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author | Erlang/OTP <[email protected]> | 2009-11-20 14:54:40 +0000 |
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committer | Erlang/OTP <[email protected]> | 2009-11-20 14:54:40 +0000 |
commit | 84adefa331c4159d432d22840663c38f155cd4c1 (patch) | |
tree | bff9a9c66adda4df2106dfd0e5c053ab182a12bd /lib/asn1/src/asn1ct.erl | |
download | otp-84adefa331c4159d432d22840663c38f155cd4c1.tar.gz otp-84adefa331c4159d432d22840663c38f155cd4c1.tar.bz2 otp-84adefa331c4159d432d22840663c38f155cd4c1.zip |
The R13B03 release.OTP_R13B03
Diffstat (limited to 'lib/asn1/src/asn1ct.erl')
-rw-r--r-- | lib/asn1/src/asn1ct.erl | 2520 |
1 files changed, 2520 insertions, 0 deletions
diff --git a/lib/asn1/src/asn1ct.erl b/lib/asn1/src/asn1ct.erl new file mode 100644 index 0000000000..e6fd3663dd --- /dev/null +++ b/lib/asn1/src/asn1ct.erl @@ -0,0 +1,2520 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 1997-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% +-module(asn1ct). + +%% Compile Time functions for ASN.1 (e.g ASN.1 compiler). + +%%-compile(export_all). +%% Public exports +-export([compile/1, compile/2]). +-export([start/0, start/1, stop/0]). +-export([encode/2, encode/3, decode/3]). +-export([test/1, test/2, test/3, value/2]). +%% Application internal exports +-export([compile_asn/3,compile_asn1/3,compile_py/3,compile/3, + value/1,vsn/0, + create_ets_table/2,get_name_of_def/1,get_pos_of_def/1]). +-export([read_config_data/1,get_gen_state_field/1,get_gen_state/0, + partial_inc_dec_toptype/1,save_gen_state/1,update_gen_state/2, + get_tobe_refed_func/1,reset_gen_state/0,is_function_generated/1, + generated_refed_func/1,next_refed_func/0,pop_namelist/0, + next_namelist_el/0,update_namelist/1,step_in_constructed/0, + add_tobe_refed_func/1,add_generated_refed_func/1, + maybe_rename_function/3,latest_sindex/0,current_sindex/0, + set_current_sindex/1,next_sindex/0,maybe_saved_sindex/2, + parse_and_save/2]). + +-include("asn1_records.hrl"). +-include_lib("stdlib/include/erl_compile.hrl"). +-include_lib("kernel/include/file.hrl"). + +-import(asn1ct_gen_ber_bin_v2,[encode_tag_val/3,decode_class/1]). + +-define(unique_names,0). +-define(dupl_uniquedefs,1). +-define(dupl_equaldefs,2). +-define(dupl_eqdefs_uniquedefs,?dupl_equaldefs bor ?dupl_uniquedefs). + +-define(CONSTRUCTED, 2#00100000). + +%% macros used for partial decode commands +-define(CHOOSEN,choosen). +-define(SKIP,skip). +-define(SKIP_OPTIONAL,skip_optional). + +%% macros used for partial incomplete decode commands +-define(MANDATORY,mandatory). +-define(DEFAULT,default). +-define(OPTIONAL,opt). +-define(OPTIONAL_UNDECODED,opt_undec). +-define(PARTS,parts). +-define(UNDECODED,undec). +-define(ALTERNATIVE,alt). +-define(ALTERNATIVE_UNDECODED,alt_undec). +-define(ALTERNATIVE_PARTS,alt_parts). +%-define(BINARY,bin). + +%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% This is the interface to the compiler +%% +%% + + +compile(File) -> + compile(File,[]). + +compile(File,Options) when is_list(Options) -> + Options1 = optimize_ber_bin(Options), + Options2 = includes(File,Options1), + Includes=[I||{i,I}<-Options2], + case (catch input_file_type(File,Includes)) of + {single_file,SuffixedFile} -> %% "e.g. "/tmp/File.asn" + (catch compile1(SuffixedFile,Options2)); + {multiple_files_file,SetBase,FileName} -> + FileList = get_file_list(FileName,Includes), +%% io:format("FileList: ~p~n",[FileList]), + case FileList of + L when is_list(L) -> + (catch compile_set(SetBase,FileList,Options2)); + Err -> + Err + end; + Err = {input_file_error,_Reason} -> + {error,Err}; + Err2 -> Err2 + end. + + +compile1(File,Options) when is_list(Options) -> + io:format("Erlang ASN.1 version ~p compiling ~p ~n",[?vsn,File]), + io:format("Compiler Options: ~p~n",[Options]), + Ext = filename:extension(File), + Base = filename:basename(File,Ext), + OutFile = outfile(Base,"",Options), + DbFile = outfile(Base,"asn1db",Options), + Includes = [I || {i,I} <- Options], + EncodingRule = get_rule(Options), + create_ets_table(asn1_functab,[named_table]), + Continue1 = scan(File,Options), + Continue2 = parse(Continue1,File,Options), + Continue3 = check(Continue2,File,OutFile,Includes,EncodingRule, + DbFile,Options,[]), + Continue4 = generate(Continue3,OutFile,EncodingRule,Options), + delete_tables([asn1_functab]), + Ret = compile_erl(Continue4,OutFile,Options), + case inline(is_inline(Options), + inline_output(Options,filename:rootname(File)), + lists:concat([OutFile,".erl"]),Options) of + false -> + Ret; + InlineRet -> + InlineRet + end. + + +%%****************************************************************************%% +%% functions dealing with compiling of several input files to one output file %% +%%****************************************************************************%% + +%%% +%% inline/4 +%% merges the resulting erlang modules with +%% the appropriate run-time modules so the resulting module contains all +%% run-time asn1 functionality. Then compiles the resulting file to beam code. +%% The merging is done by the igor module. If this function is used in older +%% versions than R10B the igor module, part of user contribution syntax_tools, +%% must be provided. It is possible to pass options for the ASN1 compiler +%% Types: +%% Name -> atom() +%% Modules -> [filename()] +%% Options -> [term()] +%% filename() -> file:filename() +inline(true,Name,Module,Options) -> + RTmodule = get_runtime_mod(Options), + IgorOptions = igorify_options(remove_asn_flags(Options)), + IgorName = filename:rootname(filename:basename(Name)), +% io:format("*****~nName: ~p~nModules: ~p~nIgorOptions: ~p~n*****~n", +% [IgorName,Modules++RTmodule,IgorOptions]), + io:format("Inlining modules: ~p in ~p~n",[[Module]++RTmodule,IgorName]), + case catch igor:merge(IgorName,[Module]++RTmodule,[{preprocess,true},{stubs,false},{backups,false}]++IgorOptions) of + {'EXIT',{undef,Reason}} -> %% module igor first in R10B + io:format("Module igor in syntax_tools must be available:~n~p~n", + [Reason]), + {error,'no_compilation'}; + {'EXIT',Reason} -> + io:format("Merge by igor module failed due to ~p~n",[Reason]), + {error,'no_compilation'}; + _ -> +%% io:format("compiling output module: ~p~n",[generated_file(Name,IgorOptions)]), + erl_compile(generated_file(Name,IgorOptions),Options) + end; +inline(_,_,_,_) -> + false. + +%% compile_set/3 merges and compiles a number of asn1 modules +%% specified in a .set.asn file to one .erl file. +compile_set(SetBase,Files,Options) + when is_list(hd(Files)),is_list(Options) -> + %% case when there are several input files in a list + io:format("Erlang ASN.1 version ~p compiling ~p ~n",[?vsn,Files]), + io:format("Compiler Options: ~p~n",[Options]), + OutFile = outfile(SetBase,"",Options), + DbFile = outfile(SetBase,"asn1db",Options), + Includes = [I || {i,I} <- Options], + EncodingRule = get_rule(Options), + create_ets_table(asn1_functab,[named_table]), + ScanRes = scan_set(Files,Options), + ParseRes = parse_set(ScanRes,Options), + Result = + case [X||X <- ParseRes,element(1,X)==true] of + [] -> %% all were false, time to quit + lists:map(fun(X)->element(2,X) end,ParseRes); + ParseRes -> %% all were true, continue with check + InputModules = + lists:map( + fun(F)-> + E = filename:extension(F), + B = filename:basename(F,E), + if + is_list(B) -> list_to_atom(B); + true -> B + end + end, + Files), + check_set(ParseRes,SetBase,OutFile,Includes, + EncodingRule,DbFile,Options,InputModules); + Other -> + {error,{'unexpected error in scan/parse phase', + lists:map(fun(X)->element(3,X) end,Other)}} + end, + delete_tables([asn1_functab]), + Result. + +check_set(ParseRes,SetBase,OutFile,Includes,EncRule,DbFile, + Options,InputModules) -> + + MergedModule = merge_modules(ParseRes,SetBase), + SetM = MergedModule#module{name=SetBase}, + Continue1 = check({true,SetM},SetBase,OutFile,Includes,EncRule,DbFile, + Options,InputModules), + Continue2 = generate(Continue1,OutFile,EncRule,Options), + + delete_tables([renamed_defs,original_imports,automatic_tags]), + + Ret = compile_erl(Continue2,OutFile,Options), + case inline(is_inline(Options), + inline_output(Options,filename:rootname(OutFile)), + lists:concat([OutFile,".erl"]),Options) of + false -> + Ret; + InlineRet -> + InlineRet + end. + +%% merge_modules/2 -> returns a module record where the typeorval lists are merged, +%% the exports lists are merged, the imports lists are merged when the +%% elements come from other modules than the merge set, the tagdefault +%% field gets the shared value if all modules have same tagging scheme, +%% otherwise a tagging_error exception is thrown, +%% the extensiondefault ...(not handled yet). +merge_modules(ParseRes,CommonName) -> + ModuleList = lists:map(fun(X)->element(2,X) end,ParseRes), + NewModuleList = remove_name_collisions(ModuleList), + case ets:info(renamed_defs,size) of + 0 -> ets:delete(renamed_defs); + _ -> ok + end, + save_imports(NewModuleList), +% io:format("~p~n~p~n~p~n~n",[ets:lookup(original_imports,'M1'),ets:lookup(original_imports,'M2'),ets:tab2list(original_imports)]), + TypeOrVal = lists:append(lists:map(fun(X)->X#module.typeorval end, + NewModuleList)), + InputMNameList = lists:map(fun(X)->X#module.name end, + NewModuleList), + CExports = common_exports(NewModuleList), + + ImportsModuleNameList = lists:map(fun(X)-> + {X#module.imports, + X#module.name} end, + NewModuleList), + %% ImportsModuleNameList: [{Imports,ModuleName},...] + %% Imports is a tuple {imports,[#'SymbolsFromModule'{},...]} + CImports = common_imports(ImportsModuleNameList,InputMNameList), + TagDefault = check_tagdefault(NewModuleList), + #module{name=CommonName,tagdefault=TagDefault,exports=CExports, + imports=CImports,typeorval=TypeOrVal}. + +%% causes an exit if duplicate definition names exist in a module +remove_name_collisions(Modules) -> + create_ets_table(renamed_defs,[named_table]), + %% Name duplicates in the same module is not allowed. + lists:foreach(fun exit_if_nameduplicate/1,Modules), + %% Then remove duplicates in different modules and return the + %% new list of modules. + remove_name_collisions2(Modules,[]). + +%% For each definition in the first module in module list, find +%% all definitons with same name and rename both definitions in +%% the first module and in rest of modules +remove_name_collisions2([M|Ms],Acc) -> + TypeOrVal = M#module.typeorval, + MName = M#module.name, + %% Test each name in TypeOrVal on all modules in Ms + {NewM,NewMs} = remove_name_collisions2(MName,TypeOrVal,Ms,[]), + remove_name_collisions2(NewMs,[M#module{typeorval=NewM}|Acc]); +remove_name_collisions2([],Acc) -> + finished_warn_prints(), + Acc. + +%% For each definition in list of defs find definitions in (rest of) +%% modules that have same name. If duplicate was found rename def. +%% Test each name in [T|Ts] on all modules in Ms +remove_name_collisions2(ModName,[T|Ts],Ms,Acc) -> + Name = get_name_of_def(T), + case discover_dupl_in_mods(Name,T,Ms,[],?unique_names) of + {_,?unique_names} -> % there was no name collision + remove_name_collisions2(ModName,Ts,Ms,[T|Acc]); + {NewMs,?dupl_uniquedefs} -> % renamed defs in NewMs + %% rename T + NewT = set_name_of_def(ModName,Name,T), %rename def + warn_renamed_def(ModName,get_name_of_def(NewT),Name), + ets:insert(renamed_defs,{get_name_of_def(NewT),Name,ModName}), + remove_name_collisions2(ModName,Ts,NewMs,[NewT|Acc]); + {NewMs,?dupl_equaldefs} -> % name duplicates, but identical defs + %% keep name of T + warn_kept_def(ModName,Name), + remove_name_collisions2(ModName,Ts,NewMs,[T|Acc]); + {NewMs,?dupl_eqdefs_uniquedefs} -> + %% keep name of T, renamed defs in NewMs + warn_kept_def(ModName,Name), + remove_name_collisions2(ModName,Ts,NewMs,[T|Acc]) + end; +remove_name_collisions2(_,[],Ms,Acc) -> + {Acc,Ms}. + +%% Name is the name of a definition. If a definition with the same name +%% is found in the modules Ms the definition will be renamed and returned. +discover_dupl_in_mods(Name,Def,[M=#module{name=N,typeorval=TorV}|Ms], + Acc,AnyRenamed) -> + Fun = fun(T,RenamedOrDupl)-> + case {get_name_of_def(T),compare_defs(Def,T)} of + {Name,not_equal} -> + %% rename def + NewT=set_name_of_def(N,Name,T), + warn_renamed_def(N,get_name_of_def(NewT),Name), + ets:insert(renamed_defs,{get_name_of_def(NewT), + Name,N}), + {NewT,?dupl_uniquedefs bor RenamedOrDupl}; + {Name,equal} -> + %% delete def + warn_deleted_def(N,Name), + {[],?dupl_equaldefs bor RenamedOrDupl}; + _ -> + {T,RenamedOrDupl} + end + end, + {NewTorV,NewAnyRenamed} = lists:mapfoldl(Fun,AnyRenamed,TorV), + %% have to flatten the NewTorV to remove any empty list elements + discover_dupl_in_mods(Name,Def,Ms, + [M#module{typeorval=lists:flatten(NewTorV)}|Acc], + NewAnyRenamed); +discover_dupl_in_mods(_,_,[],Acc,AnyRenamed) -> + {Acc,AnyRenamed}. + +warn_renamed_def(ModName,NewName,OldName) -> + maybe_first_warn_print(), + io:format("NOTICE: The ASN.1 definition in module ~p with name ~p has been renamed in generated module. New name is ~p.~n",[ModName,OldName,NewName]). + +warn_deleted_def(ModName,DefName) -> + maybe_first_warn_print(), + io:format("NOTICE: The ASN.1 definition in module ~p with name ~p has been deleted in generated module.~n",[ModName,DefName]). + +warn_kept_def(ModName,DefName) -> + maybe_first_warn_print(), + io:format("NOTICE: The ASN.1 definition in module ~p with name ~p has kept its name due to equal definition as duplicate.~n",[ModName,DefName]). + +maybe_first_warn_print() -> + case get(warn_duplicate_defs) of + undefined -> + put(warn_duplicate_defs,true), + io:format("~nDue to multiple occurrences of a definition name in " + "multi-file compiled files:~n"); + _ -> + ok + end. +finished_warn_prints() -> + put(warn_duplicate_defs,undefined). + + +exit_if_nameduplicate(#module{typeorval=TorV}) -> + exit_if_nameduplicate(TorV); +exit_if_nameduplicate([]) -> + ok; +exit_if_nameduplicate([Def|Rest]) -> + Name=get_name_of_def(Def), + exit_if_nameduplicate2(Name,Rest), + exit_if_nameduplicate(Rest). + +exit_if_nameduplicate2(Name,Rest) -> + Pred=fun(Def)-> + case get_name_of_def(Def) of + Name -> true; + _ -> false + end + end, + case lists:any(Pred,Rest) of + true -> + throw({error,{"more than one definition with same name",Name}}); + _ -> + ok + end. + +compare_defs(D1,D2) -> + compare_defs2(unset_pos_mod(D1),unset_pos_mod(D2)). +compare_defs2(D,D) -> + equal; +compare_defs2(_,_) -> + not_equal. + +unset_pos_mod(Def) when is_record(Def,typedef) -> + Def#typedef{pos=undefined}; +unset_pos_mod(Def) when is_record(Def,classdef) -> + Def#classdef{pos=undefined}; +unset_pos_mod(Def) when is_record(Def,valuedef) -> + Def#valuedef{pos=undefined,module=undefined}; +unset_pos_mod(Def) when is_record(Def,ptypedef) -> + Def#ptypedef{pos=undefined}; +unset_pos_mod(Def) when is_record(Def,pvaluedef) -> + Def#pvaluedef{pos=undefined}; +unset_pos_mod(Def) when is_record(Def,pvaluesetdef) -> + Def#pvaluesetdef{pos=undefined}; +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}. + +get_pos_of_def(#typedef{pos=Pos}) -> + Pos; +get_pos_of_def(#classdef{pos=Pos}) -> + Pos; +get_pos_of_def(#valuedef{pos=Pos}) -> + Pos; +get_pos_of_def(#ptypedef{pos=Pos}) -> + Pos; +get_pos_of_def(#pvaluedef{pos=Pos}) -> + Pos; +get_pos_of_def(#pvaluesetdef{pos=Pos}) -> + Pos; +get_pos_of_def(#pobjectdef{pos=Pos}) -> + Pos; +get_pos_of_def(#pobjectsetdef{pos=Pos}) -> + Pos; +get_pos_of_def(_) -> + undefined. + + +get_name_of_def(#typedef{name=Name}) -> + Name; +get_name_of_def(#classdef{name=Name}) -> + Name; +get_name_of_def(#valuedef{name=Name}) -> + Name; +get_name_of_def(#ptypedef{name=Name}) -> + Name; +get_name_of_def(#pvaluedef{name=Name}) -> + Name; +get_name_of_def(#pvaluesetdef{name=Name}) -> + Name; +get_name_of_def(#pobjectdef{name=Name}) -> + Name; +get_name_of_def(#pobjectsetdef{name=Name}) -> + Name; +get_name_of_def(_) -> + undefined. + +set_name_of_def(ModName,Name,OldDef) -> + NewName = list_to_atom(lists:concat([Name,ModName])), + case OldDef of + #typedef{} -> OldDef#typedef{name=NewName}; + #classdef{} -> OldDef#classdef{name=NewName}; + #valuedef{} -> OldDef#valuedef{name=NewName}; + #ptypedef{} -> OldDef#ptypedef{name=NewName}; + #pvaluedef{} -> OldDef#pvaluedef{name=NewName}; + #pvaluesetdef{} -> OldDef#pvaluesetdef{name=NewName}; + #pobjectdef{} -> OldDef#pobjectdef{name=NewName}; + #pobjectsetdef{} -> OldDef#pobjectsetdef{name=NewName} + end. + +save_imports(ModuleList)-> + Fun = fun(M) -> + case M#module.imports of + {_,[]} -> []; + {_,I} -> + {M#module.name,I} + end + end, + ImportsList = lists:map(Fun,ModuleList), + case lists:flatten(ImportsList) of + [] -> + ok; + ImportsList2 -> + create_ets_table(original_imports,[named_table]), + lists:foreach(fun(X) -> ets:insert(original_imports,X) end,ImportsList2) + end. + + +common_exports(ModuleList) -> + %% if all modules exports 'all' then export 'all', + %% otherwise export each typeorval name + case lists:filter(fun(X)-> + element(2,X#module.exports) /= all + end, + ModuleList) of + []-> + {exports,all}; + ModsWithExpList -> + CExports1 = + lists:append(lists:map(fun(X)->element(2,X#module.exports) end, + ModsWithExpList)), + CExports2 = export_all(lists:subtract(ModuleList,ModsWithExpList)), + {exports,CExports1++CExports2} + end. + +export_all([])->[]; +export_all(ModuleList) -> + ExpList = + lists:map( + fun(M)-> + TorVL=M#module.typeorval, + MName = M#module.name, + lists:map( + fun(Def)-> + case Def of + T when is_record(T,typedef)-> + #'Externaltypereference'{pos=0, + module=MName, + type=T#typedef.name}; + V when is_record(V,valuedef) -> + #'Externalvaluereference'{pos=0, + module=MName, + value=V#valuedef.name}; + C when is_record(C,classdef) -> + #'Externaltypereference'{pos=0, + module=MName, + type=C#classdef.name}; + P when is_record(P,ptypedef) -> + #'Externaltypereference'{pos=0, + module=MName, + type=P#ptypedef.name}; + PV when is_record(PV,pvaluesetdef) -> + #'Externaltypereference'{pos=0, + module=MName, + type=PV#pvaluesetdef.name}; + PO when is_record(PO,pobjectdef) -> + #'Externalvaluereference'{pos=0, + module=MName, + value=PO#pobjectdef.name} + end + end, + TorVL) + end, + ModuleList), + lists:append(ExpList). + +%% common_imports/2 +%% IList is a list of tuples, {Imports,MName}, where Imports is the imports of +%% the module with name MName. +%% InputMNameL holds the names of all merged modules. +%% Returns an import tuple with a list of imports that are external the merged +%% set of modules. +common_imports(IList,InputMNameL) -> + SetExternalImportsList = remove_in_set_imports(IList,InputMNameL,[]), + {imports,remove_import_doubles(SetExternalImportsList)}. + +check_tagdefault(ModList) -> + case have_same_tagdefault(ModList) of + {true,TagDefault} -> TagDefault; + {false,TagDefault} -> + create_ets_table(automatic_tags,[named_table]), + save_automatic_tagged_types(ModList), + TagDefault + end. + +have_same_tagdefault([#module{tagdefault=T}|Ms]) -> + have_same_tagdefault(Ms,{true,T}). + +have_same_tagdefault([],TagDefault) -> + TagDefault; +have_same_tagdefault([#module{tagdefault=T}|Ms],TDefault={_,T}) -> + have_same_tagdefault(Ms,TDefault); +have_same_tagdefault([#module{tagdefault=T1}|Ms],{_,T2}) -> + have_same_tagdefault(Ms,{false,rank_tagdef([T1,T2])}). + +rank_tagdef(L) -> + case lists:member('EXPLICIT',L) of + true -> 'EXPLICIT'; + _ -> 'IMPLICIT' + end. + +save_automatic_tagged_types([])-> + done; +save_automatic_tagged_types([#module{tagdefault='AUTOMATIC', + typeorval=TorV}|Ms]) -> + Fun = + fun(T) -> + ets:insert(automatic_tags,{get_name_of_def(T)}) + end, + lists:foreach(Fun,TorV), + save_automatic_tagged_types(Ms); +save_automatic_tagged_types([_M|Ms]) -> + save_automatic_tagged_types(Ms). + +%% remove_in_set_imports/3 : +%% input: list with tuples of each module's imports and module name +%% respectively. +%% output: one list with same format but each occured import from a +%% module in the input set (IMNameL) is removed. +remove_in_set_imports([{{imports,ImpL},_ModName}|Rest],InputMNameL,Acc) -> + NewImpL = remove_in_set_imports1(ImpL,InputMNameL,[]), + remove_in_set_imports(Rest,InputMNameL,NewImpL++Acc); +remove_in_set_imports([],_,Acc) -> + lists:reverse(Acc). + +remove_in_set_imports1([I|Is],InputMNameL,Acc) -> + case I#'SymbolsFromModule'.module of + #'Externaltypereference'{type=MName} -> + case lists:member(MName,InputMNameL) of + true -> + remove_in_set_imports1(Is,InputMNameL,Acc); + false -> + remove_in_set_imports1(Is,InputMNameL,[I|Acc]) + end; + _ -> + remove_in_set_imports1(Is,InputMNameL,[I|Acc]) + end; +remove_in_set_imports1([],_,Acc) -> + lists:reverse(Acc). + +remove_import_doubles([]) -> + []; +%% If several modules in the merge set imports symbols from +%% the same external module it might be doubled. +%% ImportList has #'SymbolsFromModule' elements +remove_import_doubles(ImportList) -> + MergedImportList = + merge_symbols_from_module(ImportList,[]), +%% io:format("MergedImportList: ~p~n",[MergedImportList]), + delete_double_of_symbol(MergedImportList,[]). + +merge_symbols_from_module([Imp|Imps],Acc) -> + #'Externaltypereference'{type=ModName} = Imp#'SymbolsFromModule'.module, + IfromModName = + lists:filter( + fun(I)-> + case I#'SymbolsFromModule'.module of + #'Externaltypereference'{type=ModName} -> + true; + #'Externalvaluereference'{value=ModName} -> + true; + _ -> false + end + end, + Imps), + NewImps = lists:subtract(Imps,IfromModName), +%% io:format("Imp: ~p~nIfromModName: ~p~n",[Imp,IfromModName]), + NewImp = + Imp#'SymbolsFromModule'{ + symbols = lists:append( + lists:map(fun(SL)-> + SL#'SymbolsFromModule'.symbols + end,[Imp|IfromModName]))}, + merge_symbols_from_module(NewImps,[NewImp|Acc]); +merge_symbols_from_module([],Acc) -> + lists:reverse(Acc). + +delete_double_of_symbol([I|Is],Acc) -> + SymL=I#'SymbolsFromModule'.symbols, + NewSymL = delete_double_of_symbol1(SymL,[]), + delete_double_of_symbol(Is,[I#'SymbolsFromModule'{symbols=NewSymL}|Acc]); +delete_double_of_symbol([],Acc) -> + Acc. + +delete_double_of_symbol1([TRef=#'Externaltypereference'{type=TrefName}|Rest],Acc)-> + NewRest = + lists:filter(fun(S)-> + case S of + #'Externaltypereference'{type=TrefName}-> + false; + _ -> true + end + end, + Rest), + delete_double_of_symbol1(NewRest,[TRef|Acc]); +delete_double_of_symbol1([VRef=#'Externalvaluereference'{value=VName}|Rest],Acc) -> + NewRest = + lists:filter(fun(S)-> + case S of + #'Externalvaluereference'{value=VName}-> + false; + _ -> true + end + end, + Rest), + delete_double_of_symbol1(NewRest,[VRef|Acc]); +delete_double_of_symbol1([TRef={#'Externaltypereference'{type=MRef}, + #'Externaltypereference'{type=TRef}}|Rest], + Acc)-> + NewRest = + lists:filter( + fun(S)-> + case S of + {#'Externaltypereference'{type=MRef}, + #'Externaltypereference'{type=TRef}}-> + false; + _ -> true + end + end, + Rest), + delete_double_of_symbol1(NewRest,[TRef|Acc]); +delete_double_of_symbol1([],Acc) -> + Acc. + + +scan_set(Files,Options) -> + %% The files in Files already have their relative path and extension + lists:map( + fun(F)-> + case scan(F,Options) of + {false,{error,Reason}} -> + throw({error,{'scan error in file:',F,Reason}}); + {TrueOrFalse,Res} -> + {TrueOrFalse,Res,F} + end + end, + Files). + +parse_set(ScanRes,Options) -> + lists:map( + fun({TorF,Toks,F})-> + case parse({TorF,Toks},F,Options) of + {false,{error,Reason}} -> + throw({error,{'parse error in file:',F,Reason}}); + {TrueOrFalse,Res} -> + {TrueOrFalse,Res,F} + end + end, + ScanRes). + + +%%*********************************** + + +scan(File,Options) -> + case asn1ct_tok:file(File) of + {error,Reason} -> + io:format("~p~n",[Reason]), + {false,{error,Reason}}; + Tokens -> + case lists:member(ss,Options) of + true -> % we terminate after scan + {false,Tokens}; + false -> % continue with next pass + {true,Tokens} + end + end. + + +parse({true,Tokens},File,Options) -> + %Presult = asn1ct_parser2:parse(Tokens), + %%case lists:member(p1,Options) of + %% true -> + %% asn1ct_parser:parse(Tokens); + %% _ -> + %% asn1ct_parser2:parse(Tokens) + %% end, + case catch asn1ct_parser2:parse(Tokens) of + {error,{{Line,_Mod,Message},_TokTup}} -> + if + is_integer(Line) -> + BaseName = filename:basename(File), + io:format("syntax error at line ~p in module ~s:~n", + [Line,BaseName]); + true -> + io:format("syntax error in module ~p:~n",[File]) + end, + print_error_message(Message), + {false,{error,Message}}; + {error,{Line,_Mod,[Message,Token]}} -> + io:format("syntax error: ~p ~p at line ~p~n", + [Message,Token,Line]), + {false,{error,{Line,[Message,Token]}}}; + {ok,M} -> + case lists:member(sp,Options) of + true -> % terminate after parse + {false,M}; + false -> % continue with next pass + {true,M} + end; + OtherError -> + io:format("~p~n",[OtherError]) + end; +parse({false,Tokens},_,_) -> + {false,Tokens}. + +check({true,M},File,OutFile,Includes,EncodingRule,DbFile,Options,InputMods) -> + + start(Includes), + case asn1ct_check:storeindb(#state{erule=EncodingRule},M) of + ok -> + Module = asn1_db:dbget(M#module.name,'MODULE'), + State = #state{mname=Module#module.name, + module=Module#module{typeorval=[]}, + erule=EncodingRule, + inputmodules=InputMods, + options=Options, + sourcedir=filename:dirname(File)}, + Check = asn1ct_check:check(State,Module#module.typeorval), + case {Check,lists:member(abs,Options)} of + {{error,Reason},_} -> + {false,{error,Reason}}; + {{ok,NewTypeOrVal,_},true} -> + NewM = Module#module{typeorval=NewTypeOrVal}, + asn1_db:dbput(NewM#module.name,'MODULE',NewM), + pretty2(M#module.name,lists:concat([OutFile,".abs"])), + {false,ok}; + {{ok,NewTypeOrVal,GenTypeOrVal},_} -> + NewM = Module#module{typeorval=NewTypeOrVal}, + asn1_db:dbput(NewM#module.name,'MODULE',NewM), + asn1_db:dbsave(DbFile,M#module.name), + io:format("--~p--~n",[{generated,DbFile}]), + {true,{M,NewM,GenTypeOrVal}} + end + end; +check({false,M},_,_,_,_,_,_,_) -> + {false,M}. + +generate({true,{M,_Module,GenTOrV}},OutFile,EncodingRule,Options) -> + debug_on(Options), + case lists:member(compact_bit_string,Options) of + true -> put(compact_bit_string,true); + _ -> ok + end, + put(encoding_options,Options), + create_ets_table(check_functions,[named_table]), + + %% create decoding function names and taglists for partial decode + %% For the time being leave errors unnoticed !!!!!!!!! +% io:format("Options: ~p~n",[Options]), + case catch specialized_decode_prepare(EncodingRule,M,GenTOrV,Options) of + {error, enoent} -> ok; + {error, Reason} -> io:format("WARNING: Error in configuration" + "file: ~n~p~n",[Reason]); + {'EXIT',Reason} -> io:format("WARNING: Internal error when " + "analyzing configuration" + "file: ~n~p~n",[Reason]); + _ -> ok + end, + + Result = + case (catch asn1ct_gen:pgen(OutFile,EncodingRule, + M#module.name,GenTOrV)) of + {'EXIT',Reason2} -> + io:format("ERROR: ~p~n",[Reason2]), + {error,Reason2}; + _ -> + ok + end, + debug_off(Options), + put(compact_bit_string,false), + erase(encoding_options), + erase(tlv_format), % used in ber_bin, optimize + erase(class_default_type),% used in ber_bin, optimize + ets:delete(check_functions), + case Result of + {error,_} -> + {false,Result}; + ok -> + case lists:member(sg,Options) of + true -> % terminate here , with .erl file generated + {false,true}; + false -> + {true,true} + end + end; +generate({false,M},_,_,_) -> + {false,M}. + +%% parse_and_save parses an asn1 spec and saves the unchecked parse +%% tree in a data base file. +%% Does not support multifile compilation files +parse_and_save(Module,S) -> + Options = S#state.options, + SourceDir = S#state.sourcedir, + Includes = [I || {i,I} <-Options], + Options1 = optimize_ber_bin(Options), + + case get_input_file(Module,[SourceDir|Includes]) of + %% search for asn1 source + {file,SuffixedASN1source} -> + case dbfile_uptodate(SuffixedASN1source,Options1) of + false -> + parse_and_save1(S,SuffixedASN1source,Options1,Includes); + _ -> ok + end; + Err -> + io:format("Warning: could not do a consistency check of the ~p file: no asn1 source file was found.~n",[lists:concat([Module,".asn1db"])]), + {error,{asn1,input_file_error,Err}} + end. +parse_and_save1(S,File,Options,Includes) -> + Ext = filename:extension(File), + Base = filename:basename(File,Ext), + DbFile = outfile(Base,"asn1db",Options), + Continue1 = scan(File,Options), + M = + case parse(Continue1,File,Options) of + {true,Mod} -> Mod; + _ -> +%% io:format("~p~nnow I die!!!!!!!!!!!~n",[File]), + exit({error,{asn1,File,"no such file"}}) + end, +% start(["."|Includes]), + start(Includes), + case asn1ct_check:storeindb(S,M) of + ok -> + asn1_db:dbsave(DbFile,M#module.name) + end. + +get_input_file(Module,[]) -> + Module; +get_input_file(Module,[I|Includes]) -> + case (catch input_file_type(filename:join([I,Module]))) of + {single_file,FileName} -> +%% case file:read_file_info(FileName) of +%% {ok,_} -> + {file,FileName}; +%% _ -> get_input_file(Module,Includes) +%% end; + _ -> + get_input_file(Module,Includes) + end. + +dbfile_uptodate(File,Options) -> + EncodingRule = get_rule(Options), + Ext = filename:extension(File), + Base = filename:basename(File,Ext), + DbFile = outfile(Base,"asn1db",Options), + case file:read_file_info(DbFile) of + {error,enoent} -> + false; + {ok,FileInfoDb} -> + %% file exists, check date and finally encodingrule + {ok,FileInfoAsn} = file:read_file_info(File), + case FileInfoDb#file_info.mtime < FileInfoAsn#file_info.mtime of + true -> + %% date of asn1 spec newer than db file + false; + _ -> + %% date ok,check that same erule was used + Obase = case lists:keysearch(outdir, 1, Options) of + {value, {outdir, Odir}} -> + Odir; + _NotFound -> "" + end, + BeamFileName = outfile(Base,"beam",Options), + case file:read_file_info(BeamFileName) of + {ok,_} -> + code:add_path(Obase), + BeamFile = list_to_atom(Base), + BeamInfo = (catch BeamFile:info()), + case catch lists:keysearch(options,1,BeamInfo) of + {value,{options,OldOptions}} -> + case get_rule(OldOptions) of + EncodingRule -> true; + _ -> false + end; + _ -> false + end; + _ -> false + end + end + end. + + +compile_erl({true,_},OutFile,Options) -> + erl_compile(OutFile,Options); +compile_erl({false,true},_,_) -> + ok; +compile_erl({false,Result},_,_) -> + Result. + +input_file_type(Name,I) -> + case input_file_type(Name) of + {error,_} -> input_file_type2(filename:basename(Name),I); + Err={input_file_error,_} -> Err; + Res -> Res + end. +input_file_type2(Name,[I|Is]) -> + case input_file_type(filename:join([I,Name])) of + {error,_} -> input_file_type2(Name,Is); + Err={input_file_error,_} -> Err; + Res -> Res + end; +input_file_type2(Name,[]) -> + input_file_type(Name). + +input_file_type([]) -> + {empty_name,[]}; +input_file_type(File) -> + case filename:extension(File) of + [] -> + case file:read_file_info(lists:concat([File,".asn1"])) of + {ok,_FileInfo} -> + {single_file, lists:concat([File,".asn1"])}; + _Error -> + case file:read_file_info(lists:concat([File,".asn"])) of + {ok,_FileInfo} -> + {single_file, lists:concat([File,".asn"])}; + _Error -> + case file:read_file_info(lists:concat([File,".py"])) of + {ok,_FileInfo} -> + {single_file, lists:concat([File,".py"])}; + Error -> + Error + end + end + end; + ".asn1config" -> + case read_config_file(File,asn1_module) of + {ok,Asn1Module} -> +% put(asn1_config_file,File), + input_file_type(Asn1Module); + Error -> + Error + end; + Asn1SFix -> + Base = filename:basename(File,Asn1SFix), + Ret = + case filename:extension(Base) of + [] -> + {single_file,File}; + SetSFix when (SetSFix == ".set") -> + {multiple_files_file, + list_to_atom(filename:basename(Base,SetSFix)), + File}; + _Error -> + throw({input_file_error,{'Bad input file',File}}) + end, + %% check that the file exists + case file:read_file_info(File) of + {ok,_} -> Ret; + Err -> Err + end + end. + +get_file_list(File,Includes) -> + case file:open(File,[read]) of + {error,Reason} -> + {error,{File,file:format_error(Reason)}}; + {ok,Stream} -> + get_file_list1(Stream,filename:dirname(File),Includes,[]) + end. + +get_file_list1(Stream,Dir,Includes,Acc) -> + Ret = io:get_line(Stream,''), + case Ret of + eof -> + file:close(Stream), + lists:reverse(Acc); + FileName -> + SuffixedNameList = + case (catch input_file_type(filename:join([Dir,lists:delete($\n,FileName)]),Includes)) of + {empty_name,[]} -> []; + {single_file,Name} -> [Name]; + {multiple_files_file,_,Name} -> + get_file_list(Name,Includes); + _Err -> + [] + end, + get_file_list1(Stream,Dir,Includes,SuffixedNameList++Acc) + end. + +get_rule(Options) -> + case [Rule ||Rule <-[per,ber,ber_bin,ber_bin_v2,per_bin,uper_bin], + Opt <- Options, + Rule==Opt] of + [Rule] -> + Rule; + [Rule|_] -> + Rule; + [] -> + ber + end. + +get_runtime_mod(Options) -> + RtMod1= + case get_rule(Options) of + per -> ["asn1rt_per_bin.erl"]; + ber -> ["asn1rt_ber_bin.erl"]; + per_bin -> + case lists:member(optimize,Options) of + true -> ["asn1rt_per_bin_rt2ct.erl"]; + _ -> ["asn1rt_per_bin.erl"] + end; + ber_bin -> ["asn1rt_ber_bin.erl"]; + ber_bin_v2 -> ["asn1rt_ber_bin_v2.erl"]; + uper_bin -> ["asn1rt_uper_bin.erl"] + end, + RtMod1++["asn1rt_check.erl","asn1rt_driver_handler.erl","asn1rt.erl"]. + + +erl_compile(OutFile,Options) -> +% io:format("Options:~n~p~n",[Options]), + case lists:member(noobj,Options) of + true -> + ok; + _ -> + ErlOptions = remove_asn_flags(Options), + %% io:format("~n~nc:c(~p,~p)~n~n",[OutFile,ErlOptions]), + case c:c(OutFile,ErlOptions) of + {ok,_Module} -> + ok; + _ -> + {error,'no_compilation'} + end + end. + +remove_asn_flags(Options) -> + [X || X <- Options, + X /= get_rule(Options), + X /= optimize, + X /= compact_bit_string, + X /= debug, + X /= keyed_list, + X /= asn1config, + X /= record_name_prefix]. + +debug_on(Options) -> + case lists:member(debug,Options) of + true -> + put(asndebug,true); + _ -> + true + end, + case lists:member(keyed_list,Options) of + true -> + put(asn_keyed_list,true); + _ -> + true + end. + +igorify_options(Options) -> + case lists:keysearch(outdir,1,Options) of + {value,{_,Dir}} -> + Options1 = lists:keydelete(outdir,1,Options), + [{dir,Dir}|Options1]; + _ -> + Options + end. + +generated_file(Name,Options) -> + case lists:keysearch(dir,1,Options) of + {value,{_,Dir}} -> + filename:join([Dir,filename:basename(Name)]); + _ -> + Name + end. + +debug_off(_Options) -> + erase(asndebug), + erase(asn_keyed_list). + + +outfile(Base, Ext, Opts) -> +% io:format("Opts. ~p~n",[Opts]), + Obase = case lists:keysearch(outdir, 1, Opts) of + {value, {outdir, Odir}} -> filename:join(Odir, Base); + _NotFound -> Base % Not found or bad format + end, + case Ext of + [] -> + Obase; + _ -> + lists:concat([Obase,".",Ext]) + end. + +optimize_ber_bin(Options) -> + case {lists:member(optimize,Options),lists:member(ber_bin,Options)} of + {true,true} -> + [ber_bin_v2|Options--[ber_bin]]; + _ -> Options + end. + +includes(File,Options) -> + Dir = filename:dirname(File), + Options2 = + case lists:member({i,"."},Options) of + false -> Options ++ [{i,"."}]; + _ -> Options + end, + case lists:member({i,Dir}, Options2) of + false -> Options2 ++ [{i,Dir}]; + _ -> Options2 + end. + +is_inline(Options) -> + case lists:member(inline,Options) of + true -> true; + _ -> + lists:keymember(inline,1,Options) + end. +inline_output(Options,Default) -> + case [X||{inline,X}<-Options] of + [OutputName] -> + OutputName; + _ -> + Default + end. + + +%% compile(AbsFileName, Options) +%% Compile entry point for erl_compile. + +compile_asn(File,OutFile,Options) -> + compile(lists:concat([File,".asn"]),OutFile,Options). + +compile_asn1(File,OutFile,Options) -> + compile(lists:concat([File,".asn1"]),OutFile,Options). + +compile_py(File,OutFile,Options) -> + compile(lists:concat([File,".py"]),OutFile,Options). + +compile(File, _OutFile, Options) -> + case catch compile(File, make_erl_options(Options)) of + Exit = {'EXIT',_Reason} -> + io:format("~p~n~s~n",[Exit,"error"]), + error; + {error,_Reason} -> + %% case occurs due to error in asn1ct_parser2,asn1ct_check +%% io:format("~p~n",[_Reason]), +%% io:format("~p~n~s~n",[_Reason,"error"]), + error; + ok -> + io:format("ok~n"), + ok; + ParseRes when is_tuple(ParseRes) -> + io:format("~p~n",[ParseRes]), + ok; + ScanRes when is_list(ScanRes) -> + io:format("~p~n",[ScanRes]), + ok; + Unknown -> + io:format("~p~n~s~n",[Unknown,"error"]), + error + end. + +%% Converts generic compiler options to specific options. + +make_erl_options(Opts) -> + + %% This way of extracting will work even if the record passed + %% has more fields than known during compilation. + + Includes = Opts#options.includes, + Defines = Opts#options.defines, + Outdir = Opts#options.outdir, +%% Warning = Opts#options.warning, + Verbose = Opts#options.verbose, + Specific = Opts#options.specific, + Optimize = Opts#options.optimize, + OutputType = Opts#options.output_type, + Cwd = Opts#options.cwd, + + Options = + case Verbose of + true -> [verbose]; + false -> [] + end ++ +%%% case Warning of +%%% 0 -> []; +%%% _ -> [report_warnings] +%%% end ++ + [] ++ + case Optimize of + 1 -> [optimize]; + 999 -> []; + _ -> [{optimize,Optimize}] + end ++ + lists:map( + fun ({Name, Value}) -> + {d, Name, Value}; + (Name) -> + {d, Name} + end, + Defines) ++ + case OutputType of + undefined -> [ber]; % temporary default (ber when it's ready) + ber -> [ber]; + ber_bin -> [ber_bin]; + ber_bin_v2 -> [ber_bin_v2]; + per -> [per]; + per_bin -> [per_bin]; + uper_bin -> [uper_bin] + end, + + Options++[report_errors, {cwd, Cwd}, {outdir, Outdir}| + lists:map(fun(Dir) -> {i, Dir} end, Includes)]++Specific. + +pretty2(Module,AbsFile) -> + start(), + {ok,F} = file:open(AbsFile,[write]), + M = asn1_db:dbget(Module,'MODULE'), + io:format(F,"%%%%%%%%%%%%%%%%%%% ~p %%%%%%%%%%%%%%%%%%%~n",[Module]), + io:format(F,"~s\n",[asn1ct_pretty_format:term(M#module.defid)]), + io:format(F,"~s\n",[asn1ct_pretty_format:term(M#module.tagdefault)]), + io:format(F,"~s\n",[asn1ct_pretty_format:term(M#module.exports)]), + io:format(F,"~s\n",[asn1ct_pretty_format:term(M#module.imports)]), + io:format(F,"~s\n\n",[asn1ct_pretty_format:term(M#module.extensiondefault)]), + + {Types,Values,ParameterizedTypes,Classes,Objects,ObjectSets} = M#module.typeorval, + io:format(F,"%%%%%%%%%%%%%%%%%%% TYPES in ~p %%%%%%%%%%%%%%%%%%%~n",[Module]), + lists:foreach(fun(T)-> io:format(F,"~s\n", + [asn1ct_pretty_format:term(asn1_db:dbget(Module,T))]) + end,Types), + io:format(F,"%%%%%%%%%%%%%%%%%%% VALUES in ~p %%%%%%%%%%%%%%%%%%%~n",[Module]), + lists:foreach(fun(T)-> io:format(F,"~s\n", + [asn1ct_pretty_format:term(asn1_db:dbget(Module,T))]) + end,Values), + io:format(F,"%%%%%%%%%%%%%%%%%%% Parameterized Types in ~p %%%%%%%%%%%%%%%%%%%~n",[Module]), + lists:foreach(fun(T)-> io:format(F,"~s\n", + [asn1ct_pretty_format:term(asn1_db:dbget(Module,T))]) + end,ParameterizedTypes), + io:format(F,"%%%%%%%%%%%%%%%%%%% Classes in ~p %%%%%%%%%%%%%%%%%%%~n",[Module]), + lists:foreach(fun(T)-> io:format(F,"~s\n", + [asn1ct_pretty_format:term(asn1_db:dbget(Module,T))]) + end,Classes), + io:format(F,"%%%%%%%%%%%%%%%%%%% Objects in ~p %%%%%%%%%%%%%%%%%%%~n",[Module]), + lists:foreach(fun(T)-> io:format(F,"~s\n", + [asn1ct_pretty_format:term(asn1_db:dbget(Module,T))]) + end,Objects), + io:format(F,"%%%%%%%%%%%%%%%%%%% Object Sets in ~p %%%%%%%%%%%%%%%%%%%~n",[Module]), + lists:foreach(fun(T)-> io:format(F,"~s\n", + [asn1ct_pretty_format:term(asn1_db:dbget(Module,T))]) + end,ObjectSets). +start() -> + Includes = ["."], + start(Includes). + + +start(Includes) when is_list(Includes) -> + asn1_db:dbstart(Includes). + +stop() -> + save(), + asn1_db:stop_server(ns), + asn1_db:stop_server(rand), + stopped. + +save() -> + asn1_db:dbstop(). + +%%clear() -> +%% asn1_db:dbclear(). + +encode(Module,Term) -> + asn1rt:encode(Module,Term). + +encode(Module,Type,Term) when is_list(Module) -> + asn1rt:encode(list_to_atom(Module),Type,Term); +encode(Module,Type,Term) -> + asn1rt:encode(Module,Type,Term). + +decode(Module,Type,Bytes) when is_list(Module) -> + asn1rt:decode(list_to_atom(Module),Type,Bytes); +decode(Module,Type,Bytes) -> + asn1rt:decode(Module,Type,Bytes). + + +test(Module) -> + start(), + M = asn1_db:dbget(Module,'MODULE'), + {Types,_Values,_Ptypes,_Classes,_Objects,_ObjectSets} = M#module.typeorval, + test_each(Module,Types). + +test_each(Module,[Type | Rest]) -> + case test(Module,Type) of + {ok,_Result} -> + test_each(Module,Rest); + Error -> + Error + end; +test_each(_,[]) -> + ok. + +test(Module,Type) -> + io:format("~p:~p~n",[Module,Type]), + case (catch value(Module,Type)) of + {ok,Val} -> + %% io:format("asn1ct:test/2: ~w~n",[Val]), + test(Module,Type,Val); + {'EXIT',Reason} -> + {error,{asn1,{value,Reason}}} + end. + + +test(Module,Type,Value) -> + case catch encode(Module,Type,Value) of + {ok,Bytes} -> + %% io:format("test 1: ~p~n",[{Bytes}]), + M = if + is_list(Module) -> + list_to_atom(Module); + true -> + Module + end, + NewBytes = + case M:encoding_rule() of + ber -> + lists:flatten(Bytes); + ber_bin when is_binary(Bytes) -> + Bytes; + ber_bin -> + list_to_binary(Bytes); + ber_bin_v2 when is_binary(Bytes) -> + Bytes; + ber_bin_v2 -> + list_to_binary(Bytes); + per -> + lists:flatten(Bytes); + per_bin when is_binary(Bytes) -> + Bytes; + per_bin -> + list_to_binary(Bytes); + uper_bin -> + Bytes + end, + case decode(Module,Type,NewBytes) of + {ok,Value} -> + {ok,{Module,Type,Value}}; + {ok,Res} -> + {error,{asn1,{encode_decode_mismatch, + {{Module,Type,Value},Res}}}}; + Error -> + {error,{asn1,{{decode, + {Module,Type,Value},Error}}}} + end; + Error -> + {error,{asn1,{encode,{{Module,Type,Value},Error}}}} + end. + +value(Module) -> + start(), + M = asn1_db:dbget(Module,'MODULE'), + {Types,_Values,_Ptypes,_Classes,_Objects,_ObjectSets} = M#module.typeorval, + lists:map(fun(A) ->value(Module,A) end,Types). + +value(Module,Type) -> + start(), + case catch asn1ct_value:get_type(Module,Type,no) of + {error,Reason} -> + {error,Reason}; + {'EXIT',Reason} -> + {error,Reason}; + Result -> + {ok,Result} + end. + +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. + + +%% functions to administer ets tables + +%% Always creates a new table +create_ets_table(Name,Options) when is_atom(Name) -> + case ets:info(Name) of + undefined -> + ets:new(Name,Options); + _ -> + ets:delete(Name), + ets:new(Name,Options) + end. + +%% Creates a new ets table only if no table exists +create_if_no_table(Name,Options) -> + case ets:info(Name) of + undefined -> + %% create a new table + create_ets_table(Name,Options); + _ -> ok + end. + + +delete_tables([Table|Ts]) -> + case ets:info(Table) of + undefined -> ok; + _ -> ets:delete(Table) + end, + delete_tables(Ts); +delete_tables([]) -> + ok. + + +specialized_decode_prepare(Erule,M,TsAndVs,Options) -> + case lists:member(asn1config,Options) of + true -> + partial_decode_prepare(Erule,M,TsAndVs,Options); + _ -> + ok + end. +%% Reads the configuration file if it exists and stores information +%% about partial decode and incomplete decode +partial_decode_prepare(ber_bin_v2,M,TsAndVs,Options) when is_tuple(TsAndVs) -> + %% read configure file + + ModName = + case lists:keysearch(asn1config,1,Options) of + {value,{_,MName}} -> MName; + _ -> M#module.name + end, +%% io:format("ModName: ~p~nM#module.name: ~p~n~n",[ModName,M#module.name]), + CfgList = read_config_file(ModName), + SelectedDecode = get_config_info(CfgList,selective_decode), + ExclusiveDecode = get_config_info(CfgList,exclusive_decode), + CommandList = + create_partial_decode_gen_info(M#module.name,SelectedDecode), + %% To convert CommandList to a proper list for the driver change + %% the list:[[choosen,Tag1],skip,[skip_optional,Tag2]] to L = + %% [5,2,Tag1,0,1,Tag2] where 5 is the length, and call + %% port_control(asn1_driver_port,3,[L| Bin]) + save_config(partial_decode,CommandList), + save_gen_state(selective_decode,SelectedDecode), +% io:format("selective_decode: CommandList:~n~p~nSelectedDecode:~n~p~n", +% [CommandList,SelectedDecode]), + CommandList2 = + create_partial_inc_decode_gen_info(M#module.name,ExclusiveDecode), +% io:format("partial_incomplete_decode = ~p~n",[CommandList2]), + Part_inc_tlv_tags = tlv_tags(CommandList2), +% io:format("partial_incomplete_decode: tlv_tags = ~p~n",[Part_inc_tlv_tags]), + save_config(partial_incomplete_decode,Part_inc_tlv_tags), + save_gen_state(exclusive_decode,ExclusiveDecode,Part_inc_tlv_tags); +partial_decode_prepare(_,_,_,_) -> + ok. + + + +%% create_partial_inc_decode_gen_info/2 +%% +%% Creats a list of tags out of the information in TypeNameList that +%% tells which value will be incomplete decoded, i.e. each end +%% component/type in TypeNameList. The significant types/components in +%% the path from the toptype must be specified in the +%% TypeNameList. Significant elements are all constructed types that +%% branches the path to the leaf and the leaf it selfs. +%% +%% Returns a list of elements, where an element may be one of +%% mandatory|[opt,Tag]|[bin,Tag]. mandatory correspond to a mandatory +%% element that shall be decoded as usual. [opt,Tag] matches an +%% OPTIONAL or DEFAULT element that shall be decoded as +%% usual. [bin,Tag] corresponds to an element, mandatory, OPTIONAL or +%% DEFAULT, that shall be left encoded (incomplete decoded). +create_partial_inc_decode_gen_info(ModName,{Mod,[{Name,L}|Ls]}) when is_list(L) -> + TopTypeName = partial_inc_dec_toptype(L), + [{Name,TopTypeName, + create_partial_inc_decode_gen_info1(ModName,TopTypeName,{Mod,L})}| + create_partial_inc_decode_gen_info(ModName,{Mod,Ls})]; +create_partial_inc_decode_gen_info(_,{_,[]}) -> + []; +create_partial_inc_decode_gen_info(_,[]) -> + []. + +create_partial_inc_decode_gen_info1(ModName,TopTypeName,{ModName, + [_TopType|Rest]}) -> + case asn1_db:dbget(ModName,TopTypeName) of + #typedef{typespec=TS} -> + TagCommand = get_tag_command(TS,?MANDATORY,mandatory), + create_pdec_inc_command(ModName,get_components(TS#type.def), + Rest,[TagCommand]); + _ -> + throw({error,{"wrong type list in asn1 config file", + TopTypeName}}) + end; +create_partial_inc_decode_gen_info1(M1,_,{M2,_}) when M1 /= M2 -> + throw({error,{"wrong module name in asn1 config file", + M2}}); +create_partial_inc_decode_gen_info1(_,_,TNL) -> + throw({error,{"wrong type list in asn1 config file", + TNL}}). + +%% +%% Only when there is a 'ComponentType' the config data C1 may be a +%% list, where the incomplete decode is branched. So, C1 may be a +%% list, a "binary tuple", a "parts tuple" or an atom. The second +%% element of a binary tuple and a parts tuple is an atom. +create_pdec_inc_command(_ModName,_,[],Acc) -> + lists:reverse(Acc); +create_pdec_inc_command(ModName,{Comps1,Comps2},TNL,Acc) + when is_list(Comps1),is_list(Comps2) -> + create_pdec_inc_command(ModName,Comps1 ++ Comps2,TNL,Acc); +%% The following two functionclauses matches on the type after the top type. This one if the top type had no tag, i.e. a CHOICE +create_pdec_inc_command(ModN,Clist,[CL|_Rest],[[]]) when is_list(CL) -> + create_pdec_inc_command(ModN,Clist,CL,[]); +create_pdec_inc_command(ModN,Clist,[CL|_Rest],Acc) when is_list(CL) -> + InnerDirectives=create_pdec_inc_command(ModN,Clist,CL,[]), + lists:reverse([InnerDirectives|Acc]); +create_pdec_inc_command(ModName, + CList=[#'ComponentType'{name=Name,typespec=TS, + prop=Prop}|Comps], + TNL=[C1|Cs],Acc) -> + case C1 of +% Name -> +% %% In this case C1 is an atom +% TagCommand = get_tag_command(TS,?MANDATORY,Prop), +% create_pdec_inc_command(ModName,get_components(TS#type.def),Cs,[TagCommand|Acc]); + {Name,undecoded} -> + TagCommand = get_tag_command(TS,?UNDECODED,Prop), + create_pdec_inc_command(ModName,Comps,Cs,concat_sequential(TagCommand,Acc)); + {Name,parts} -> + TagCommand = get_tag_command(TS,?PARTS,Prop), + create_pdec_inc_command(ModName,Comps,Cs,concat_sequential(TagCommand,Acc)); + L when is_list(L) -> % I guess this never happens due to previous function clause + %% This case is only possible as the first element after + %% the top type element, when top type is SEGUENCE or SET. + %% Follow each element in L. Must note every tag on the + %% way until the last command is reached, but it ought to + %% be enough to have a "complete" or "complete optional" + %% command for each component that is not specified in the + %% config file. Then in the TLV decode the components with + %% a "complete" command will be decoded by an ordinary TLV + %% decode. + create_pdec_inc_command(ModName,CList,L,Acc); + {Name,RestPartsList} when is_list(RestPartsList) -> + %% Same as previous, but this may occur at any place in + %% the structure. The previous is only possible as the + %% second element. + case get_tag_command(TS,?MANDATORY,Prop) of + ?MANDATORY -> + InnerDirectives= + create_pdec_inc_command(ModName,TS#type.def, + RestPartsList,[]), + create_pdec_inc_command(ModName,Comps,Cs, + [[?MANDATORY,InnerDirectives]|Acc]); +% create_pdec_inc_command(ModName,Comps,Cs, +% [InnerDirectives,?MANDATORY|Acc]); + [Opt,EncTag] -> + InnerDirectives = + create_pdec_inc_command(ModName,TS#type.def, + RestPartsList,[]), + create_pdec_inc_command(ModName,Comps,Cs, + [[Opt,EncTag,InnerDirectives]|Acc]) + end; +% create_pdec_inc_command(ModName,CList,RestPartsList,Acc); +%% create_pdec_inc_command(ModName,TS#type.def,RestPartsList,Acc); + _ -> %% this component may not be in the config list + TagCommand = get_tag_command(TS,?MANDATORY,Prop), + create_pdec_inc_command(ModName,Comps,TNL,concat_sequential(TagCommand,Acc)) + end; +create_pdec_inc_command(ModName, + {'CHOICE',[#'ComponentType'{name=C1, + typespec=TS, + prop=Prop}|Comps]}, + [{C1,Directive}|Rest],Acc) -> + case Directive of + List when is_list(List) -> +% [Command,Tag] = get_tag_command(TS,?ALTERNATIVE,Prop), + TagCommand = get_tag_command(TS,?ALTERNATIVE,Prop), + CompAcc = + create_pdec_inc_command(ModName, + get_components(TS#type.def),List,[]), + NewAcc = case TagCommand of + [Command,Tag] when is_atom(Command) -> + [[Command,Tag,CompAcc]|Acc]; + [L1,_L2|Rest] when is_list(L1) -> +% [LastComm|Comms] = lists:reverse(TagCommand), +% [concat_sequential(lists:reverse(Comms), +% [LastComm,CompAcc])|Acc] + case lists:reverse(TagCommand) of + [Atom|Comms]�when is_atom(Atom) -> + [concat_sequential(lists:reverse(Comms), + [Atom,CompAcc])|Acc]; + [[Command2,Tag2]|Comms] -> + [concat_sequential(lists:reverse(Comms), + [[Command2,Tag2,CompAcc]])|Acc] + end +% [concat_sequential(lists:reverse(Comms), +% InnerCommand)|Acc] + + end, + create_pdec_inc_command(ModName,{'CHOICE',Comps},Rest, +% [[Command,Tag,CompAcc]|Acc]); + NewAcc); + undecoded -> + TagCommand = get_tag_command(TS,?ALTERNATIVE_UNDECODED,Prop), + create_pdec_inc_command(ModName,{'CHOICE',Comps},Rest, + concat_sequential(TagCommand,Acc)); + parts -> + TagCommand = get_tag_command(TS,?ALTERNATIVE_PARTS,Prop), + create_pdec_inc_command(ModName,{'CHOICE',Comps},Rest, + concat_sequential(TagCommand,Acc)) + end; +create_pdec_inc_command(ModName, + {'CHOICE',[#'ComponentType'{typespec=TS, + prop=Prop}|Comps]}, + TNL,Acc) -> + TagCommand = get_tag_command(TS,?ALTERNATIVE,Prop), + create_pdec_inc_command(ModName,{'CHOICE',Comps},TNL, + concat_sequential(TagCommand,Acc)); +create_pdec_inc_command(M,{'CHOICE',{Cs1,Cs2}},TNL,Acc) + when is_list(Cs1),is_list(Cs2) -> + create_pdec_inc_command(M,{'CHOICE',Cs1 ++ Cs2},TNL,Acc); +create_pdec_inc_command(ModName,#'Externaltypereference'{module=M,type=Name}, + TNL,Acc) -> + #type{def=Def} = get_referenced_type(M,Name), + create_pdec_inc_command(ModName,get_components(Def),TNL,Acc); +create_pdec_inc_command(_,_,TNL,_) -> + throw({error,{"unexpected error when creating partial " + "decode command",TNL}}). + +partial_inc_dec_toptype([T|_]) when is_atom(T) -> + T; +partial_inc_dec_toptype([{T,_}|_]) when is_atom(T) -> + T; +partial_inc_dec_toptype([L|_]) when is_list(L) -> + partial_inc_dec_toptype(L); +partial_inc_dec_toptype(_) -> + throw({error,{"no top type found for partial incomplete decode"}}). + + +%% Creats a list of tags out of the information in TypeList and Types +%% that tells which value will be decoded. Each constructed type that +%% is in the TypeList will get a "choosen" command. Only the last +%% type/component in the TypeList may be a primitive type. Components +%% "on the way" to the final element may get the "skip" or the +%% "skip_optional" command. +%% CommandList = [Elements] +%% Elements = {choosen,Tag}|{skip_optional,Tag}|skip +%% Tag is a binary with the tag BER encoded. +create_partial_decode_gen_info(ModName,{ModName,TypeLists}) -> + [create_partial_decode_gen_info1(ModName,TL) || TL <- TypeLists]; +create_partial_decode_gen_info(_,[]) -> + []; +create_partial_decode_gen_info(_M1,{M2,_}) -> + throw({error,{"wrong module name in asn1 config file", + M2}}). + +%create_partial_decode_gen_info1(ModName,{ModName,TypeList}) -> +create_partial_decode_gen_info1(ModName,{FuncName,TypeList}) -> + case TypeList of + [TopType|Rest] -> + case asn1_db:dbget(ModName,TopType) of + #typedef{typespec=TS} -> + TagCommand = get_tag_command(TS,?CHOOSEN), + Ret=create_pdec_command(ModName, + get_components(TS#type.def), + Rest,concat_tags(TagCommand,[])), + {FuncName,Ret}; + _ -> + throw({error,{"wrong type list in asn1 config file", + TypeList}}) + end; + _ -> + [] + end; +create_partial_decode_gen_info1(_,_) -> + ok. +% create_partial_decode_gen_info1(_,[]) -> +% []; +% create_partial_decode_gen_info1(_M1,{M2,_}) -> +% throw({error,{"wrong module name in asn1 config file", +% M2}}). + +%% create_pdec_command/4 for each name (type or component) in the +%% third argument, TypeNameList, a command is created. The command has +%% information whether the component/type shall be skipped, looked +%% into or returned. The list of commands is returned. +create_pdec_command(_ModName,_,[],Acc) -> + Remove_empty_lists = + fun([[]|L],Res,Fun) -> + Fun(L,Res,Fun); + ([],Res,_) -> + Res; + ([H|L],Res,Fun) -> + Fun(L,[H|Res],Fun) + end, + Remove_empty_lists(Acc,[],Remove_empty_lists); +% lists:reverse(Acc); +create_pdec_command(ModName,[#'ComponentType'{name=C1,typespec=TS}|_Comps], + [C1|Cs],Acc) -> + %% this component is a constructed type or the last in the + %% TypeNameList otherwise the config spec is wrong + TagCommand = get_tag_command(TS,?CHOOSEN), + create_pdec_command(ModName,get_components(TS#type.def), + Cs,concat_tags(TagCommand,Acc)); +create_pdec_command(ModName,[#'ComponentType'{typespec=TS, + prop=Prop}|Comps], + [C2|Cs],Acc) -> + TagCommand = + case Prop of + mandatory -> + get_tag_command(TS,?SKIP); + _ -> + get_tag_command(TS,?SKIP_OPTIONAL) + end, + create_pdec_command(ModName,Comps,[C2|Cs],concat_tags(TagCommand,Acc)); +create_pdec_command(ModName,{'CHOICE',[Comp=#'ComponentType'{name=C1}|_]},TNL=[C1|_Cs],Acc) -> + create_pdec_command(ModName,[Comp],TNL,Acc); +create_pdec_command(ModName,{'CHOICE',[#'ComponentType'{}|Comps]},TNL,Acc) -> + create_pdec_command(ModName,{'CHOICE',Comps},TNL,Acc); +create_pdec_command(ModName,#'Externaltypereference'{module=M,type=C1}, + TypeNameList,Acc) -> + #type{def=Def} = get_referenced_type(M,C1), + create_pdec_command(ModName,get_components(Def),TypeNameList, + Acc); +create_pdec_command(ModName,TS=#type{def=Def},[C1|Cs],Acc) -> + %% This case when we got the "components" of a SEQUENCE/SET OF + case C1 of + [1] -> + %% A list with an integer is the only valid option in a 'S + %% OF', the other valid option would be an empty + %% TypeNameList saying that the entire 'S OF' will be + %% decoded. + TagCommand = get_tag_command(TS,?CHOOSEN), + create_pdec_command(ModName,Def,Cs,concat_tags(TagCommand,Acc)); + [N] when is_integer(N) -> + TagCommand = get_tag_command(TS,?SKIP), + create_pdec_command(ModName,Def,[[N-1]|Cs], + concat_tags(TagCommand,Acc)); + Err -> + throw({error,{"unexpected error when creating partial " + "decode command",Err}}) + end; +create_pdec_command(_,_,TNL,_) -> + throw({error,{"unexpected error when creating partial " + "decode command",TNL}}). + +% get_components({'CHOICE',Components}) -> +% Components; +get_components(#'SEQUENCE'{components={C1,C2}}) when is_list(C1),is_list(C2) -> + C1++C2; +get_components(#'SEQUENCE'{components=Components}) -> + Components; +get_components(#'SET'{components={C1,C2}}) when is_list(C1),is_list(C2) -> + C1++C2; +get_components(#'SET'{components=Components}) -> + Components; +get_components({'SEQUENCE OF',Components}) -> + Components; +get_components({'SET OF',Components}) -> + Components; +get_components(Def) -> + Def. + +concat_sequential(L=[A,B],Acc) when is_atom(A),is_binary(B) -> + [L|Acc]; +concat_sequential(L,Acc) when is_list(L) -> + concat_sequential1(lists:reverse(L),Acc); +concat_sequential(A,Acc) -> + [A|Acc]. +concat_sequential1([],Acc) -> + Acc; +concat_sequential1([[]],Acc) -> + Acc; +concat_sequential1([El|RestEl],Acc) when is_list(El) -> + concat_sequential1(RestEl,[El|Acc]); +concat_sequential1([mandatory|RestEl],Acc) -> + concat_sequential1(RestEl,[mandatory|Acc]); +concat_sequential1(L,Acc) -> + [L|Acc]. + + +many_tags([?SKIP])-> + false; +many_tags([?SKIP_OPTIONAL,_]) -> + false; +many_tags([?CHOOSEN,_]) -> + false; +many_tags(_) -> + true. + +concat_tags(Ts,Acc) -> + case many_tags(Ts) of + true when is_list(Ts) -> + lists:reverse(Ts)++Acc; + true -> + [Ts|Acc]; + false -> + [Ts|Acc] + end. +%% get_tag_command(Type,Command) + +%% Type is the type that has information about the tag Command tells +%% what to do with the encoded value with the tag of Type when +%% decoding. +get_tag_command(#type{tag=[]},_) -> + []; +%% SKIP and SKIP_OPTIONAL shall return only one tag command regardless +get_tag_command(#type{},?SKIP) -> + ?SKIP; +get_tag_command(#type{tag=Tags},?SKIP_OPTIONAL) -> + Tag=hd(Tags), + [?SKIP_OPTIONAL,encode_tag_val(decode_class(Tag#tag.class), + Tag#tag.form,Tag#tag.number)]; +get_tag_command(#type{tag=[Tag]},Command) -> + %% encode the tag according to BER + [Command,encode_tag_val(decode_class(Tag#tag.class),Tag#tag.form, + Tag#tag.number)]; +get_tag_command(T=#type{tag=[Tag|Tags]},Command) -> +% [get_tag_command(T#type{tag=[Tag]},Command)| +% [get_tag_command(T#type{tag=Tags},Command)]]. + TC = get_tag_command(T#type{tag=[Tag]},Command), + TCs = get_tag_command(T#type{tag=Tags},Command), + case many_tags(TCs) of + true when is_list(TCs) -> + [TC|TCs]; + _ -> [TC|[TCs]] + end. + +%% get_tag_command/3 used by create_pdec_inc_command +get_tag_command(#type{tag=[]},_,_) -> + []; +get_tag_command(#type{tag=[Tag]},?MANDATORY,Prop) -> + case Prop of + mandatory -> + ?MANDATORY; + {'DEFAULT',_} -> + [?DEFAULT,encode_tag_val(decode_class(Tag#tag.class), + Tag#tag.form,Tag#tag.number)]; + _ -> [?OPTIONAL,encode_tag_val(decode_class(Tag#tag.class), + Tag#tag.form,Tag#tag.number)] + end; +get_tag_command(#type{tag=[Tag]},Command,Prop) -> + [anonymous_dec_command(Command,Prop),encode_tag_val(decode_class(Tag#tag.class),Tag#tag.form, Tag#tag.number)]; +get_tag_command(#type{tag=Tag},Command,Prop) when is_record(Tag,tag) -> + get_tag_command(#type{tag=[Tag]},Command,Prop); +get_tag_command(T=#type{tag=[Tag|Tags]},Command,Prop) -> + [get_tag_command(T#type{tag=[Tag]},Command,Prop)|[ +% get_tag_command(T#type{tag=Tags},?MANDATORY,Prop)]]. + get_tag_command(T#type{tag=Tags},Command,Prop)]]. + +anonymous_dec_command(?UNDECODED,'OPTIONAL') -> + ?OPTIONAL_UNDECODED; +anonymous_dec_command(Command,_) -> + Command. + +get_referenced_type(M,Name) -> + case asn1_db:dbget(M,Name) of + #typedef{typespec=TS} -> + case TS of + #type{def=#'Externaltypereference'{module=M2,type=Name2}} -> + %% The tags have already been taken care of in the + %% first reference where they were gathered in a + %% list of tags. + get_referenced_type(M2,Name2); + #type{} -> TS; + _ -> + throw({error,{"unexpected element when" + " fetching referenced type",TS}}) + end; + T -> + throw({error,{"unexpected element when fetching " + "referenced type",T}}) + end. + + +tlv_tags([]) -> + []; +tlv_tags([mandatory|Rest]) -> + [mandatory|tlv_tags(Rest)]; +tlv_tags([[Command,Tag]|Rest]) when is_atom(Command),is_binary(Tag) -> + [[Command,tlv_tag(Tag)]|tlv_tags(Rest)]; +tlv_tags([[Command,Directives]|Rest]) when is_atom(Command),is_list(Directives) -> + [[Command,tlv_tags(Directives)]|tlv_tags(Rest)]; +%% remove all empty lists +tlv_tags([[]|Rest]) -> + tlv_tags(Rest); +tlv_tags([{Name,TopType,L1}|Rest]) when is_list(L1),is_atom(TopType) -> + [{Name,TopType,tlv_tags(L1)}|tlv_tags(Rest)]; +tlv_tags([[Command,Tag,L1]|Rest]) when is_list(L1),is_binary(Tag) -> + [[Command,tlv_tag(Tag),tlv_tags(L1)]|tlv_tags(Rest)]; +tlv_tags([[mandatory|Rest]]) -> + [[mandatory|tlv_tags(Rest)]]; +tlv_tags([L=[L1|_]|Rest]) when is_list(L1) -> + [tlv_tags(L)|tlv_tags(Rest)]. + +tlv_tag(<<Cl:2,_:1,TagNo:5>>) when TagNo < 31 -> + (Cl bsl 16) + TagNo; +tlv_tag(<<Cl:2,_:1,31:5,0:1,TagNo:7>>) -> + (Cl bsl 16) + TagNo; +tlv_tag(<<Cl:2,_:1,31:5,Buffer/binary>>) -> + TagNo = tlv_tag1(Buffer,0), + (Cl bsl 16) + TagNo. +tlv_tag1(<<0:1,PartialTag:7>>,Acc) -> + (Acc bsl 7) bor PartialTag; +tlv_tag1(<<1:1,PartialTag:7,Buffer/binary>>,Acc) -> + tlv_tag1(Buffer,(Acc bsl 7) bor PartialTag). + +%% reads the content from the configuration file and returns the +%% selected part choosen by InfoType. Assumes that the config file +%% content is an Erlang term. +read_config_file(ModuleName,InfoType) when is_atom(InfoType) -> + CfgList = read_config_file(ModuleName), + get_config_info(CfgList,InfoType). + + +read_config_file(ModuleName) -> + case file:consult(lists:concat([ModuleName,'.asn1config'])) of + {ok,CfgList} -> + CfgList; + {error,enoent} -> + Options = get(encoding_options), + Includes = [I || {i,I} <- Options], + read_config_file1(ModuleName,Includes); + {error,Reason} -> + file:format_error(Reason), + throw({error,{"error reading asn1 config file",Reason}}) + end. +read_config_file1(ModuleName,[]) -> + case filename:extension(ModuleName) of + ".asn1config" -> + throw({error,enoent}); + _ -> + read_config_file(lists:concat([ModuleName,".asn1config"])) + end; +read_config_file1(ModuleName,[H|T]) -> +% File = filename:join([H,lists:concat([ModuleName,'.asn1config'])]), + File = filename:join([H,ModuleName]), + case file:consult(File) of + {ok,CfgList} -> + CfgList; + {error,enoent} -> + read_config_file1(ModuleName,T); + {error,Reason} -> + file:format_error(Reason), + throw({error,{"error reading asn1 config file",Reason}}) + end. + +get_config_info(CfgList,InfoType) -> + case lists:keysearch(InfoType,1,CfgList) of + {value,{InfoType,Value}} -> + Value; + false -> + [] + end. + +%% save_config/2 saves the Info with the key Key +%% Before saving anything check if a table exists +%% The record gen_state is saved with the key {asn1_config,gen_state} +save_config(Key,Info) -> + create_if_no_table(asn1_general,[named_table]), + ets:insert(asn1_general,{{asn1_config,Key},Info}). + +read_config_data(Key) -> + case ets:info(asn1_general) of + undefined -> undefined; + _ -> + case ets:lookup(asn1_general,{asn1_config,Key}) of + [{_,Data}] -> Data; + Err -> % Err is [] when nothing was saved in the ets table +%% io:format("strange data from config file ~w~n",[Err]), + Err + end + end. + + +%% +%% Functions to manipulate the gen_state record saved in the +%% asn1_general ets table. +%% + +%% saves input data in a new gen_state record +save_gen_state(exclusive_decode,{_,ConfList},PartIncTlvTagList) -> + %ConfList=[{FunctionName,PatternList}|Rest] + State = + case get_gen_state() of + S when is_record(S,gen_state) -> S; + _ -> #gen_state{} + end, + StateRec = State#gen_state{inc_tag_pattern=PartIncTlvTagList, + inc_type_pattern=ConfList}, + save_config(gen_state,StateRec); +save_gen_state(_,_,_) -> +%% ok. + case get_gen_state() of + S when is_record(S,gen_state) -> ok; + _ -> save_config(gen_state,#gen_state{}) + end. + +save_gen_state(selective_decode,{_,Type_component_name_list}) -> +%% io:format("Selective_decode: ~p~n",[Type_component_name_list]), + State = + case get_gen_state() of + S when is_record(S,gen_state) -> S; + _ -> #gen_state{} + end, + StateRec = State#gen_state{type_pattern=Type_component_name_list}, + save_config(gen_state,StateRec); +save_gen_state(selective_decode,_) -> + ok. + +save_gen_state(GenState) when is_record(GenState,gen_state) -> + save_config(gen_state,GenState). + + +%% get_gen_state_field returns undefined if no gen_state exists or if +%% Field is undefined or the data at the field. +get_gen_state_field(Field) -> + case read_config_data(gen_state) of + undefined -> + undefined; + GenState when is_record(GenState,gen_state) -> + get_gen_state_field(GenState,Field); + Err -> + exit({error,{asn1,{"false configuration file info",Err}}}) + end. +get_gen_state_field(#gen_state{active=Active},active) -> + Active; +get_gen_state_field(_,active) -> + false; +get_gen_state_field(GS,prefix) -> + GS#gen_state.prefix; +get_gen_state_field(GS,inc_tag_pattern) -> + GS#gen_state.inc_tag_pattern; +get_gen_state_field(GS,tag_pattern) -> + GS#gen_state.tag_pattern; +get_gen_state_field(GS,inc_type_pattern) -> + GS#gen_state.inc_type_pattern; +get_gen_state_field(GS,type_pattern) -> + GS#gen_state.type_pattern; +get_gen_state_field(GS,func_name) -> + GS#gen_state.func_name; +get_gen_state_field(GS,namelist) -> + GS#gen_state.namelist; +get_gen_state_field(GS,tobe_refed_funcs) -> + GS#gen_state.tobe_refed_funcs; +get_gen_state_field(GS,gen_refed_funcs) -> + GS#gen_state.gen_refed_funcs; +get_gen_state_field(GS,generated_functions) -> + GS#gen_state.generated_functions; +get_gen_state_field(GS,suffix_index) -> + GS#gen_state.suffix_index; +get_gen_state_field(GS,current_suffix_index) -> + GS#gen_state.current_suffix_index. + +get_gen_state() -> + read_config_data(gen_state). + + +update_gen_state(Field,Data) -> + case get_gen_state() of + State when is_record(State,gen_state) -> + update_gen_state(Field,State,Data); + _ -> + exit({error,{asn1,{internal, + "tried to update nonexistent gen_state",Field,Data}}}) + end. +update_gen_state(active,State,Data) -> + save_gen_state(State#gen_state{active=Data}); +update_gen_state(prefix,State,Data) -> + save_gen_state(State#gen_state{prefix=Data}); +update_gen_state(inc_tag_pattern,State,Data) -> + save_gen_state(State#gen_state{inc_tag_pattern=Data}); +update_gen_state(tag_pattern,State,Data) -> + save_gen_state(State#gen_state{tag_pattern=Data}); +update_gen_state(inc_type_pattern,State,Data) -> + save_gen_state(State#gen_state{inc_type_pattern=Data}); +update_gen_state(type_pattern,State,Data) -> + save_gen_state(State#gen_state{type_pattern=Data}); +update_gen_state(func_name,State,Data) -> + save_gen_state(State#gen_state{func_name=Data}); +update_gen_state(namelist,State,Data) -> +% SData = +% case Data of +% [D] when is_list(D) -> D; +% _ -> Data +% end, + save_gen_state(State#gen_state{namelist=Data}); +update_gen_state(tobe_refed_funcs,State,Data) -> + save_gen_state(State#gen_state{tobe_refed_funcs=Data}); +update_gen_state(gen_refed_funcs,State,Data) -> + save_gen_state(State#gen_state{gen_refed_funcs=Data}); +update_gen_state(generated_functions,State,Data) -> + save_gen_state(State#gen_state{generated_functions=Data}); +update_gen_state(suffix_index,State,Data) -> + save_gen_state(State#gen_state{suffix_index=Data}); +update_gen_state(current_suffix_index,State,Data) -> + save_gen_state(State#gen_state{current_suffix_index=Data}). + +update_namelist(Name) -> + case get_gen_state_field(namelist) of + [Name,Rest] -> update_gen_state(namelist,Rest); + [Name|Rest] -> update_gen_state(namelist,Rest); + [{Name,List}] when is_list(List) -> update_gen_state(namelist,List); + [{Name,Atom}|Rest] when is_atom(Atom) -> update_gen_state(namelist,Rest); + Other -> Other + end. + +pop_namelist() -> + DeepTail = %% removes next element in order + fun([[{_,A}]|T],_Fun) when is_atom(A) -> T; + ([{_N,L}|T],_Fun) when is_list(L) -> [L|T]; + ([[]|T],Fun) -> Fun(T,Fun); + ([L1|L2],Fun) when is_list(L1) -> + case lists:flatten(L1) of + [] -> Fun([L2],Fun); + _ -> [Fun(L1,Fun)|L2] + end; + ([_H|T],_Fun) -> T + end, + {Pop,NewNL} = + case get_gen_state_field(namelist) of + [] -> {[],[]}; + L -> + {next_namelist_el(L), + DeepTail(L,DeepTail)} + end, + update_gen_state(namelist,NewNL), + Pop. + +%% next_namelist_el fetches the next type/component name in turn in +%% the namelist, without changing the namelist. +next_namelist_el() -> + case get_gen_state_field(namelist) of + undefined -> undefined; + L when is_list(L) -> next_namelist_el(L) + end. + +next_namelist_el([]) -> + []; +next_namelist_el([L]) when is_list(L) -> + next_namelist_el(L); +next_namelist_el([H|_]) when is_atom(H) -> + H; +next_namelist_el([L|T]) when is_list(L) -> + case next_namelist_el(L) of + [] -> + next_namelist_el([T]); + R -> + R + end; +next_namelist_el([H={_,A}|_]) when is_atom(A) -> + H. + +%% removes a bracket from the namelist +step_in_constructed() -> + case get_gen_state_field(namelist) of + [L] when is_list(L) -> + update_gen_state(namelist,L); + _ -> ok + end. + +is_function_generated(Name) -> + case get_gen_state_field(gen_refed_funcs) of + L when is_list(L) -> + lists:member(Name,L); + _ -> + false + end. + +get_tobe_refed_func(Name) -> + case get_gen_state_field(tobe_refed_funcs) of + L when is_list(L) -> + case lists:keysearch(Name,1,L) of + {_,Element} -> + Element; + _ -> + undefined + end; + _ -> + undefined + end. + +%% add_tobe_refed_func saves Data that is a three or four element +%% tuple. Do not save if it exists in generated_functions, because +%% then it will be or already is generated. +add_tobe_refed_func(Data) -> + %% + {Name,SI,Pattern} = + fun({N,Si,P,_}) -> {N,Si,P}; + (D) -> D end (Data), + NewData = + case SI of + I when is_integer(I) -> + fun(D) -> D end(Data); +% fun({N,Ix,P}) -> {N,Ix+1,P}; +% ({N,Ix,P,T}) -> {N,Ix+1,P,T} end (Data); + _ -> + fun({N,_,P}) -> {N,0,P}; + ({N,_,P,T}) -> {N,0,P,T} end (Data) + end, + + L = get_gen_state_field(generated_functions), + case generated_functions_member(get(currmod),Name,L,Pattern) of + true -> % it exists in generated_functions, it has already + % been generated or saved in tobe_refed_func + ok; + _ -> + add_once_tobe_refed_func(NewData), + %%only to get it saved in generated_functions + maybe_rename_function(tobe_refed,Name,Pattern) + end. + + + +%% Adds only one element with same Name and Index where Data = +%% {Name,Index,Pattern}. +add_once_tobe_refed_func(Data) -> + TRFL = get_gen_state_field(tobe_refed_funcs), + {Name,Index} = {element(1,Data),element(2,Data)}, + case lists:filter(fun({N,I,_}) when N==Name,I==Index ->true; + ({N,I,_,_}) when N==Name,I==Index -> true; + (_) -> false end,TRFL) of + [] -> +%% case lists:keysearch(element(1,Data),1,TRFL) of +%% false -> + update_gen_state(tobe_refed_funcs,[Data|TRFL]); + _ -> + ok + end. + + + +%% moves Name from the to be list to the generated list. +generated_refed_func(Name) -> + L = get_gen_state_field(tobe_refed_funcs), + NewL = lists:keydelete(Name,1,L), + update_gen_state(tobe_refed_funcs,NewL), + L2 = get_gen_state_field(gen_refed_funcs), + update_gen_state(gen_refed_funcs,[Name|L2]). + +%% adds Data to gen_refed_funcs field in gen_state. +add_generated_refed_func(Data) -> + case is_function_generated(Data) of + true -> + ok; + _ -> + L = get_gen_state_field(gen_refed_funcs), + update_gen_state(gen_refed_funcs,[Data|L]) + end. + +next_refed_func() -> + case get_gen_state_field(tobe_refed_funcs) of + [] -> + []; + [H|T] -> + update_gen_state(tobe_refed_funcs,T), + H + end. + +reset_gen_state() -> + save_gen_state(#gen_state{}). + +%% adds Data to generated_functions field in gen_state. +add_generated_function(Data) -> + L = get_gen_state_field(generated_functions), + update_gen_state(generated_functions,[Data|L]). + + +%% Each type has its own index starting from 0. If index is 0 there is +%% no renaming. +maybe_rename_function(Mode,Name,Pattern) -> + case get_gen_state_field(generated_functions) of + [] when Mode==inc_disp -> add_generated_function({Name,0,Pattern}), + Name; + [] -> + exit({error,{asn1,internal_error_exclusive_decode}}); + L -> + case {Mode,generated_functions_member(get(currmod),Name,L)} of + {_,true} -> + L2 = generated_functions_filter(get(currmod),Name,L), + case lists:keysearch(Pattern,3,L2) of + false -> %name existed, but not pattern + NextIndex = length(L2), + %%rename function + Suffix = lists:concat(["_",NextIndex]), + NewName = + maybe_rename_function2(type_check(Name),Name, + Suffix), + add_generated_function({Name,NextIndex,Pattern}), + NewName; + Value -> % name and pattern existed + %% do not save any new index + Suffix = make_suffix(Value), + Name2 = + case Name of + #'Externaltypereference'{type=T} -> T; + _ -> Name + end, + lists:concat([Name2,Suffix]) + end; + {inc_disp,_} -> %% this is when + %% decode_partial_inc_disp/2 is + %% generated + add_generated_function({Name,0,Pattern}), + Name; + _ -> % this if call from add_tobe_refed_func + add_generated_function({Name,0,Pattern}), + Name + end + end. + + +maybe_rename_function2(record,#'Externaltypereference'{type=Name},Suffix) -> + lists:concat([Name,Suffix]); +maybe_rename_function2(list,List,Suffix) -> + lists:concat([asn1ct_gen:list2name(List),Suffix]); +maybe_rename_function2(Thing,Name,Suffix) + when Thing==atom;Thing==integer;Thing==string -> + lists:concat([Name,Suffix]). + +%% generated_functions_member/4 checks on both Name and Pattern if +%% the element exists in L +generated_functions_member(M,Name,L,Pattern) -> + case generated_functions_member(M,Name,L) of + true -> + L2 = generated_functions_filter(M,Name,L), + case lists:keysearch(Pattern,3,L2) of + {value,_} -> + true; + _ -> false + end; + _ -> false + end. + +generated_functions_member(_M,Name,[{Name,_,_}|_]) -> + true; +generated_functions_member(M,#'Externaltypereference'{module=M,type=T}, + [{#'Externaltypereference'{module=M,type=T} + ,_,_}|_]) -> + true; +generated_functions_member(M,#'Externaltypereference'{module=M,type=Name}, + [{Name,_,_}|_]) -> + true; +generated_functions_member(M,Name,[_|T]) -> + generated_functions_member(M,Name,T); +generated_functions_member(_,_,[]) -> + false. + +% generated_functions_member(M,Name,L) -> +% case lists:keymember(Name,1,L) of +% true -> +% true; +% _ -> +% generated_functions_member1(M,Name,L) +% end. +% generated_functions_member1(M,#'Externaltypereference'{module=M,type=Name},L) -> +% lists:keymember(Name,1,L); +% generated_functions_member1(_,_,_) -> false. + +generated_functions_filter(_,Name,L) when is_atom(Name);is_list(Name) -> + lists:filter(fun({N,_,_}) when N==Name -> true; + (_) -> false + end, L); +generated_functions_filter(M,#'Externaltypereference'{module=M,type=Name},L)-> + % remove toptypename from patterns + RemoveTType = + fun({N,I,[N,P]}) when N == Name -> + {N,I,P}; + ({#'Externaltypereference'{module=M1,type=N},I,P}) when M1==M -> + {N,I,P}; + (P) -> P + end, + L2 = lists:map(RemoveTType,L), + generated_functions_filter(M,Name,L2). + + +maybe_saved_sindex(Name,Pattern) -> + case get_gen_state_field(generated_functions) of + [] -> false; + L -> + case generated_functions_member(get(currmod),Name,L) of + true -> + L2 = generated_functions_filter(get(currmod),Name,L), + case lists:keysearch(Pattern,3,L2) of + {value,{_,I,_}} -> + I; + _ -> length(L2) % this should be length(L2)! + end; + _ -> false + end + end. + +next_sindex() -> + SI = get_gen_state_field(suffix_index), + update_gen_state(suffix_index,SI+1), + SI+1. + +latest_sindex() -> + get_gen_state_field(suffix_index). + +current_sindex() -> + get_gen_state_field(current_suffix_index). + +set_current_sindex(Index) -> + update_gen_state(current_suffix_index,Index). + + +type_check(A) when is_atom(A) -> + atom; +%% type_check(I) when is_integer(I) -> +%% integer; +type_check(L) when is_list(L) -> + Pred = fun(X) when X=<255 -> + false; + (_) -> true + end, + case lists:filter(Pred,L) of + [] -> + string; + _ -> + list + end; +type_check(#'Externaltypereference'{}) -> + record. + + make_suffix({_,{_,0,_}}) -> + ""; + make_suffix({_,{_,I,_}}) -> + lists:concat(["_",I]); + make_suffix(_) -> + "". |