%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1997-2010. 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_tok).
%% Tokenize ASN.1 code (input to parser generated with yecc)
-export([get_name/2,tokenise/4, file/1]).
file(File) ->
case file:open(File, [read]) of
{error, Reason} ->
{error,{File,file:format_error(Reason)}};
{ok,Stream} ->
process(Stream,0,[])
end.
process(Stream,Lno,R) ->
process(io:get_line(Stream, ''), Stream,Lno+1,R).
process(eof, Stream,Lno,R) ->
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]);
tokenise(Stream,[H|T],Lno,R) when $0 =< H , H =< $9 ->
{X, T1} = get_number(T, [H]),
tokenise(Stream,T1,Lno,[{number,Lno,list_to_integer(X)}|R]);
tokenise(Stream,[$-,$-|T],Lno,R) ->
tokenise(Stream,skip_comment(T),Lno,R);
tokenise(Stream,[$/,$*|T],Lno,R) ->
{NewLno,T1} = skip_multiline_comment(Stream,T,Lno,0),
tokenise(Stream,T1,NewLno,R);
tokenise(Stream,[$:,$:,$=|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) ->
{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]);
%% 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
%% 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]);
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
true ->
tokenise(Stream,T,Lno,R);
false ->
tokenise(Stream,T,Lno,[{list_to_atom([H]),Lno}|R])
end;
tokenise(_Stream,[],Lno,R) ->
{Lno,lists:reverse(R)}.
collect_string(L,Lno) ->
collect_string(L,Lno,[]).
collect_string([],_,_) ->
throw({'ERR','bad_quote found eof'});
collect_string([H|T],Lno,Str) ->
case H of
$" ->
{{cstring,1,lists:reverse(Str)},T};
Ch ->
collect_string(T,Lno,[Ch|Str])
end.
% <name> is letters digits hyphens
% hypen is not the last character. Hypen hyphen is NOT allowed
%
% <identifier> ::= <lowercase> <name>
get_name([$-,Char|T], L) ->
case isalnum(Char) of
true ->
get_name(T,[Char,$-|L]);
false ->
{lists:reverse(L),[$-,Char|T]}
end;
get_name([$-|T], L) ->
{lists:reverse(L),[$-|T]};
get_name([Char|T], L) ->
case isalnum(Char) of
true ->
get_name(T,[Char|L]);
false ->
{lists:reverse(L),[Char|T]}
end;
get_name([], L) ->
{lists:reverse(L), []}.
isalnum(H) when $A =< H , H =< $Z ->
true;
isalnum(H) when $a =< H , H =< $z ->
true;
isalnum(H) when $0 =< H , H =< $9 ->
true;
isalnum(_) ->
false.
isdigit(H) when $0 =< H , H =< $9 ->
true;
isdigit(_) ->
false.
white_space(9) -> true;
white_space(10) -> true;
white_space(13) -> true;
white_space(32) -> true;
white_space(_) -> false.
get_number([H|T], L) ->
case isdigit(H) of
true ->
get_number(T, [H|L]);
false ->
{lists:reverse(L), [H|T]}
end;
get_number([], L) ->
{lists:reverse(L), []}.
skip_comment([]) ->
[];
skip_comment([$-,$-|T]) ->
T;
skip_comment([_|T]) ->
skip_comment(T).
skip_multiline_comment(Stream,[],Lno,Level) ->
case io:get_line(Stream,'') of
eof ->
io:format("Tokeniser error on line: ~w~n"
"premature end of multiline comment~n",[Lno]),
exit(0);
Line ->
skip_multiline_comment(Stream,Line,Lno+1,Level)
end;
skip_multiline_comment(_Stream,[$*,$/|T],Lno,0) ->
{Lno,T};
skip_multiline_comment(Stream,[$*,$/|T],Lno,Level) ->
skip_multiline_comment(Stream,T,Lno,Level - 1);
skip_multiline_comment(Stream,[$/,$*|T],Lno,Level) ->
skip_multiline_comment(Stream,T,Lno,Level + 1);
skip_multiline_comment(Stream,[_|T],Lno,Level) ->
skip_multiline_comment(Stream,T,Lno,Level).
collect_quoted([$',$B|T],Lno, L) ->
case check_bin(L) of
true ->
{{bstring,Lno, lists:reverse(L)}, T};
false ->
throw({'ERR',{invalid_binary_number, lists:reverse(L)}})
end;
collect_quoted([$',$H|T],Lno, L) ->
case check_hex(L) of
true ->
{{hstring,Lno, lists:reverse(L)}, T};
false ->
throw({'ERR',{invalid_binary_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}}).
check_bin([$0|T]) ->
check_bin(T);
check_bin([$1|T]) ->
check_bin(T);
check_bin([]) ->
true;
check_bin(_) ->
false.
check_hex([H|T]) when $0 =< H , H =< $9 ->
check_hex(T);
check_hex([H|T]) when $A =< H , H =< $F ->
check_hex(T);
check_hex([]) ->
true;
check_hex(_) ->
false.
%% reserved_word(A) -> true|false|rstrtype
%% A = atom()
%% returns true if A is a reserved ASN.1 word
%% returns false if A is not a reserved word
%% returns rstrtype if A is a reserved word in the group
%% RestrictedCharacterStringType
reserved_word('ABSENT') -> true;
%reserved_word('ABSTRACT-SYNTAX') -> true; % impl as predef item
reserved_word('ALL') -> true;
reserved_word('ANY') -> true;
reserved_word('APPLICATION') -> true;
reserved_word('AUTOMATIC') -> true;
reserved_word('BEGIN') -> true;
reserved_word('BIT') -> true;
reserved_word('BMPString') -> rstrtype;
reserved_word('BOOLEAN') -> true;
reserved_word('BY') -> true;
reserved_word('CHARACTER') -> true;
reserved_word('CHOICE') -> true;
reserved_word('CLASS') -> true;
reserved_word('COMPONENT') -> true;
reserved_word('COMPONENTS') -> true;
reserved_word('CONSTRAINED') -> true;
reserved_word('CONTAINING') -> true;
reserved_word('DEFAULT') -> true;
reserved_word('DEFINED') -> true; % not present in X.680 07/2002
reserved_word('DEFINITIONS') -> true;
reserved_word('EMBEDDED') -> true;
reserved_word('ENCODED') -> true;
reserved_word('END') -> true;
reserved_word('ENUMERATED') -> true;
reserved_word('EXCEPT') -> true;
reserved_word('EXPLICIT') -> true;
reserved_word('EXPORTS') -> true;
reserved_word('EXTENSIBILITY') -> true;
reserved_word('EXTERNAL') -> true;
reserved_word('FALSE') -> true;
reserved_word('FROM') -> true;
reserved_word('GeneralizedTime') -> true;
reserved_word('GeneralString') -> rstrtype;
reserved_word('GraphicString') -> rstrtype;
reserved_word('IA5String') -> rstrtype;
reserved_word('IDENTIFIER') -> true;
reserved_word('IMPLICIT') -> true;
reserved_word('IMPLIED') -> true;
reserved_word('IMPORTS') -> true;
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;
reserved_word('NULL') -> true;
reserved_word('NumericString') -> rstrtype;
reserved_word('OBJECT') -> true;
reserved_word('ObjectDescriptor') -> true;
reserved_word('OCTET') -> true;
reserved_word('OF') -> true;
reserved_word('OPTIONAL') -> true;
reserved_word('PATTERN') -> true;
reserved_word('PDV') -> true;
reserved_word('PLUS-INFINITY') -> true;
reserved_word('PRESENT') -> true;
reserved_word('PrintableString') -> rstrtype;
reserved_word('PRIVATE') -> true;
reserved_word('REAL') -> true;
reserved_word('RELATIVE-OID') -> true;
reserved_word('SEQUENCE') -> true;
reserved_word('SET') -> true;
reserved_word('SIZE') -> true;
reserved_word('STRING') -> true;
reserved_word('SYNTAX') -> true;
reserved_word('T61String') -> rstrtype;
reserved_word('TAGS') -> true;
reserved_word('TeletexString') -> rstrtype;
reserved_word('TRUE') -> true;
%% reserved_word('TYPE-IDENTIFIER') -> true; % impl as predef item
reserved_word('UNION') -> true;
reserved_word('UNIQUE') -> true;
reserved_word('UNIVERSAL') -> true;
reserved_word('UniversalString') -> rstrtype;
reserved_word('UTCTime') -> true;
reserved_word('UTF8String') -> rstrtype;
reserved_word('VideotexString') -> rstrtype;
reserved_word('VisibleString') -> rstrtype;
reserved_word('WITH') -> true;
reserved_word(_) -> false.