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mirror of https://github.com/processone/ejabberd.git synced 2024-12-30 17:43:57 +01:00
xmpp.chapril.org-ejabberd/test/ldap_srv.erl
2013-06-22 03:28:17 +10:00

454 lines
14 KiB
Erlang

%%%-------------------------------------------------------------------
%%% @author Evgeniy Khramtsov <ekhramtsov@process-one.net>
%%% @copyright (C) 2013, Evgeniy Khramtsov
%%% @doc
%%% Simple LDAP server intended for LDAP modules testing
%%% @end
%%% Created : 21 Jun 2013 by Evgeniy Khramtsov <ekhramtsov@process-one.net>
%%%-------------------------------------------------------------------
-module(ldap_srv).
-behaviour(gen_server).
%% API
-export([start/1,
load_ldif/1,
equalityMatch/3,
greaterOrEqual/3,
lessOrEqual/3,
approxMatch/3]).
%% gen_server callbacks
-export([init/1, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3]).
-include("logger.hrl").
-include("ELDAPv3.hrl").
-define(TCP_SEND_TIMEOUT, 32000).
-define(SERVER, ?MODULE).
-record(state, {listener = make_ref() :: reference()}).
%%%===================================================================
%%% API
%%%===================================================================
start(LDIFFile) ->
gen_server:start({local, ?SERVER}, ?MODULE, [LDIFFile], []).
%%%===================================================================
%%% gen_server callbacks
%%%===================================================================
init([LDIFFile]) ->
case gen_tcp:listen(1389, [binary,
{packet, asn1},
{active, false},
{reuseaddr, true},
{nodelay, true},
{send_timeout, ?TCP_SEND_TIMEOUT},
{send_timeout_close, true},
{keepalive, true}]) of
{ok, ListenSocket} ->
case load_ldif(LDIFFile) of
{ok, Tree} ->
?INFO_MSG("LDIF tree loaded, "
"ready to accept connections", []),
{_Pid, MRef} =
spawn_monitor(
fun() -> accept(ListenSocket, Tree) end
),
{ok, #state{listener = MRef}};
{error, Reason} ->
{stop, Reason}
end;
{error, Reason} = Err ->
?ERROR_MSG("failed to fetch sockname: ~p", [Err]),
{stop, Reason}
end.
handle_call(_Request, _From, State) ->
Reply = ok,
{reply, Reply, State}.
handle_cast(_Msg, State) ->
{noreply, State}.
handle_info({'DOWN', MRef, _Type, _Object, Info},
#state{listener = MRef} = State) ->
?CRITICAL_MSG("listener died with reason ~p, terminating",
[Info]),
{stop, normal, State};
handle_info(_Info, State) ->
{noreply, State}.
terminate(_Reason, _State) ->
ok.
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%%===================================================================
%%% Internal functions
%%%===================================================================
accept(ListenSocket, Tree) ->
case gen_tcp:accept(ListenSocket) of
{ok, Socket} ->
spawn(fun() -> process(Socket, Tree) end),
accept(ListenSocket, Tree);
Err ->
?ERROR_MSG("failed to accept: ~p", [Err]),
Err
end.
process(Socket, Tree) ->
case gen_tcp:recv(Socket, 0) of
{ok, B} ->
case asn1rt:decode('ELDAPv3', 'LDAPMessage', B) of
{ok, Msg} ->
Replies = process_msg(Msg, Tree),
Id = Msg#'LDAPMessage'.messageID,
lists:foreach(
fun(ReplyOp) ->
Reply = #'LDAPMessage'{messageID = Id,
protocolOp = ReplyOp},
?DEBUG("sent:~n~p", [Reply]),
{ok, Bytes} = asn1rt:encode(
'ELDAPv3', 'LDAPMessage', Reply),
gen_tcp:send(Socket, Bytes)
end, Replies),
process(Socket, Tree);
Err ->
?ERROR_MSG("failed to decode msg: ~p", [Err]),
Err
end;
Err ->
Err
end.
process_msg(#'LDAPMessage'{protocolOp = Op} = Msg, TopTree) ->
?DEBUG("got:~n~p", [Msg]),
case Op of
{bindRequest,
#'BindRequest'{name = DN}} ->
ResCode = case find_obj(DN, TopTree) of
{ok, _} ->
success;
error ->
invalidCredentials
%%success
end,
[{bindResponse,
#'BindResponse'{resultCode = ResCode,
matchedDN = <<"">>,
errorMessage = <<"">>}}];
{searchRequest,
#'SearchRequest'{baseObject = DN,
scope = Scope,
filter = Filter,
attributes = Attrs}} ->
DNs = process_dn_filter(DN, Scope, Filter, TopTree),
Es = lists:map(
fun(D) ->
make_entry(D, TopTree, Attrs)
end, DNs),
Es ++ [{searchResDone,
#'LDAPResult'{resultCode = success,
matchedDN = <<"">>,
errorMessage = <<"">>}}];
{extendedReq, _} ->
[{extendedResp,
#'ExtendedResponse'{matchedDN = <<"">>,
errorMessage = <<"Not Implemented">>,
resultCode = operationsError}}];
_ ->
RespOp = case Op of
{modifyRequest, _} -> modifyResponse;
{addRequest, _} -> addResponse;
{delRequest, _} -> delResponse;
{modDNRequest, _} -> modDNResponse;
{compareRequest, _} -> compareResponse;
_ -> undefined
end,
case RespOp of
undefined ->
[];
_ ->
[{RespOp,
#'LDAPResult'{matchedDN = <<"">>,
errorMessage = <<"Not implemented">>,
resultCode = operationsError}}]
end
end.
make_entry(DN, Tree, Attrs) ->
KVs = case ets:lookup(Tree, {dn, DN}) of
[{_, _KVs}|_] ->
_KVs;
_ ->
[]
end,
NewKVs = if Attrs /= [], Attrs /= [<<"*">>] ->
lists:filter(
fun({A, _V}) ->
member(A, Attrs)
end, KVs);
true ->
KVs
end,
KVs1 = dict:to_list(
lists:foldl(
fun({A, V}, D) ->
dict:append(A, V, D)
end, dict:new(), NewKVs)),
{searchResEntry,
#'SearchResultEntry'{
objectName = str:join(DN, <<",">>),
attributes = [#'PartialAttributeList_SEQOF'{type = T, vals = V}
|| {T, V} <- KVs1]}}.
process_dn_filter(DN, Level, F, Tree) ->
DN1 = str:tokens(DN, <<",">>),
Fun = filter_to_fun(F),
filter(Fun, DN1, Tree, Level).
filter_to_fun({'and', Fs}) ->
fun(KVs) ->
lists:all(
fun(F) ->
(filter_to_fun(F))(KVs)
end, Fs)
end;
filter_to_fun({'or', Fs}) ->
fun(KVs) ->
lists:any(
fun(F) ->
(filter_to_fun(F))(KVs)
end, Fs)
end;
filter_to_fun({present, Attr}) ->
fun(KVs) -> present(Attr, KVs) end;
filter_to_fun({Tag, #'AttributeValueAssertion'{attributeDesc = Attr,
assertionValue = Val}})
when Tag == equalityMatch; Tag == greaterOrEqual;
Tag == lessOrEqual; Tag == approxMatch ->
fun(KVs) ->
apply(?MODULE, Tag, [Attr, Val, KVs])
end;
filter_to_fun({substrings,
#'SubstringFilter'{type = A, substrings = Ss}}) ->
Re = substrings_to_regexp(Ss),
fun(KVs) -> substrings(A, Re, KVs) end;
filter_to_fun({'not', F}) ->
fun(KVs) -> not (filter_to_fun(F))(KVs) end.
find_obj(DN, Tree) ->
case ets:lookup(Tree, {dn, str:tokens(DN, <<",">>)}) of
[{_, Obj}|_] ->
{ok, Obj};
[] ->
error
end.
present(A, R) ->
case keyfind(A, R) of
[] ->
false;
_ ->
true
end.
equalityMatch(A, V, R) ->
Vs = keyfind(A, R),
member(V, Vs).
lessOrEqual(A, V, R) ->
lists:any(
fun(X) ->
str:to_lower(X) =< str:to_lower(V)
end, keyfind(A, R)).
greaterOrEqual(A, V, R) ->
lists:any(
fun(X) ->
str:to_lower(X) >= str:to_lower(V)
end, keyfind(A, R)).
approxMatch(A, V, R) ->
equalityMatch(A, V, R).
substrings(A, Re, R) ->
lists:any(
fun(V) ->
case re:run(str:to_lower(V), Re) of
{match, _} ->
true;
_ ->
false
end
end, keyfind(A, R)).
substrings_to_regexp(Ss) ->
ReS = lists:map(
fun({initial, S}) ->
[S, <<".*">>];
({any, S}) ->
[<<".*">>, S, <<".*">>];
({final, S}) ->
[<<".*">>, S]
end, Ss),
ReS1 = str:to_lower(list_to_binary([$^, ReS, $$])),
{ok, Re} = re:compile(ReS1),
Re.
filter(F, BaseDN, Tree, Level) ->
KVs = case ets:lookup(Tree, {dn, BaseDN}) of
[{_, _KVs}|_] ->
_KVs;
[] ->
[]
end,
Rest = case Level of
baseObject ->
[];
_ ->
NewLevel = if Level /= wholeSubtree ->
baseObject;
true ->
Level
end,
lists:flatmap(
fun({_, D}) ->
NewDN = if BaseDN == [] ->
D;
true ->
[D|BaseDN]
end,
filter(F, NewDN, Tree, NewLevel)
end, ets:lookup(Tree, BaseDN))
end,
if BaseDN == [], Level /= baseObject ->
Rest;
true ->
case F(KVs) of
true ->
[BaseDN|Rest];
false ->
Rest
end
end.
keyfind(K, KVs) ->
keyfind(str:to_lower(K), KVs, []).
keyfind(K, [{K1, V}|T], Acc) ->
case str:to_lower(K1) of
K ->
keyfind(K, T, [V|Acc]);
_ ->
keyfind(K, T, Acc)
end;
keyfind(_, [], Acc) ->
Acc.
member(E, Es) ->
member1(str:to_lower(E), Es).
member1(E, [H|T]) ->
case str:to_lower(H) of
E ->
true;
_ ->
member1(E, T)
end;
member1(_, []) ->
false.
load_ldif(Path) ->
case file:open(Path, [read, binary]) of
{ok, Fd} ->
{ok, resort(format(read_lines(Fd, []), [], []))};
Err ->
?ERROR_MSG("failed to read LDIF file: ~p", [Err]),
Err
end.
read_lines(Fd, Acc) ->
case file:read_line(Fd) of
{ok, Str} ->
Line = process_line(str:strip(Str, right, $\n)),
read_lines(Fd, [Line|Acc]);
eof ->
Acc;
Err ->
Err
end.
process_line(<<C, _/binary>> = L) when C/=$ , C/=$\t, C/=$\n ->
case str:chr(L, $:) of
0 ->
<<>>;
Pos ->
NewPos = Pos - 1,
case L of
<<Val:NewPos/binary, $:, $:, Rest/binary>> ->
{Val, base64, str:strip(Rest, left, $ )};
<<Val:NewPos/binary, $:, Rest/binary>> ->
{Val, plain, str:strip(Rest, left, $ )}
end
end;
process_line([_|L]) ->
L;
process_line(_) ->
<<>>.
format([{Val, Type, L}|T], Ls, Acc) ->
Str1 = iolist_to_binary([L|Ls]),
Str2 = case Type of
plain -> Str1;
base64 -> base64:decode(Str1)
end,
format(T, [], [{Val, Str2}|Acc]);
format([<<"-">>|T], Ls, Acc) ->
format(T, Ls, Acc);
format([L|T], Ls, Acc) ->
format(T, [L|Ls], Acc);
format([], _, Acc) ->
lists:reverse(Acc).
resort(T) ->
resort(T, [], [], ets:new(ldap_tree, [named_table, public, bag])).
resort([{<<"dn">>, S}|T], Ls, DNs, Tree) ->
case proplists:get_value(<<"changetype">>, Ls, <<"add">>) of
<<"add">> ->
[H|Rest] = DN = str:tokens(S, <<",">>),
ets:insert(Tree, {{dn, DN}, Ls}),
ets:insert(Tree, {Rest, H}),
resort(T, [], [DN|DNs], Tree);
_ ->
resort(T, [], DNs, Tree)
end;
resort([AttrVal|T], Ls, DNs, Acc) ->
resort(T, [AttrVal|Ls], DNs, Acc);
resort([], _, DNs, Tree) ->
{_, TopDNs} = lists:foldl(
fun(D, {L, Acc}) ->
NewL = length(D),
if NewL < L ->
{NewL, [D]};
NewL == L ->
{L, [D|Acc]};
true ->
{L, Acc}
end
end, {unlimited, []}, DNs),
Attrs = lists:map(
fun(TopDN) ->
ets:insert(Tree, {[], TopDN}),
{<<"namingContexts">>, str:join(TopDN, <<",">>)}
end, TopDNs),
Attrs1 = [{<<"supportedLDAPVersion">>, <<"3">>},
{<<"objectClass">>, <<"top">>}|Attrs],
ets:insert(Tree, {{dn, []}, Attrs1}),
Tree.