%%%---------------------------------------------------------------------- %%% File : eldap_utils.erl %%% Author : Mickael Remond %%% Purpose : ejabberd LDAP helper functions %%% Created : 12 Oct 2006 by Mickael Remond %%% %%% %%% ejabberd, Copyright (C) 2002-2020 ProcessOne %%% %%% This program is free software; you can redistribute it and/or %%% modify it under the terms of the GNU General Public License as %%% published by the Free Software Foundation; either version 2 of the %%% License, or (at your option) any later version. %%% %%% This program is distributed in the hope that it will be useful, %%% but WITHOUT ANY WARRANTY; without even the implied warranty of %%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU %%% General Public License for more details. %%% %%% You should have received a copy of the GNU General Public License along %%% with this program; if not, write to the Free Software Foundation, Inc., %%% 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. %%% %%%---------------------------------------------------------------------- -module(eldap_utils). -author('mremond@process-one.net'). -export([generate_subfilter/1, find_ldap_attrs/2, check_filter/1, get_ldap_attr/2, get_user_part/2, make_filter/2, get_state/2, case_insensitive_match/2, decode_octet_string/3, uids_domain_subst/2]). -include("logger.hrl"). -include("eldap.hrl"). %% Generate an 'or' LDAP query on one or several attributes %% If there is only one attribute generate_subfilter([UID]) -> subfilter(UID); %% If there is several attributes generate_subfilter(UIDs) -> iolist_to_binary(["(|", [subfilter(UID) || UID <- UIDs], ")"]). %% Subfilter for a single attribute subfilter({UIDAttr, UIDAttrFormat}) -> %% The default UiDAttrFormat is %u <<$(, UIDAttr/binary, $=, UIDAttrFormat/binary, $)>>; %% The default UiDAttrFormat is <<"%u">> subfilter({UIDAttr}) -> <<$(, UIDAttr/binary, $=, "%u)">>. %% Not tail-recursive, but it is not very terribly. %% It stops finding on the first not empty value. -spec find_ldap_attrs([{binary()} | {binary(), binary()}], [{binary(), [binary()]}]) -> <<>> | {binary(), binary()}. find_ldap_attrs([{Attr} | Rest], Attributes) -> find_ldap_attrs([{Attr, <<"%u">>} | Rest], Attributes); find_ldap_attrs([{Attr, Format} | Rest], Attributes) -> case get_ldap_attr(Attr, Attributes) of Value when is_binary(Value), Value /= <<>> -> {Value, Format}; _ -> find_ldap_attrs(Rest, Attributes) end; find_ldap_attrs([], _) -> <<>>. -spec get_ldap_attr(binary(), [{binary(), [binary()]}]) -> binary(). get_ldap_attr(LDAPAttr, Attributes) -> Res = lists:filter( fun({Name, _}) -> case_insensitive_match(Name, LDAPAttr) end, Attributes), case Res of [{_, [Value|_]}] -> Value; _ -> <<>> end. -spec get_user_part(binary(), binary()) -> {ok, binary()} | {error, badmatch}. get_user_part(String, Pattern) -> F = fun(S, P) -> First = str:str(P, <<"%u">>), TailLength = byte_size(P) - (First+1), str:sub_string(S, First, byte_size(S) - TailLength) end, case catch F(String, Pattern) of {'EXIT', _} -> {error, badmatch}; Result -> case catch ejabberd_regexp:replace(Pattern, <<"%u">>, Result) of {'EXIT', _} -> {error, badmatch}; StringRes -> case case_insensitive_match(StringRes, String) of true -> {ok, Result}; false -> {error, badmatch} end end end. -spec make_filter([{binary(), [binary()]}], [{binary(), binary()}]) -> any(). make_filter(Data, UIDs) -> NewUIDs = [{U, eldap_filter:do_sub( UF, [{<<"%u">>, <<"*%u*">>, 1}])} || {U, UF} <- UIDs], Filter = lists:flatmap( fun({Name, [Value | _]}) -> case Name of <<"%u">> when Value /= <<"">> -> case eldap_filter:parse( generate_subfilter(NewUIDs), [{<<"%u">>, Value}]) of {ok, F} -> [F]; _ -> [] end; _ when Value /= <<"">> -> [eldap:substrings( Name, [{any, Value}])]; _ -> [] end end, Data), case Filter of [F] -> F; _ -> eldap:'and'(Filter) end. check_filter(F) -> NewF = iolist_to_binary(F), {ok, _} = eldap_filter:parse(NewF), NewF. -spec case_insensitive_match(binary(), binary()) -> boolean(). case_insensitive_match(X, Y) -> X1 = str:to_lower(X), Y1 = str:to_lower(Y), if X1 == Y1 -> true; true -> false end. get_state(Server, Module) -> Proc = gen_mod:get_module_proc(Server, Module), gen_server:call(Proc, get_state). %% From the list of uids attribute: %% we look from alias domain (%d) and make the substitution %% with the actual host domain %% This help when you need to configure many virtual domains. -spec uids_domain_subst(binary(), [{binary(), binary()}]) -> [{binary(), binary()}]. uids_domain_subst(Host, UIDs) -> lists:map(fun({U,V}) -> {U, eldap_filter:do_sub(V,[{<<"%d">>, Host}])}; (A) -> A end, UIDs). %%---------------------------------------- %% Borrowed from asn1rt_ber_bin_v2.erl %%---------------------------------------- %%% The tag-number for universal types -define(N_BOOLEAN, 1). -define(N_INTEGER, 2). -define(N_BIT_STRING, 3). -define(N_OCTET_STRING, 4). -define(N_NULL, 5). -define(N_OBJECT_IDENTIFIER, 6). -define(N_OBJECT_DESCRIPTOR, 7). -define(N_EXTERNAL, 8). -define(N_REAL, 9). -define(N_ENUMERATED, 10). -define(N_EMBEDDED_PDV, 11). -define(N_SEQUENCE, 16). -define(N_SET, 17). -define(N_NumericString, 18). -define(N_PrintableString, 19). -define(N_TeletexString, 20). -define(N_VideotexString, 21). -define(N_IA5String, 22). -define(N_UTCTime, 23). -define(N_GeneralizedTime, 24). -define(N_GraphicString, 25). -define(N_VisibleString, 26). -define(N_GeneralString, 27). -define(N_UniversalString, 28). -define(N_BMPString, 30). decode_octet_string(Buffer, Range, Tags) -> % NewTags = new_tags(HasTag,#tag{class=?UNIVERSAL,number=?N_OCTET_STRING}), decode_restricted_string(Buffer, Range, Tags). decode_restricted_string(Tlv, Range, TagsIn) -> Val = match_tags(Tlv, TagsIn), Val2 = case Val of PartList = [_H|_T] -> % constructed val collect_parts(PartList); Bin -> Bin end, check_and_convert_restricted_string(Val2, Range). check_and_convert_restricted_string(Val, Range) -> {StrLen,NewVal} = if is_binary(Val) -> {size(Val), Val}; true -> {length(Val), list_to_binary(Val)} end, case Range of [] -> % No length constraint NewVal; {Lb,Ub} when StrLen >= Lb, Ub >= StrLen -> % variable length constraint NewVal; {{Lb,_Ub},[]} when StrLen >= Lb -> NewVal; {{Lb,_Ub},_Ext=[Min|_]} when StrLen >= Lb; StrLen >= Min -> NewVal; {{Lb1,Ub1},{Lb2,Ub2}} when StrLen >= Lb1, StrLen =< Ub1; StrLen =< Ub2, StrLen >= Lb2 -> NewVal; StrLen -> % fixed length constraint NewVal; {_,_} -> exit({error,{asn1,{length,Range,Val}}}); _Len when is_integer(_Len) -> exit({error,{asn1,{length,Range,Val}}}); _ -> % some strange constraint that we don't support yet NewVal end. %%---------------------------------------- %% Decode the in buffer to bits %%---------------------------------------- match_tags({T,V},[T]) -> V; match_tags({T,V}, [T|Tt]) -> match_tags(V,Tt); match_tags([{T,V}],[T|Tt]) -> match_tags(V, Tt); match_tags(Vlist = [{T,_V}|_], [T]) -> Vlist; match_tags(Tlv, []) -> Tlv; match_tags({Tag,_V},[T|_Tt]) -> {error,{asn1,{wrong_tag,{Tag,T}}}}. collect_parts(TlvList) -> collect_parts(TlvList,[]). collect_parts([{_,L}|Rest],Acc) when is_list(L) -> collect_parts(Rest,[collect_parts(L)|Acc]); collect_parts([{?N_BIT_STRING,<>}|Rest],_Acc) -> collect_parts_bit(Rest,[Bits],Unused); collect_parts([{_T,V}|Rest],Acc) -> collect_parts(Rest,[V|Acc]); collect_parts([],Acc) -> list_to_binary(lists:reverse(Acc)). collect_parts_bit([{?N_BIT_STRING,<>}|Rest],Acc,Uacc) -> collect_parts_bit(Rest,[Bits|Acc],Unused+Uacc); collect_parts_bit([],Acc,Uacc) -> list_to_binary([Uacc|lists:reverse(Acc)]).