',',_},C1 = {'[',_},C2 = {'[',_}|Rest],Acc) -> - {ExtAddGroup,Rest2} = parse_ExtensionAdditionAlternativesGroup([C1,C2|Rest],[]), - parse_ExtensionAdditionAlternativesList(Rest2,[ExtAddGroup|Acc]); -parse_ExtensionAdditionAlternativesList(Tokens = [{'}',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_ExtensionAdditionAlternativesList(Tokens = [{',',_},{'...',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_ExtensionAdditionAlternativesList(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['}',', identifier']]}}). - - -parse_ExtensionAdditionAlternativesGroup([ {'[',_},{'[',_},_VsnNr = {number,_,Num},{':',_}|Rest],[]) -> - parse_ExtensionAdditionAlternativesGroup2(Rest,Num); -parse_ExtensionAdditionAlternativesGroup([ {'[',_},{'[',_}|Rest],[]) -> - parse_ExtensionAdditionAlternativesGroup2(Rest,undefined); -parse_ExtensionAdditionAlternativesGroup(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['[[']]}}). - - -parse_ExtensionAdditionAlternativesGroup2(Tokens,Num) -> - {CompTypeList,Rest} = parse_AlternativeTypeList(Tokens,[]), - case Rest of - [{']',_},{']',_}|Rest2] -> - {[{'ExtensionAdditionGroup',Num}|CompTypeList] ++ - ['ExtensionAdditionGroupEnd'],Rest2}; +parse_ExtensionAdditionAlternativesList([{',',_}|Tokens1]=Tokens0, Acc) -> + try parse_ExtensionAdditionAlternative(Tokens1) of + {ExtAddAlt,Tokens2} -> + parse_ExtensionAdditionAlternativesList(Tokens2, [ExtAddAlt|Acc]) + catch + throw:{asn1_error,_} -> + {lists:append(lists:reverse(Acc)),Tokens0} + end; +parse_ExtensionAdditionAlternativesList(Tokens, Acc) -> + {lists:append(lists:reverse(Acc)),Tokens}. + +parse_ExtensionAdditionAlternative([#identifier{}|_]=Tokens0) -> + {NamedType,Tokens} = parse_NamedType(Tokens0), + {[NamedType],Tokens}; +parse_ExtensionAdditionAlternative([{'[',_},{'[',_}|Tokens0]) -> + Tokens2 = case Tokens0 of + [{number,_,_},{':',_}|Tokens1] -> Tokens1; + _ -> Tokens0 + end, + {GroupList,Tokens3} = parse_AlternativeTypeList(Tokens2), + case Tokens3 of + [{']',_},{']',_}|Tokens] -> + {GroupList,Tokens}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,[']]']]}}) - end. - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - -%% parse_AlternativeTypeLists(Tokens,ExtensionDefault) -> -%% {AltTypeList,Rest1} = parse_AlternativeTypeList(Tokens), -%% {ExtensionAndException,Rest2} = -%% case Rest1 of -%% [{',',_},{'...',L1},{'!',_}|Rest12] -> -%% {_,Rest13} = parse_ExceptionIdentification(Rest12), -%% %% Exception info is currently thrown away -%% {[#'EXTENSIONMARK'{pos=L1}],Rest13}; -%% [{',',_},{'...',L1}|Rest12] -> -%% {[#'EXTENSIONMARK'{pos=L1}],Rest12}; -%% _ -> -%% {[],Rest1} -%% end, -%% {AltTypeList2,Rest5} = -%% case ExtensionAndException of -%% [] -> -%% {AltTypeList,Rest2}; -%% _ -> -%% {ExtensionAddition,Rest3} = -%% case Rest2 of -%% [{',',_}|Rest23] -> -%% parse_ExtensionAdditionAlternativeList(Rest23); -%% _ -> -%% {[],Rest2} -%% end, -%% {OptionalExtensionMarker,Rest4} = -%% case Rest3 of -%% [{',',_},{'...',L3}|Rest31] -> -%% {[#'EXTENSIONMARK'{pos=L3}],Rest31}; -%% _ -> -%% {[],Rest3} -%% end, -%% {AltTypeList ++ ExtensionAndException ++ -%% ExtensionAddition ++ OptionalExtensionMarker, Rest4} -%% end, -%% AltTypeList3 = -%% case [X || X=#'EXTENSIONMARK'{} <- AltTypeList2] of -%% [] when ExtensionDefault == 'IMPLIED' -> -%% AltTypeList2 ++ [#'EXTENSIONMARK'{}]; -%% _ -> -%% AltTypeList2 -%% end, -%% {AltTypeList3,Rest5}. - - -%% parse_AlternativeTypeList(Tokens) -> -%% parse_AlternativeTypeList(Tokens,[]). + parse_error(Tokens3) + end; +parse_ExtensionAdditionAlternative(Tokens) -> + parse_error(Tokens). -%% parse_AlternativeTypeList(Tokens,Acc) -> -%% {NamedType,Rest} = parse_NamedType(Tokens), -%% case Rest of -%% [{',',_},Id = {identifier,_,_}|Rest2] -> -%% parse_AlternativeTypeList([Id|Rest2],[NamedType|Acc]); -%% _ -> -%% {lists:reverse([NamedType|Acc]),Rest} -%% end. +%%% +%%% End of parsing of alternative type lists. +%%% - - -%% parse_ExtensionAdditionAlternativeList(Tokens) -> -%% parse_ExtensionAdditionAlternativeList(Tokens,[]). - -%% parse_ExtensionAdditionAlternativeList([{'[[',_}|Rest],Acc) -> -%% parse_ExtensionAdditionAlternativeList(Rest,Acc); -%% parse_ExtensionAdditionAlternativeList(Tokens = [{identifier,_,_}|_Rest],Acc) -> -%% {Element,Rest0} = parse_NamedType(Tokens); -%% case Rest0 of -%% [{',',_}|Rest01] -> -%% parse_ExtensionAdditionAlternativeList(Rest01,[Element|Acc]); -%% _ -> -%% {lists:reverse([Element|Acc]),Rest0} -%% end. - -%% parse_ExtensionAdditionAlternatives([{'[[',_}|Rest]) -> -%% parse_ExtensionAdditionAlternatives(Rest,[]); -%% parse_ExtensionAdditionAlternatives(Tokens) -> -%% throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), -%% [got,get_token(hd(Tokens)),expected,'[[']}}). - -%% parse_ExtensionAdditionAlternatives([Id = {identifier,_,_}|Rest],Acc) -> -%% {NamedType, Rest2} = parse_NamedType([Id|Rest]), -%% case Rest2 of -%% [{',',_}|Rest21] -> -%% parse_ExtensionAdditionAlternatives(Rest21,[NamedType|Acc]); -%% [{']]',_}|Rest21] -> -%% {lists:reverse(Acc),Rest21}; -%% _ -> -%% throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), -%% [got,get_token(hd(Rest2)),expected,[',',']]']]}}) -%% end. - -parse_NamedType([{identifier,L1,Idname}|Rest]) -> +parse_NamedType([#identifier{pos=L1,val=Idname}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {#'ComponentType'{pos=L1,name=Idname,typespec=Type,prop=mandatory},Rest2}; parse_NamedType(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + parse_error(Tokens). +%%% +%%% Parse component type lists for SEQUENCE and SET. +%%% parse_ComponentTypeLists(Tokens) -> - parse_ComponentTypeLists(Tokens,[]). + parse_ComponentTypeLists(Tokens, []). -parse_ComponentTypeLists(Tokens = [{identifier,_,_}|_Rest0],Clist) -> - {CompList,Rest1} = parse_ComponentTypeList(Tokens,[]), - parse_ComponentTypeLists(Rest1,Clist++CompList); -parse_ComponentTypeLists(Tokens = [{'COMPONENTS',_},{'OF',_}|_Rest],Clist) -> +parse_ComponentTypeLists([#identifier{}|_Rest0]=Tokens, Clist) -> {CompList,Rest1} = parse_ComponentTypeList(Tokens,[]), parse_ComponentTypeLists(Rest1,Clist++CompList); -parse_ComponentTypeLists([{'...',L1},{'!',_}|Rest02],Clist0) -> - {_,Rest03} = parse_ExceptionIdentification(Rest02), - %% Exception info is currently thrown away - parse_ComponentTypeLists2(Rest03,Clist0++[#'EXTENSIONMARK'{pos=L1}]); +parse_ComponentTypeLists([{'COMPONENTS',_},{'OF',_}|_]=Tokens,Clist) -> + {CompList,Rest1} = parse_ComponentTypeList(Tokens, []), + parse_ComponentTypeLists(Rest1, Clist++CompList); parse_ComponentTypeLists([{',',L1},{'...',_},{'!',_}|Rest02],Clist0) when Clist0 =/= []-> {_,Rest03} = parse_ExceptionIdentification(Rest02), %% Exception info is currently thrown away parse_ComponentTypeLists2(Rest03,Clist0++[#'EXTENSIONMARK'{pos=L1}]); - - parse_ComponentTypeLists([{',',_},{'...',L1}|Rest02],Clist0) when Clist0 =/= []-> +parse_ComponentTypeLists([{',',_},{'...',L1}|Rest02],Clist0) when Clist0 =/= []-> parse_ComponentTypeLists2(Rest02,Clist0++[#'EXTENSIONMARK'{pos=L1}]); parse_ComponentTypeLists([{'...',L1}|Rest02],Clist0) -> parse_ComponentTypeLists2(Rest02,Clist0++[#'EXTENSIONMARK'{pos=L1}]); parse_ComponentTypeLists(Tokens = [{'}',_L1}|_Rest02],Clist0) -> - {Clist0,Tokens}. + {Clist0,Tokens}; +parse_ComponentTypeLists(Tokens, _) -> + parse_error(Tokens). parse_ComponentTypeLists2(Tokens,Clist) -> {ExtAdd,Rest} = parse_ExtensionAdditions(Tokens,Clist), @@ -2590,12 +1841,12 @@ parse_OptionalExtensionMarker(Tokens,Clist) -> {Clist,Tokens}. -parse_ComponentTypeList([{',',_},Id = {identifier,_,_}|Rest],Acc) when Acc =/= [] -> - {ComponentType,Rest2} = parse_ComponentType([Id|Rest]), - parse_ComponentTypeList(Rest2,[ComponentType|Acc]); -parse_ComponentTypeList([{',',_},C1={'COMPONENTS',_},C2={'OF',_}|Rest],Acc) when Acc =/= [] -> - {ComponentType,Rest2} = parse_ComponentType([C1,C2|Rest]), - parse_ComponentTypeList(Rest2,[ComponentType|Acc]); +parse_ComponentTypeList([{',',_}|[#identifier{}|_]=Tokens0], Acc) when Acc =/= [] -> + {ComponentType,Tokens} = parse_ComponentType(Tokens0), + parse_ComponentTypeList(Tokens, [ComponentType|Acc]); +parse_ComponentTypeList([{',',_}|[{'COMPONENTS',_},{'OF',_}|_]=Tokens0], Acc) when Acc =/= [] -> + {ComponentType,Tokens} = parse_ComponentType(Tokens0), + parse_ComponentTypeList(Tokens, [ComponentType|Acc]); parse_ComponentTypeList(Tokens = [{'}',_}|_],Acc) -> {lists:reverse(Acc),Tokens}; parse_ComponentTypeList(Tokens = [{']',_},{']',_}|_],Acc) -> @@ -2606,10 +1857,7 @@ parse_ComponentTypeList(Tokens,[]) -> {ComponentType,Rest} = parse_ComponentType(Tokens), parse_ComponentTypeList(Rest,[ComponentType]); parse_ComponentTypeList(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['}',', identifier']]}}). + parse_error(Tokens). parse_ExtensionAdditions(Tokens=[{',',_}|_],Clist) -> {ExtAddList,Rest2} = parse_ExtensionAdditionList(Tokens,[]), @@ -2618,46 +1866,36 @@ parse_ExtensionAdditions(Tokens,Clist) -> %% Empty {Clist,Tokens}. -parse_ExtensionAdditionList([{',',_},Id = {identifier,_,_}|Rest],Acc) -> - {ComponentType,Rest2} = parse_ComponentType([Id|Rest]), - parse_ExtensionAdditionList(Rest2,[ComponentType|Acc]); -parse_ExtensionAdditionList([{',',_},C1={'COMPONENTS',_},C2={'OF',_}|Rest],Acc) -> - {ComponentType,Rest2} = parse_ComponentType([C1,C2|Rest]), - parse_ExtensionAdditionList(Rest2,[ComponentType|Acc]); -parse_ExtensionAdditionList([{',',_},C1 = {'[',_},C2 = {'[',_}|Rest],Acc) -> - {ExtAddGroup,Rest2} = parse_ExtensionAdditionGroup([C1,C2|Rest],[]), +parse_ExtensionAdditionList([{',',_}|[#identifier{}|_]=Tokens0], Acc) -> + {ComponentType,Tokens} = parse_ComponentType(Tokens0), + parse_ExtensionAdditionList(Tokens, [ComponentType|Acc]); +parse_ExtensionAdditionList([{',',_}|[{'COMPONENTS',_},{'OF',_}|_]=Tokens0], Acc) -> + {ComponentType,Tokens} = parse_ComponentType(Tokens0), + parse_ExtensionAdditionList(Tokens, [ComponentType|Acc]); +parse_ExtensionAdditionList([{',',_},{'[',_},{'[',_}|Tokens], Acc) -> + {ExtAddGroup,Rest2} = parse_ExtensionAdditionGroup(Tokens), parse_ExtensionAdditionList(Rest2,[ExtAddGroup|Acc]); -parse_ExtensionAdditionList(Tokens = [{'}',_}|_],Acc) -> +parse_ExtensionAdditionList([{'}',_}|_]=Tokens, Acc) -> {lists:reverse(Acc),Tokens}; -parse_ExtensionAdditionList(Tokens = [{',',_},{'...',_}|_],Acc) -> +parse_ExtensionAdditionList([{',',_},{'...',_}|_]=Tokens, Acc) -> {lists:reverse(Acc),Tokens}; -parse_ExtensionAdditionList(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['}',', identifier']]}}). - +parse_ExtensionAdditionList(Tokens, _) -> + parse_error(Tokens). -parse_ExtensionAdditionGroup([ {'[',_},{'[',_},_VsnNr = {number,_,Num},{':',_}|Rest],[]) -> - parse_ExtensionAdditionGroup2(Rest,Num); -parse_ExtensionAdditionGroup([ {'[',_},{'[',_}|Rest],[]) -> - parse_ExtensionAdditionGroup2(Rest,undefined); -parse_ExtensionAdditionGroup(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['[[']]}}). +parse_ExtensionAdditionGroup([{number,_,Num},{':',_}|Tokens]) -> + parse_ExtensionAdditionGroup2(Tokens, Num); +parse_ExtensionAdditionGroup(Tokens) -> + parse_ExtensionAdditionGroup2(Tokens, undefined). -parse_ExtensionAdditionGroup2(Tokens,Num) -> +parse_ExtensionAdditionGroup2(Tokens, Num) -> {CompTypeList,Rest} = parse_ComponentTypeList(Tokens,[]), case Rest of [{']',_},{']',_}|Rest2] -> {[{'ExtensionAdditionGroup',Num}|CompTypeList] ++ ['ExtensionAdditionGroupEnd'],Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,[']]']]}}) + parse_error(Rest) end. @@ -2676,83 +1914,81 @@ parse_ComponentType(Tokens) -> Result end. - +%%% +%%% Parse ENUMERATED. +%%% -parse_SignedNumber([{number,_,Value}|Rest]) -> - {Value,Rest}; -parse_SignedNumber([{'-',_},{number,_,Value}|Rest]) -> - {-Value,Rest}; -parse_SignedNumber(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [number,'-number']]}}). - -parse_Enumerations(Tokens=[{identifier,_,_}|_Rest],ExtensionDefault) -> - parse_Enumerations(Tokens,[],ExtensionDefault); -parse_Enumerations([H|_T],_) -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,identifier]}}). - -parse_Enumerations(Tokens = [{identifier,_,_},{'(',_}|_Rest], Acc, ExtensionDefault) -> - {NamedNumber,Rest2} = parse_NamedNumber(Tokens), - case Rest2 of - [{',',_}|Rest3] -> - parse_Enumerations(Rest3,[NamedNumber|Acc], ExtensionDefault); - _ when ExtensionDefault == 'IMPLIED'-> - {lists:reverse(['EXTENSIONMARK',NamedNumber|Acc]),Rest2}; +parse_Enumerations(Tokens0) -> + {Root,Tokens1} = parse_Enumeration(Tokens0), + case Tokens1 of + [{',',_},{'...',_},{',',_}|Tokens2] -> + {Ext,Tokens} = parse_Enumeration(Tokens2), + {Root++['EXTENSIONMARK'|Ext],Tokens}; + [{',',_},{'...',_}|Tokens] -> + {Root++['EXTENSIONMARK'],Tokens}; _ -> - {lists:reverse([NamedNumber|Acc]),Rest2} - end; -parse_Enumerations([{identifier,_,Id}|Rest], Acc, ExtensionDefault) -> - case Rest of - [{',',_}|Rest2] -> - parse_Enumerations(Rest2,[Id|Acc], ExtensionDefault); - _ when ExtensionDefault == 'IMPLIED' -> - {lists:reverse(['EXTENSIONMARK', Id |Acc]),Rest}; - _ -> - {lists:reverse([Id|Acc]),Rest} - end; -parse_Enumerations([{'...',_}|Rest], Acc, _ExtensionDefault) -> - case Rest of - [{',',_}|Rest2] -> - parse_Enumerations(Rest2,['EXTENSIONMARK'|Acc],undefined); - _ -> - {lists:reverse(['EXTENSIONMARK'|Acc]),Rest} + case get(extensiondefault) of + 'IMPLIED' -> + {Root++['EXTENSIONMARK'],Tokens1}; + _ -> + {Root,Tokens1} + end + end. + +parse_Enumeration(Tokens0) -> + {Item,Tokens} = parse_EnumerationItem(Tokens0), + parse_Enumeration_1(Tokens, [Item]). + +parse_Enumeration_1([{',',_}|Tokens1]=Tokens0, Acc) -> + try parse_EnumerationItem(Tokens1) of + {Item,Tokens} -> + parse_Enumeration_1(Tokens, [Item|Acc]) + catch + throw:{asn1_error,_} -> + {lists:reverse(Acc),Tokens0} end; -parse_Enumerations([H|_T],_,_) -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,identifier]}}). +parse_Enumeration_1(Tokens, Acc) -> + {lists:reverse(Acc),Tokens}. + +parse_EnumerationItem([#identifier{},{'(',_}|_]=Tokens) -> + parse_NamedNumber(Tokens); +parse_EnumerationItem([#identifier{val=Id}|Tokens]) -> + {Id,Tokens}; +parse_EnumerationItem(Tokens) -> + parse_error(Tokens). + +%%% +%%% End of parsing of ENUMERATED. +%%% parse_NamedNumberList(Tokens) -> - parse_NamedNumberList(Tokens,[]). + parse_NamedNumberList(Tokens, []). -parse_NamedNumberList(Tokens,Acc) -> +parse_NamedNumberList(Tokens, Acc) -> {NamedNum,Rest} = parse_NamedNumber(Tokens), case Rest of [{',',_}|Rest2] -> parse_NamedNumberList(Rest2,[NamedNum|Acc]); _ -> - {lists:reverse([NamedNum|Acc]),Rest} + {lists:reverse(Acc, [NamedNum]),Rest} end. -parse_NamedNumber([{identifier,_,Name},{'(',_}|Rest]) -> +parse_NamedNumber([#identifier{val=Name},{'(',_}|Rest]) -> Flist = [fun parse_SignedNumber/1, fun parse_DefinedValue/1], - case (catch parse_or(Rest,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); + case parse_or(Rest, Flist) of {NamedNum,[{')',_}|Rest2]} -> {{'NamedNumber',Name,NamedNum},Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,'NamedNumberList']}}) + parse_error(Rest) end; parse_NamedNumber(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + parse_error(Tokens). +parse_SignedNumber([{number,_,Value}|Rest]) -> + {Value,Rest}; +parse_SignedNumber(Tokens) -> + parse_error(Tokens). parse_Tag([{'[',_}|Rest]) -> {Class,Rest2} = parse_Class(Rest), @@ -2767,12 +2003,8 @@ parse_Tag([{'[',_}|Rest]) -> [{']',_}|Rest4] -> {#tag{class=Class,number=ClassNumber},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,']']}}) - end; -parse_Tag(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'[']}}). + parse_error(Rest3) + end. parse_Class([{'UNIVERSAL',_}|Rest]) -> {'UNIVERSAL',Rest}; @@ -2791,15 +2023,7 @@ parse_Value(Tokens) -> Flist = [fun parse_BuiltinValue/1, fun parse_ValueFromObject/1, fun parse_DefinedValue/1], - - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_BuiltinValue([{bstring,_,Bstr}|Rest]) -> {{bstring,Bstr},Rest}; @@ -2812,18 +2036,11 @@ parse_BuiltinValue(Tokens = [{'{',_}|_Rest]) -> fun parse_SequenceOfValue/1, fun parse_SequenceValue/1, fun parse_ObjectIdentifierValue/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end; -parse_BuiltinValue([{identifier,_,IdName},{':',_}|Rest]) -> + parse_or(Tokens, Flist); +parse_BuiltinValue([#identifier{val=IdName},{':',_}|Rest]) -> {Value,Rest2} = parse_Value(Rest), {{'CHOICE',{IdName,Value}},Rest2}; -parse_BuiltinValue(Tokens=[{'NULL',_},{':',_}|_Rest]) -> +parse_BuiltinValue([{'NULL',_},{':',_}|_]=Tokens) -> parse_ObjectClassFieldValue(Tokens); parse_BuiltinValue([{'NULL',_}|Rest]) -> {'NULL',Rest}; @@ -2839,31 +2056,29 @@ parse_BuiltinValue([{cstring,_,Cstr}|Rest]) -> {Cstr,Rest}; parse_BuiltinValue([{number,_,Num}|Rest]) -> {Num,Rest}; -parse_BuiltinValue([{'-',_},{number,_,Num}|Rest]) -> - {- Num,Rest}; parse_BuiltinValue(Tokens) -> parse_ObjectClassFieldValue(Tokens). -parse_DefinedValue(Tokens=[{identifier,_,_},{'{',_}|_Rest]) -> - parse_ParameterizedValue(Tokens); -%% Externalvaluereference -parse_DefinedValue([{typereference,L1,Tname},{'.',_},{identifier,_,Idname}|Rest]) -> +parse_DefinedValue(Tokens) -> + Flist = [fun parse_ParameterizedValue/1, + fun parse_DefinedValue2/1], + parse_or(Tokens, Flist). + +parse_DefinedValue2([{typereference,L1,Tname}, + {'.',_}, + #identifier{val=Idname}|Rest]) -> {#'Externalvaluereference'{pos=L1,module=Tname,value=Idname},Rest}; %% valuereference -parse_DefinedValue([Id = {identifier,_,_}|Rest]) -> +parse_DefinedValue2([#identifier{}=Id|Rest]) -> {identifier2Extvalueref(Id),Rest}; -%% ParameterizedValue -parse_DefinedValue(Tokens) -> - parse_ParameterizedValue(Tokens). +parse_DefinedValue2(Tokens) -> + parse_error(Tokens). parse_SequenceValue([{'{',_}|Tokens]) -> - parse_SequenceValue(Tokens,[]); -parse_SequenceValue(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_SequenceValue(Tokens, []). -parse_SequenceValue([{identifier,Pos,IdName}|Rest],Acc) -> +parse_SequenceValue([#identifier{pos=Pos,val=IdName}|Rest],Acc) -> {Value,Rest2} = parse_Value(Rest), SeqTag = #seqtag{pos=Pos,module=get(asn1_module),val=IdName}, case Rest2 of @@ -2872,18 +2087,13 @@ parse_SequenceValue([{identifier,Pos,IdName}|Rest],Acc) -> [{'}',_}|Rest3] -> {lists:reverse(Acc, [{SeqTag,Value}]),Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; parse_SequenceValue(Tokens,_Acc) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + parse_error(Tokens). parse_SequenceOfValue([{'{',_}|Tokens]) -> - parse_SequenceOfValue(Tokens,[]); -parse_SequenceOfValue(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_SequenceOfValue(Tokens, []). parse_SequenceOfValue(Tokens,Acc) -> {Value,Rest2} = parse_Value(Tokens), @@ -2891,10 +2101,9 @@ parse_SequenceOfValue(Tokens,Acc) -> [{',',_}|Rest3] -> parse_SequenceOfValue(Rest3,[Value|Acc]); [{'}',_}|Rest3] -> - {lists:reverse([Value|Acc]),Rest3}; + {lists:reverse(Acc, [Value]),Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end. parse_ValueSetTypeAssignment([{typereference,L1,Name}|Rest]) -> @@ -2904,49 +2113,31 @@ parse_ValueSetTypeAssignment([{typereference,L1,Name}|Rest]) -> {ValueSet,Rest4} = parse_ValueSet(Rest3), {#valuedef{pos=L1,name=Name,type=Type,value=ValueSet, module=get(asn1_module)},Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(L1),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ValueSetTypeAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest2) + end. parse_ValueSet([{'{',_}|Rest]) -> {Elems,Rest2} = parse_ElementSetSpecs(Rest), case Rest2 of [{'}',_}|Rest3] -> {{valueset,Elems},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + _ -> + parse_error(Rest2) end; parse_ValueSet(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_error(Tokens). -parse_ValueAssignment([{identifier,L1,IdName}|Rest]) -> +parse_ValueAssignment([#identifier{pos=L1,val=IdName}|Rest]) -> {Type,Rest2} = parse_Type(Rest), case Rest2 of [{'::=',_}|Rest3] -> {Value,Rest4} = parse_Value(Rest3), - case catch lookahead_assignment(Rest4) of - ok -> - {#valuedef{pos=L1,name=IdName,type=Type,value=Value, - module=get(asn1_module)},Rest4}; - Error -> - throw(Error) -%% throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), -%% [got,get_token(hd(Rest2)),expected,'::=']}}) - end; + {#valuedef{pos=L1,name=IdName,type=Type,value=Value, + module=get(asn1_module)},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'::=']}}) - end; -parse_ValueAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + parse_error(Rest2) + end. %% SizeConstraint parse_SubtypeElements([{'SIZE',_}|Tokens]) -> @@ -2966,8 +2157,7 @@ parse_SubtypeElements([{'WITH',_},{'COMPONENTS',_},{'{',_},{'...',_},{',',_}|Tok [{'}',_}|Rest2] -> {{'WITH COMPONENTS',{'PartialSpecification',Constraint}},Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,'}']}}) + parse_error(Rest) end; parse_SubtypeElements([{'WITH',_},{'COMPONENTS',_},{'{',_}|Tokens]) -> {Constraint,Rest} = parse_TypeConstraints(Tokens), @@ -2975,28 +2165,18 @@ parse_SubtypeElements([{'WITH',_},{'COMPONENTS',_},{'{',_}|Tokens]) -> [{'}',_}|Rest2] -> {{'WITH COMPONENTS',{'FullSpecification',Constraint}},Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,'}']}}) + parse_error(Rest) end; parse_SubtypeElements([{'PATTERN',_}|Tokens]) -> {Value,Rest} = parse_Value(Tokens), {{pattern,Value},Rest}; -%% SingleValue -%% ContainedSubtype -%% ValueRange -%% TypeConstraint -%% Moved fun parse_Value/1 and fun parse_Type/1 to parse_Elements parse_SubtypeElements(Tokens) -> Flist = [fun parse_ContainedSubtype/1, fun parse_Value/1, - fun([{'MIN',_}|T]) -> {'MIN',T} end, + fun parse_MIN/1, fun parse_Type/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,Reason} -> - throw(Reason); - Result = {Val,_} when is_record(Val,type) -> + case parse_or(Tokens, Flist) of + {#type{},_}=Result -> Result; {Lower,[{'..',_}|Rest]} -> {Upper,Rest2} = parse_UpperEndpoint(Rest), @@ -3014,10 +2194,7 @@ parse_ContainedSubtype([{'INCLUDES',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {{'ContainedSubtype',Type},Rest2}; parse_ContainedSubtype(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'INCLUDES']}}). -%%parse_ContainedSubtype(Tokens) -> %this option is moved to parse_SubtypeElements -%% parse_Type(Tokens). + parse_error(Tokens). parse_UpperEndpoint([{'<',_}|Rest]) -> parse_UpperEndpoint(lt,Rest); @@ -3025,33 +2202,38 @@ parse_UpperEndpoint(Tokens) -> parse_UpperEndpoint(false,Tokens). parse_UpperEndpoint(Lt,Tokens) -> - Flist = [ fun([{'MAX',_}|T]) -> {'MAX',T} end, - fun parse_Value/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - {Value,Rest2} when Lt == lt -> + Flist = [fun parse_MAX/1, + fun parse_Value/1], + case parse_or(Tokens, Flist) of + {Value,Rest2} when Lt =:= lt -> {{lt,Value},Rest2}; {Value,Rest2} -> {Value,Rest2} end. +parse_MIN([{'MIN',_}|T]) -> + {'MIN',T}; +parse_MIN(Tokens) -> + parse_error(Tokens). + +parse_MAX([{'MAX',_}|T]) -> + {'MAX',T}; +parse_MAX(Tokens) -> + parse_error(Tokens). + parse_TypeConstraints(Tokens) -> - parse_TypeConstraints(Tokens,[]). + parse_TypeConstraints(Tokens, []). -parse_TypeConstraints([{identifier,_,_}|Rest],Acc) -> +parse_TypeConstraints([#identifier{}|Rest], Acc) -> {ComponentConstraint,Rest2} = parse_ComponentConstraint(Rest), case Rest2 of [{',',_}|Rest3] -> - parse_TypeConstraints(Rest3,[ComponentConstraint|Acc]); + parse_TypeConstraints(Rest3, [ComponentConstraint|Acc]); _ -> - {lists:reverse([ComponentConstraint|Acc]),Rest2} + {lists:reverse(Acc, [ComponentConstraint]),Rest2} end; -parse_TypeConstraints([H|_T],_) -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,identifier]}}). +parse_TypeConstraints(Tokens, _) -> + parse_error(Tokens). parse_ComponentConstraint(Tokens = [{'(',_}|_Rest]) -> {ValueConstraint,Rest2} = parse_Constraint(Tokens), @@ -3071,145 +2253,36 @@ parse_PresenceConstraint(Tokens) -> {asn1_empty,Tokens}. -% merge_constraints({Rlist,ExtList}) -> % extensionmarker in constraint -% {merge_constraints(Rlist,[],[]), -% merge_constraints(ExtList,[],[])}; - -%% An arg with a constraint with extension marker will look like -%% [#constraint{c={Root,Ext}}|Rest] - merge_constraints(Clist) -> merge_constraints(Clist, [], []). -merge_constraints([Ch|Ct],Cacc, Eacc) -> - NewEacc = case Ch#constraint.e of - undefined -> Eacc; - E -> [E|Eacc] - end, - merge_constraints(Ct,[fixup_constraint(Ch#constraint.c)|Cacc],NewEacc); - -merge_constraints([],Cacc,[]) -> -%% lists:flatten(Cacc); +merge_constraints([#constraint{c=C,e=E}|T], Cacc0, Eacc0) -> + Eacc = case E of + undefined -> Eacc0; + E -> [E|Eacc0] + end, + Cacc = [C|Cacc0], + merge_constraints(T, Cacc, Eacc); +merge_constraints([], Cacc, []) -> lists:reverse(Cacc); -merge_constraints([],Cacc,Eacc) -> -%% lists:flatten(Cacc) ++ [{'Errors',Eacc}]. - lists:reverse(Cacc) ++ [{'Errors',Eacc}]. - - -fixup_constraint(C) -> - case C of - {'SingleValue',SubType} when element(1,SubType) == 'ContainedSubtype' -> - SubType; - {'SingleValue',V} when is_list(V) -> - C; - %% [C,{'ValueRange',{lists:min(V),lists:max(V)}}]; - %% bug, turns wrong when an element in V is a reference to a defined value - {'PermittedAlphabet',{'SingleValue',V}} when is_list(V) -> - %%sort and remove duplicates - V2 = {'SingleValue', - ordsets:from_list(lists:flatten(V))}, - {'PermittedAlphabet',V2}; - {'PermittedAlphabet',{'SingleValue',V}} -> - V2 = {'SingleValue',[V]}, - {'PermittedAlphabet',V2}; - {'SizeConstraint',Sc} -> - {'SizeConstraint',fixup_size_constraint(Sc)}; - - List when is_list(List) -> %% In This case maybe a union or intersection - [fixup_constraint(Xc)||Xc <- List]; - Other -> - Other - end. +merge_constraints([], Cacc, Eacc) -> + lists:reverse(Cacc) ++ [{element_set,{'Errors',Eacc},none}]. -fixup_size_constraint({'ValueRange',{Lb,Ub}}) -> - {Lb,Ub}; -fixup_size_constraint({{'ValueRange',R},[]}) -> - {R,[]}; -fixup_size_constraint({[],{'ValueRange',R}}) -> - {[],R}; -fixup_size_constraint({{'ValueRange',R1},{'ValueRange',R2}}) -> - {R1,R2}; -fixup_size_constraint({'SingleValue',[Sv]}) -> - fixup_size_constraint({'SingleValue',Sv}); -fixup_size_constraint({'SingleValue',L}) when is_list(L) -> - ordsets:from_list(L); -fixup_size_constraint({'SingleValue',L}) -> - {L,L}; -fixup_size_constraint({'SizeConstraint',C}) -> - %% this is a second SIZE - fixup_size_constraint(C); -fixup_size_constraint({C1,C2}) -> - %% this is with extension marks - {turn2vr(fixup_size_constraint(C1)), extension_size(fixup_size_constraint(C2))}; -fixup_size_constraint(CList) when is_list(CList) -> - [fixup_constraint(Xc)||Xc <- CList]. - -turn2vr(L) when is_list(L) -> - L2 =[X||X<-ordsets:from_list(L),is_integer(X)], - case L2 of - [H|_] -> - {H,hd(lists:reverse(L2))}; - _ -> - L - end; -turn2vr(VR) -> - VR. -extension_size({I,I}) -> - [I]; -extension_size({I1,I2}) -> - [I1,I2]; -extension_size(C) -> - C. - -get_line({_,Pos,Token}) when is_integer(Pos),is_atom(Token) -> +get_line({Token,Pos,_}) when is_integer(Pos), is_atom(Token) -> Pos; get_line({Token,Pos}) when is_integer(Pos),is_atom(Token) -> - Pos; -get_line(_) -> - undefined. - -get_token({_,Pos,Token}) when is_integer(Pos),is_atom(Token) -> - Token; + Pos. + +get_token({valuefieldreference,_,FieldName}) -> + list_to_atom([$&|atom_to_list(FieldName)]); +get_token({typefieldreference,_,FieldName}) -> + list_to_atom([$&|atom_to_list(FieldName)]); +get_token({Token,Pos,Value}) when is_integer(Pos), is_atom(Token) -> + Value; get_token({'$end',Pos}) when is_integer(Pos) -> - undefined; + 'END-OF-FILE'; get_token({Token,Pos}) when is_integer(Pos),is_atom(Token) -> - Token; -get_token(_) -> - undefined. - -prioritize_error(ErrList) -> - case lists:keymember(asn1_error,1,ErrList) of - false -> % only asn1_assignment_error -> take the last - lists:last(ErrList); - true -> % contains errors from deeper in a Type - NewErrList = [_Err={_,_}|_RestErr] = - lists:filter(fun({asn1_error,_})->true;(_)->false end, - ErrList), - SplitErrs = - lists:splitwith(fun({_,X})-> - case element(1,X) of - Int when is_integer(Int) -> true; - _ -> false - end - end, - NewErrList), - case SplitErrs of - {[],UndefPosErrs} -> % if no error with Positon exists - lists:last(UndefPosErrs); - {IntPosErrs,_} -> - IntPosReasons = lists:map(fun(X)->element(2,X) end,IntPosErrs), - SortedReasons = lists:keysort(1,IntPosReasons), - {asn1_error,lists:last(SortedReasons)} - end - end. - -%% most_prio_error([H={_,Reason}|T],Atom,Err) when is_atom(Atom) -> -%% most_prio_error(T,element(1,Reason),H); -%% most_prio_error([H={_,Reason}|T],Greatest,Err) -> -%% case element(1,Reason) of -%% Pos when is_integer(Pos),Pos>Greatest -> -%% most_prio_error( - + Token. tref2Exttref(#typereference{pos=Pos,val=Name}) -> #'Externaltypereference'{pos=Pos, @@ -3226,19 +2299,5 @@ identifier2Extvalueref(#identifier{pos=Pos,val=Name}) -> module=resolve_module(Name), value=Name}. -%% lookahead_assignment/1 checks that the next sequence of tokens -%% in Token contain a valid assignment or the -%% 'END' token. Otherwise an exception is thrown. -lookahead_assignment([{'END',_}|_Rest]) -> - ok; -lookahead_assignment(Tokens) -> - parse_Assignment(Tokens), - ok. - -is_pre_defined_class('TYPE-IDENTIFIER') -> - true; -is_pre_defined_class('ABSTRACT-SYNTAX') -> - true; -is_pre_defined_class(_) -> - false. - +parse_error(Tokens) -> + throw({asn1_error,{parse_error,Tokens}}). diff --git a/lib/asn1/src/asn1ct_tok.erl b/lib/asn1/src/asn1ct_tok.erl index 8687ed955c..d51fea6402 100644 --- a/lib/asn1/src/asn1ct_tok.erl +++ b/lib/asn1/src/asn1ct_tok.erl @@ -21,191 +21,177 @@ %% Tokenize ASN.1 code (input to parser generated with yecc) --export([get_name/2,tokenise/4, file/1]). +-export([file/1,format_error/1]). - -file(File) -> - case file:open(File, [read]) of +file(File0) -> + case file:open(File0, [read]) of {error, Reason} -> - {error,{File,file:format_error(Reason)}}; + {error,{File0,file:format_error(Reason)}}; {ok,Stream} -> - process(Stream,0,[]) + try + process(Stream, 1, []) + catch + throw:{error,Line,Reason} -> + File = filename:basename(File0), + Error = {structured_error,{File,Line},?MODULE,Reason}, + {error,[Error]} + end end. -process(Stream,Lno,R) -> - process(io:get_line(Stream, ''), Stream,Lno+1,R). +process(Stream, Lno, R) -> + process(io:get_line(Stream, ''), Stream, Lno, R). -process(eof, Stream,Lno,R) -> +process(eof, Stream, Lno, Acc) -> ok = file:close(Stream), - lists:flatten(lists:reverse([{'$end',Lno}|R])); - - -process(L, Stream,Lno,R) when is_list(L) -> - %%io:format('read:~s',[L]), - case catch tokenise(Stream,L,Lno,[]) of - {'ERR',Reason} -> - io:format("Tokeniser error on line: ~w ~w~n",[Lno,Reason]), - exit(0); - {NewLno,T} -> - %%io:format('toks:~w~n',[T]), - process(Stream,NewLno,[T|R]) - end. - -tokenise(Stream,[H|T],Lno,R) when $a =< H , H =< $z -> - {X, T1} = get_name(T, [H]), - tokenise(Stream,T1,Lno,[{identifier,Lno, list_to_atom(X)}|R]); - -tokenise(Stream,[$&,H|T],Lno,R) when $A =< H , H =< $Z -> - {Y, T1} = get_name(T, [H]), - X = list_to_atom(Y), - tokenise(Stream,T1,Lno,[{typefieldreference, Lno, X} | R]); - -tokenise(Stream,[$&,H|T],Lno,R) when $a =< H , H =< $z -> - {Y, T1} = get_name(T, [H]), - X = list_to_atom(Y), - tokenise(Stream,T1,Lno,[{valuefieldreference, Lno, X} | R]); - -tokenise(Stream,[H|T],Lno,R) when $A =< H , H =< $Z -> - {Y, T1} = get_name(T, [H]), - X = list_to_atom(Y), - case reserved_word(X) of - true -> - tokenise(Stream,T1,Lno,[{X,Lno}|R]); - false -> - tokenise(Stream,T1,Lno,[{typereference,Lno,X}|R]); - rstrtype -> - tokenise(Stream,T1,Lno,[{restrictedcharacterstringtype,Lno,X}|R]) - end; - -tokenise(Stream,[$-,H|T],Lno,R) when $0 =< H , H =< $9 -> - {X, T1} = get_number(T, [H]), - tokenise(Stream,T1,Lno,[{number,Lno,-1 * list_to_integer(X)}|R]); + lists:reverse([{'$end',Lno}|Acc]); +process(L, Stream, Lno0, Acc) when is_list(L) -> + try tokenise(Stream, L, Lno0, []) of + {Lno,[]} -> + process(Stream, Lno, Acc); + {Lno,Ts} -> + process(Stream, Lno, Ts++Acc) + catch + throw:{error,Reason} -> + throw({error,Lno0,Reason}) + end. -tokenise(Stream,[H|T],Lno,R) when $0 =< H , H =< $9 -> +format_error(eof_in_comment) -> + "premature end of file in multi-line comment"; +format_error(eol_in_token) -> + "end of line in token"; +format_error({invalid_binary_number,Str}) -> + io_lib:format("invalid binary number: '~s'", [Str]); +format_error({invalid_hex_number,Str}) -> + io_lib:format("invalid hex number: '~s'", [Str]); +format_error(Other) -> + io_lib:format("~p", [Other]). + +tokenise(Stream, [$&,H|T], Lno, R) when $A =< H , H =< $Z -> + {X,T1} = get_name(T, [H]), + tokenise(Stream, T1, Lno, [{typefieldreference,Lno,X}|R]); +tokenise(Stream, [$&,H|T], Lno, R) when $a =< H , H =< $z -> + {X,T1} = get_name(T, [H]), + tokenise(Stream, T1, Lno, [{valuefieldreference,Lno,X}|R]); + +tokenise(Stream, "--"++T, Lno, R) -> + tokenise(Stream, skip_comment(T), Lno, R); + +tokenise(Stream, [$-,H|T], Lno, R) when $0 =< H , H =< $9 -> {X, T1} = get_number(T, [H]), - tokenise(Stream,T1,Lno,[{number,Lno,list_to_integer(X)}|R]); - -tokenise(Stream,[$-,$-|T],Lno,R) -> - tokenise(Stream,skip_comment(T),Lno,R); + tokenise(Stream, T1, Lno, [{number,Lno,-list_to_integer(X)}|R]); -tokenise(Stream,[$/,$*|T],Lno,R) -> - {NewLno,T1} = skip_multiline_comment(Stream,T,Lno,0), - tokenise(Stream,T1,NewLno,R); +tokenise(Stream, "/*"++T, Lno0, R) -> + {Lno,T1} = skip_multiline_comment(Stream, T, Lno0, 0), + tokenise(Stream, T1, Lno, R); -tokenise(Stream,[$:,$:,$=|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'::=',Lno}|R]); - -tokenise(Stream,[$'|T],Lno,R) -> - case catch collect_quoted(T,Lno,[]) of - {'ERR',_} -> - throw({'ERR','bad_quote'}); - {Thing, T1} -> - tokenise(Stream,T1,Lno,[Thing|R]) - end; +tokenise(Stream, "::="++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'::=',Lno}|R]); +tokenise(Stream, ":"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{':',Lno}|R]); +tokenise(Stream, "'"++T0, Lno, R) -> + {Thing, T1} = collect_quoted(T0, Lno, []), + tokenise(Stream, T1, Lno, [Thing|R]); tokenise(Stream,[$"|T],Lno,R) -> {Str,T1} = collect_string(T,Lno), tokenise(Stream,T1,Lno,[Str|R]); -tokenise(Stream,[${|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'{',Lno}|R]); - -tokenise(Stream,[$}|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'}',Lno}|R]); - -%% tokenise(Stream,[$],$]|T],Lno,R) -> -%% tokenise(Stream,T,Lno,[{']]',Lno}|R]); +tokenise(Stream, "{"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'{',Lno}|R]); +tokenise(Stream, "}"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'}',Lno}|R]); %% Even though x.680 specify '[[' and ']]' as lexical items -%% it does not work to have them as such since the single [ and ] can -%% be used beside each other in the SYNTAX OF in x.681 -%% the solution chosen here , i.e. to have them as separate lexical items +%% it does not work to have them as such since the single '[' and ']' can +%% be used beside each other in 'WITH SYNTAX' in x.681. +%% The solution chosen here, i.e. to have them as separate lexical items %% will not detect the cases where there is white space between them -%% which would be an error in the use in ExtensionAdditionGroups - -%% tokenise(Stream,[$[,$[|T],Lno,R) -> -%% tokenise(Stream,T,Lno,[{'[[',Lno}|R]); - -tokenise(Stream,[$]|T],Lno,R) -> - tokenise(Stream,T,Lno,[{']',Lno}|R]); - -tokenise(Stream,[$[|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'[',Lno}|R]); +%% which would be an error in the use in ExtensionAdditionGroups. -tokenise(Stream,[$,|T],Lno,R) -> - tokenise(Stream,T,Lno,[{',',Lno}|R]); +tokenise(Stream, "]"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{']',Lno}|R]); +tokenise(Stream, "["++T,Lno,R) -> + tokenise(Stream, T, Lno, [{'[',Lno}|R]); -tokenise(Stream,[$(|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'(',Lno}|R]); -tokenise(Stream,[$)|T],Lno,R) -> - tokenise(Stream,T,Lno,[{')',Lno}|R]); +tokenise(Stream, ","++T,Lno,R) -> + tokenise(Stream, T, Lno, [{',',Lno}|R]); -tokenise(Stream,[$.,$.,$.|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'...',Lno}|R]); +tokenise(Stream, "("++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'(',Lno}|R]); +tokenise(Stream, ")"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{')',Lno}|R]); -tokenise(Stream,[$.,$.|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'..',Lno}|R]); +tokenise(Stream, "..."++T,Lno,R) -> + tokenise(Stream, T, Lno, [{'...',Lno}|R]); +tokenise(Stream, ".."++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'..',Lno}|R]); +tokenise(Stream, "."++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'.',Lno}|R]); -tokenise(Stream,[$.|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'.',Lno}|R]); -tokenise(Stream,[$^|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'^',Lno}|R]); -tokenise(Stream,[$!|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'!',Lno}|R]); -tokenise(Stream,[$||T],Lno,R) -> - tokenise(Stream,T,Lno,[{'|',Lno}|R]); +tokenise(Stream, "|"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'|',Lno}|R]); -tokenise(Stream,[H|T],Lno,R) -> - case white_space(H) of +tokenise(Stream, [H|T], Lno, R) when $A =< H , H =< $Z -> + {X,T1} = get_name(T, [H]), + case reserved_word(X) of true -> - tokenise(Stream,T,Lno,R); + tokenise(Stream, T1, Lno, [{X,Lno}|R]); false -> - tokenise(Stream,T,Lno,[{list_to_atom([H]),Lno}|R]) + tokenise(Stream, T1, Lno, [{typereference,Lno,X}|R]); + rstrtype -> + tokenise(Stream, T1, Lno, [{restrictedcharacterstringtype,Lno,X}|R]) end; -tokenise(_Stream,[],Lno,R) -> - {Lno,lists:reverse(R)}. +tokenise(Stream, [H|T], Lno, R) when $a =< H , H =< $z -> + {X, T1} = get_name(T, [H]), + tokenise(Stream, T1, Lno, [{identifier,Lno,X}|R]); -collect_string(L,Lno) -> - collect_string(L,Lno,[]). +tokenise(Stream, [H|T], Lno, R) when $0 =< H , H =< $9 -> + {X, T1} = get_number(T, [H]), + tokenise(Stream, T1, Lno, [{number,Lno,list_to_integer(X)}|R]); -collect_string([],_,_) -> - throw({'ERR','bad_quote found eof'}); +tokenise(Stream, [H|T], Lno, R) when H =< $\s -> + tokenise(Stream, T, Lno, R); -collect_string([H|T],Lno,Str) -> - case H of - $" -> - {{cstring,1,lists:reverse(Str)},T}; - Ch -> - collect_string(T,Lno,[Ch|Str]) - end. - +tokenise(Stream, [H|T], Lno, R) -> + tokenise(Stream, T, Lno, [{list_to_atom([H]),Lno}|R]); +tokenise(_Stream, [], Lno, R) -> + {Lno+1,R}. -% <name> is letters digits hyphens -% hypen is not the last character. Hypen hyphen is NOT allowed -% -% <identifier> ::= <lowercase> <name> +collect_string(L, Lno) -> + collect_string(L, Lno, []). -get_name([$-,Char|T], L) -> +collect_string([$"|T], _Lno, Str) -> + {{cstring,1,lists:reverse(Str)},T}; +collect_string([H|T], Lno, Str) -> + collect_string(T, Lno, [H|Str]); +collect_string([], _, _) -> + throw({error,missing_quote_at_eof}). + +%% <name> is letters digits hyphens. +%% Hypen is not the last character. Hypen hyphen is NOT allowed. +%% +%% <identifier> ::= <lowercase> <name> + +get_name([$-,Char|T]=T0, Acc) -> case isalnum(Char) of true -> - get_name(T,[Char,$-|L]); + get_name(T, [Char,$-|Acc]); false -> - {lists:reverse(L),[$-,Char|T]} + {list_to_atom(lists:reverse(Acc)),T0} end; -get_name([$-|T], L) -> - {lists:reverse(L),[$-|T]}; -get_name([Char|T], L) -> +get_name([$-|_]=T, Acc) -> + {list_to_atom(lists:reverse(Acc)),T}; +get_name([Char|T]=T0, Acc) -> case isalnum(Char) of true -> - get_name(T,[Char|L]); + get_name(T, [Char|Acc]); false -> - {lists:reverse(L),[Char|T]} + {list_to_atom(lists:reverse(Acc)),T0} end; -get_name([], L) -> - {lists:reverse(L), []}. - +get_name([], Acc) -> + {list_to_atom(lists:reverse(Acc)),[]}. isalnum(H) when $A =< H , H =< $Z -> true; @@ -221,67 +207,54 @@ isdigit(H) when $0 =< H , H =< $9 -> isdigit(_) -> false. -white_space(9) -> true; -white_space(10) -> true; -white_space(13) -> true; -white_space(32) -> true; -white_space(_) -> false. - - -get_number([H|T], L) -> +get_number([H|T]=T0, L) -> case isdigit(H) of true -> get_number(T, [H|L]); false -> - {lists:reverse(L), [H|T]} + {lists:reverse(L), T0} end; get_number([], L) -> {lists:reverse(L), []}. -skip_comment([]) -> - []; -skip_comment([$-,$-|T]) -> - T; -skip_comment([_|T]) -> - skip_comment(T). - +skip_comment([]) -> []; +skip_comment("--"++T) -> T; +skip_comment([_|T]) -> skip_comment(T). -skip_multiline_comment(Stream,[],Lno,Level) -> - case io:get_line(Stream,'') of +skip_multiline_comment(Stream, [], Lno, Level) -> + case io:get_line(Stream, '') of eof -> - io:format("Tokeniser error on line: ~w~n" - "premature end of multiline comment~n",[Lno]), - exit(0); + throw({error,eof_in_comment}); Line -> - skip_multiline_comment(Stream,Line,Lno+1,Level) + skip_multiline_comment(Stream, Line, Lno+1, Level) end; -skip_multiline_comment(_Stream,[$*,$/|T],Lno,0) -> +skip_multiline_comment(_Stream, "*/"++T, Lno, 0) -> {Lno,T}; -skip_multiline_comment(Stream,[$*,$/|T],Lno,Level) -> - skip_multiline_comment(Stream,T,Lno,Level - 1); -skip_multiline_comment(Stream,[$/,$*|T],Lno,Level) -> - skip_multiline_comment(Stream,T,Lno,Level + 1); -skip_multiline_comment(Stream,[_|T],Lno,Level) -> - skip_multiline_comment(Stream,T,Lno,Level). - -collect_quoted([$',$B|T],Lno, L) -> +skip_multiline_comment(Stream, "*/"++T, Lno, Level) -> + skip_multiline_comment(Stream, T, Lno, Level - 1); +skip_multiline_comment(Stream, "/*"++T, Lno, Level) -> + skip_multiline_comment(Stream, T, Lno, Level + 1); +skip_multiline_comment(Stream, [_|T], Lno, Level) -> + skip_multiline_comment(Stream, T, Lno, Level). + +collect_quoted("'B"++T, Lno, L) -> case check_bin(L) of true -> - {{bstring,Lno, lists:reverse(L)}, T}; + {{bstring,Lno,lists:reverse(L)}, T}; false -> - throw({'ERR',{invalid_binary_number, lists:reverse(L)}}) + throw({error,{invalid_binary_number,lists:reverse(L)}}) end; -collect_quoted([$',$H|T],Lno, L) -> +collect_quoted("'H"++T, Lno, L) -> case check_hex(L) of true -> - {{hstring,Lno, lists:reverse(L)}, T}; + {{hstring,Lno,lists:reverse(L)}, T}; false -> - throw({'ERR',{invalid_binary_number, lists:reverse(L)}}) + throw({error,{invalid_hex_number,lists:reverse(L)}}) end; collect_quoted([H|T], Lno, L) -> collect_quoted(T, Lno,[H|L]); collect_quoted([], _, _) -> % This should be allowed FIX later - throw({'ERR',{eol_in_token}}). + throw({error,eol_in_token}). check_bin([$0|T]) -> check_bin(T); @@ -351,7 +324,6 @@ reserved_word('INCLUDES') -> true; reserved_word('INSTANCE') -> true; reserved_word('INTEGER') -> true; reserved_word('INTERSECTION') -> true; -reserved_word('ISO646String') -> rstrtype; reserved_word('MAX') -> true; reserved_word('MIN') -> true; reserved_word('MINUS-INFINITY') -> true; diff --git a/lib/asn1/src/asn1ct_value.erl b/lib/asn1/src/asn1ct_value.erl index 221cd991a7..c5901d5489 100644 --- a/lib/asn1/src/asn1ct_value.erl +++ b/lib/asn1/src/asn1ct_value.erl @@ -352,8 +352,9 @@ random_unnamed_bit_string(M, C) -> %% end. random(Upper) -> - {A1,A2,A3} = erlang:now(), - _ = random:seed(A1, A2, A3), + _ = random:seed(erlang:phash2([erlang:node()]), + erlang:monotonic_time(), + erlang:unique_integer()), random:uniform(Upper). size_random(C) -> |