-module(eldap).
%%% --------------------------------------------------------------------
%%% Created: 12 Oct 2000 by Tobbe <[email protected]>
%%% Function: Erlang client LDAP implementation according RFC 2251,2253
%%% and 2255. The interface is based on RFC 1823, and
%%% draft-ietf-asid-ldap-c-api-00.txt
%%%
%%% Copyright (c) 2010 Torbjorn Tornkvist
%%% Copyright Ericsson AB 2011-2013. All Rights Reserved.
%%% See MIT-LICENSE at the top dir for licensing information.
%%% --------------------------------------------------------------------
-vc('$Id$ ').
-export([open/1, open/2,
simple_bind/3, simple_bind/4,
controlling_process/2,
start_tls/2, start_tls/3, start_tls/4,
modify_password/3, modify_password/4, modify_password/5,
getopts/2,
baseObject/0,singleLevel/0,wholeSubtree/0,close/1,
equalityMatch/2,greaterOrEqual/2,lessOrEqual/2,
extensibleMatch/2,
search/2, search/3,
approxMatch/2,substrings/2,present/1,
'and'/1,'or'/1,'not'/1,mod_add/2, mod_delete/2,
mod_replace/2,
modify/3, modify/4,
add/3, add/4,
delete/2, delete/3,
modify_dn/5,parse_dn/1,
parse_ldap_url/1]).
-export([neverDerefAliases/0, derefInSearching/0,
derefFindingBaseObj/0, derefAlways/0]).
%% for upgrades
-export([loop/2]).
-import(lists,[concat/1]).
-include("ELDAPv3.hrl").
-include("eldap.hrl").
-define(LDAP_VERSION, 3).
-define(LDAP_PORT, 389).
-define(LDAPS_PORT, 636).
-record(eldap, {version = ?LDAP_VERSION,
host, % Host running LDAP server
port = ?LDAP_PORT, % The LDAP server port
fd, % Socket filedescriptor.
prev_fd, % Socket that was upgraded by start_tls
binddn = "", % Name of the entry to bind as
passwd, % Password for (above) entry
id = 0, % LDAP Request ID
log, % User provided log function
timeout = infinity, % Request timeout
anon_auth = false, % Allow anonymous authentication
ldaps = false, % LDAP/LDAPS
using_tls = false, % true if LDAPS or START_TLS executed
tls_opts = [], % ssl:ssloption()
tcp_opts = [] % inet6 support
}).
%%% For debug purposes
%%-define(PRINT(S, A), io:fwrite("~w(~w): " ++ S, [?MODULE,?LINE|A])).
-define(PRINT(S, A), true).
-define(elog(S, A), error_logger:info_msg("~w(~w): "++S,[?MODULE,?LINE|A])).
%%% ====================================================================
%%% Exported interface
%%% ====================================================================
%%% --------------------------------------------------------------------
%%% open(Hosts [,Opts] )
%%% --------------------
%%% Setup a connection to on of the Hosts in the argument
%%% list. Stop at the first successful connection attempt.
%%% Valid Opts are: Where:
%%%
%%% {port, Port} - Port is the port number
%%% {log, F} - F(LogLevel, FormatString, ListOfArgs)
%%% {timeout, milliSec} - Server request timeout
%%%
%%% --------------------------------------------------------------------
open(Hosts) ->
open(Hosts, []).
open(Hosts, Opts) when is_list(Hosts), is_list(Opts) ->
Self = self(),
Pid = spawn_link(fun() -> init(Hosts, Opts, Self) end),
recv(Pid).
%%% --------------------------------------------------------------------
%%% Upgrade an existing connection to tls
%%% --------------------------------------------------------------------
start_tls(Handle, TlsOptions) ->
start_tls(Handle, TlsOptions, infinity).
start_tls(Handle, TlsOptions, Timeout) ->
start_tls(Handle, TlsOptions, Timeout, asn1_NOVALUE).
start_tls(Handle, TlsOptions, Timeout, Controls) ->
send(Handle, {start_tls,TlsOptions,Timeout,Controls}),
recv(Handle).
%%% --------------------------------------------------------------------
%%% Modify the password of a user.
%%%
%%% Dn - Name of the entry to modify. If empty, the session user.
%%% NewPasswd - New password. If empty, the server returns a new password.
%%% OldPasswd - Original password for server verification, may be empty.
%%%
%%% Returns: ok | {ok, GenPasswd} | {error, term()}
%%% --------------------------------------------------------------------
modify_password(Handle, Dn, NewPasswd) ->
modify_password(Handle, Dn, NewPasswd, []).
modify_password(Handle, Dn, NewPasswd, OldPasswd)
when is_pid(Handle), is_list(Dn), is_list(NewPasswd), is_list(OldPasswd) ->
modify_password(Handle, Dn, NewPasswd, OldPasswd, asn1_NOVALUE).
modify_password(Handle, Dn, NewPasswd, OldPasswd, Controls)
when is_pid(Handle), is_list(Dn), is_list(NewPasswd), is_list(OldPasswd) ->
send(Handle, {passwd_modify,optional(Dn),optional(NewPasswd),optional(OldPasswd),Controls}),
recv(Handle).
%%% --------------------------------------------------------------------
%%% Ask for option values on the socket.
%%% Warning: This is an undocumented function for testing purposes only.
%%% Use at own risk...
%%% --------------------------------------------------------------------
getopts(Handle, OptNames) when is_pid(Handle), is_list(OptNames) ->
send(Handle, {getopts, OptNames}),
recv(Handle).
%%% --------------------------------------------------------------------
%%% Shutdown connection (and process) asynchronous.
%%% --------------------------------------------------------------------
close(Handle) when is_pid(Handle) ->
send(Handle, close),
ok.
%%% --------------------------------------------------------------------
%%% Set who we should link ourselves to
%%% --------------------------------------------------------------------
controlling_process(Handle, Pid) when is_pid(Handle), is_pid(Pid) ->
link(Pid),
send(Handle, {cnt_proc, Pid}),
recv(Handle).
%%% --------------------------------------------------------------------
%%% Authenticate ourselves to the Directory
%%% using simple authentication.
%%%
%%% Dn - The name of the entry to bind as
%%% Passwd - The password to be used
%%%
%%% Returns: ok | {error, Error}
%%% --------------------------------------------------------------------
simple_bind(Handle, Dn, Passwd) when is_pid(Handle) ->
simple_bind(Handle, Dn, Passwd, asn1_NOVALUE).
simple_bind(Handle, Dn, Passwd, Controls) when is_pid(Handle) ->
send(Handle, {simple_bind, Dn, Passwd, Controls}),
recv(Handle).
%%% --------------------------------------------------------------------
%%% Add an entry. The entry field MUST NOT exist for the AddRequest
%%% to succeed. The parent of the entry MUST exist.
%%% Example:
%%%
%%% add(Handle,
%%% "cn=Bill Valentine, ou=people, o=Bluetail AB, dc=bluetail, dc=com",
%%% [{"objectclass", ["person"]},
%%% {"cn", ["Bill Valentine"]},
%%% {"sn", ["Valentine"]},
%%% {"telephoneNumber", ["545 555 00"]}]
%%% )
%%% --------------------------------------------------------------------
add(Handle, Entry, Attributes) when is_pid(Handle),is_list(Entry),is_list(Attributes) ->
add(Handle, Entry, Attributes, asn1_NOVALUE).
add(Handle, Entry, Attributes, Controls) when is_pid(Handle),is_list(Entry),is_list(Attributes) ->
send(Handle, {add, Entry, add_attrs(Attributes), Controls}),
recv(Handle).
%%% Do sanity check !
add_attrs(Attrs) ->
F = fun({Type,Vals}) when is_list(Type),is_list(Vals) ->
%% Confused ? Me too... :-/
{'AddRequest_attributes',Type, Vals}
end,
case catch lists:map(F, Attrs) of
{'EXIT', _} -> throw({error, attribute_values});
Else -> Else
end.
%%% --------------------------------------------------------------------
%%% Delete an entry. The entry consists of the DN of
%%% the entry to be deleted.
%%% Example:
%%%
%%% delete(Handle,
%%% "cn=Bill Valentine, ou=people, o=Bluetail AB, dc=bluetail, dc=com"
%%% )
%%% --------------------------------------------------------------------
delete(Handle, Entry) when is_pid(Handle), is_list(Entry) ->
delete(Handle, Entry, asn1_NOVALUE).
delete(Handle, Entry, Controls) when is_pid(Handle), is_list(Entry) ->
send(Handle, {delete, Entry, Controls}),
recv(Handle).
%%% --------------------------------------------------------------------
%%% Modify an entry. Given an entry a number of modification
%%% operations can be performed as one atomic operation.
%%% Example:
%%%
%%% modify(Handle,
%%% "cn=Torbjorn Tornkvist, ou=people, o=Bluetail AB, dc=bluetail, dc=com",
%%% [mod_replace("telephoneNumber", ["555 555 00"]),
%%% mod_add("description", ["LDAP hacker"])]
%%% )
%%% --------------------------------------------------------------------
modify(Handle, Object, Mods) when is_pid(Handle), is_list(Object), is_list(Mods) ->
modify(Handle, Object, Mods, asn1_NOVALUE).
modify(Handle, Object, Mods, Controls) when is_pid(Handle), is_list(Object), is_list(Mods) ->
send(Handle, {modify, Object, Mods, Controls}),
recv(Handle).
%%%
%%% Modification operations.
%%% Example:
%%% mod_replace("telephoneNumber", ["555 555 00"])
%%%
mod_add(Type, Values) when is_list(Type), is_list(Values) -> m(add, Type, Values).
mod_delete(Type, Values) when is_list(Type), is_list(Values) -> m(delete, Type, Values).
mod_replace(Type, Values) when is_list(Type), is_list(Values) -> m(replace, Type, Values).
m(Operation, Type, Values) ->
#'ModifyRequest_changes_SEQOF'{
operation = Operation,
modification = #'PartialAttribute'{
type = Type,
vals = Values}}.
%%% --------------------------------------------------------------------
%%% Modify an entry. Given an entry a number of modification
%%% operations can be performed as one atomic operation.
%%% Example:
%%%
%%% modify_dn(Handle,
%%% "cn=Bill Valentine, ou=people, o=Bluetail AB, dc=bluetail, dc=com",
%%% "cn=Ben Emerson",
%%% true,
%%% ""
%%% )
%%% --------------------------------------------------------------------
modify_dn(Handle, Entry, NewRDN, DelOldRDN, NewSup)
when is_pid(Handle),is_list(Entry),is_list(NewRDN),is_atom(DelOldRDN),is_list(NewSup) ->
modify_dn(Handle, Entry, NewRDN, DelOldRDN, NewSup, asn1_NOVALUE).
modify_dn(Handle, Entry, NewRDN, DelOldRDN, NewSup, Controls)
when is_pid(Handle),is_list(Entry),is_list(NewRDN),is_atom(DelOldRDN),is_list(NewSup) ->
send(Handle, {modify_dn, Entry, NewRDN,
bool_p(DelOldRDN), optional(NewSup), Controls}),
recv(Handle).
%%% Sanity checks !
bool_p(Bool) when is_boolean(Bool) -> Bool.
optional([]) -> asn1_NOVALUE;
optional(Value) -> Value.
%%% --------------------------------------------------------------------
%%% Synchronous search of the Directory returning a
%%% requested set of attributes.
%%%
%%% Example:
%%%
%%% Filter = eldap:substrings("cn", [{any,"o"}]),
%%% eldap:search(S, [{base, "dc=bluetail, dc=com"},
%%% {filter, Filter},
%%% {attributes,["cn"]}])),
%%%
%%% Returned result: {ok, #eldap_search_result{}}
%%%
%%% Example:
%%%
%%% {ok,{eldap_search_result,
%%% [{eldap_entry,
%%% "cn=Magnus Froberg, dc=bluetail, dc=com",
%%% [{"cn",["Magnus Froberg"]}]},
%%% {eldap_entry,
%%% "cn=Torbjorn Tornkvist, dc=bluetail, dc=com",
%%% [{"cn",["Torbjorn Tornkvist"]}]}],
%%% []}}
%%%
%%% --------------------------------------------------------------------
search(Handle, X) when is_pid(Handle), is_record(X,eldap_search) ; is_list(X) ->
search(Handle, X, asn1_NOVALUE).
search(Handle, A, Controls) when is_pid(Handle), is_record(A, eldap_search) ->
call_search(Handle, A, Controls);
search(Handle, L, Controls) when is_pid(Handle), is_list(L) ->
case catch parse_search_args(L) of
{error, Emsg} -> {error, Emsg};
A when is_record(A, eldap_search) -> call_search(Handle, A, Controls)
end.
call_search(Handle, A, Controls) ->
send(Handle, {search, A, Controls}),
recv(Handle).
parse_search_args(Args) ->
parse_search_args(Args,
#eldap_search{scope = wholeSubtree,
deref = derefAlways}).
parse_search_args([{base, Base}|T],A) ->
parse_search_args(T,A#eldap_search{base = Base});
parse_search_args([{filter, Filter}|T],A) ->
parse_search_args(T,A#eldap_search{filter = Filter});
parse_search_args([{scope, Scope}|T],A) ->
parse_search_args(T,A#eldap_search{scope = Scope});
parse_search_args([{deref, Deref}|T],A) ->
parse_search_args(T,A#eldap_search{deref = Deref});
parse_search_args([{attributes, Attrs}|T],A) ->
parse_search_args(T,A#eldap_search{attributes = Attrs});
parse_search_args([{types_only, TypesOnly}|T],A) ->
parse_search_args(T,A#eldap_search{types_only = TypesOnly});
parse_search_args([{timeout, Timeout}|T],A) when is_integer(Timeout) ->
parse_search_args(T,A#eldap_search{timeout = Timeout});
parse_search_args([H|_],_) ->
throw({error,{unknown_arg, H}});
parse_search_args([],A) ->
A.
%%%
%%% The Scope parameter
%%%
baseObject() -> baseObject.
singleLevel() -> singleLevel.
wholeSubtree() -> wholeSubtree.
%%
%% The derefAliases parameter
%%
neverDerefAliases() -> neverDerefAliases.
derefInSearching() -> derefInSearching.
derefFindingBaseObj() -> derefFindingBaseObj.
derefAlways() -> derefAlways.
%%%
%%% Boolean filter operations
%%%
'and'(ListOfFilters) when is_list(ListOfFilters) -> {'and',ListOfFilters}.
'or'(ListOfFilters) when is_list(ListOfFilters) -> {'or', ListOfFilters}.
'not'(Filter) when is_tuple(Filter) -> {'not',Filter}.
%%%
%%% The following Filter parameters consist of an attribute
%%% and an attribute value. Example: F("uid","tobbe")
%%%
equalityMatch(Desc, Value) -> {equalityMatch, av_assert(Desc, Value)}.
greaterOrEqual(Desc, Value) -> {greaterOrEqual, av_assert(Desc, Value)}.
lessOrEqual(Desc, Value) -> {lessOrEqual, av_assert(Desc, Value)}.
approxMatch(Desc, Value) -> {approxMatch, av_assert(Desc, Value)}.
av_assert(Desc, Value) ->
#'AttributeValueAssertion'{attributeDesc = Desc,
assertionValue = Value}.
%%%
%%% Filter to check for the presence of an attribute
%%%
present(Attribute) when is_list(Attribute) ->
{present, Attribute}.
%%%
%%% A substring filter seem to be based on a pattern:
%%%
%%% InitValue*AnyValue*FinalValue
%%%
%%% where all three parts seem to be optional (at least when
%%% talking with an OpenLDAP server). Thus, the arguments
%%% to substrings/2 looks like this:
%%%
%%% Type ::= string( <attribute> )
%%% SubStr ::= listof( {initial,Value} | {any,Value}, {final,Value})
%%%
%%% Example: substrings("sn",[{initial,"To"},{any,"kv"},{final,"st"}])
%%% will match entries containing: 'sn: Tornkvist'
%%%
substrings(Type, SubStr) when is_list(Type), is_list(SubStr) ->
Ss = v_substr(SubStr),
{substrings,#'SubstringFilter'{type = Type,
substrings = Ss}}.
%%%
%%% Filter for extensibleMatch
%%%
extensibleMatch(MatchValue, OptArgs) ->
MatchingRuleAssertion =
mra(OptArgs, #'MatchingRuleAssertion'{matchValue = MatchValue}),
{extensibleMatch, MatchingRuleAssertion}.
mra([{matchingRule,Val}|T], Ack) when is_list(Val) ->
mra(T, Ack#'MatchingRuleAssertion'{matchingRule=Val});
mra([{type,Val}|T], Ack) when is_list(Val) ->
mra(T, Ack#'MatchingRuleAssertion'{type=Val});
mra([{dnAttributes,true}|T], Ack) ->
mra(T, Ack#'MatchingRuleAssertion'{dnAttributes="TRUE"});
mra([{dnAttributes,false}|T], Ack) ->
mra(T, Ack#'MatchingRuleAssertion'{dnAttributes="FALSE"});
mra([H|_], _) ->
throw({error,{extensibleMatch_arg,H}});
mra([], Ack) ->
Ack.
%%% --------------------------------------------------------------------
%%% Worker process. We keep track of a controlling process to
%%% be able to terminate together with it.
%%% --------------------------------------------------------------------
init(Hosts, Opts, Cpid) ->
Data = parse_args(Opts, Cpid, #eldap{}),
case try_connect(Hosts, Data) of
{ok,Data2} ->
send(Cpid, {ok,self()}),
?MODULE:loop(Cpid, Data2);
Else ->
send(Cpid, Else),
unlink(Cpid),
exit(Else)
end.
parse_args([{port, Port}|T], Cpid, Data) when is_integer(Port) ->
parse_args(T, Cpid, Data#eldap{port = Port});
parse_args([{timeout, Timeout}|T], Cpid, Data) when is_integer(Timeout),Timeout>0 ->
parse_args(T, Cpid, Data#eldap{timeout = Timeout});
parse_args([{anon_auth, true}|T], Cpid, Data) ->
parse_args(T, Cpid, Data#eldap{anon_auth = true});
parse_args([{anon_auth, _}|T], Cpid, Data) ->
parse_args(T, Cpid, Data);
parse_args([{ssl, true}|T], Cpid, Data) ->
parse_args(T, Cpid, Data#eldap{ldaps = true, using_tls=true});
parse_args([{ssl, _}|T], Cpid, Data) ->
parse_args(T, Cpid, Data);
parse_args([{sslopts, Opts}|T], Cpid, Data) when is_list(Opts) ->
parse_args(T, Cpid, Data#eldap{ldaps = true, using_tls=true, tls_opts = Opts ++ Data#eldap.tls_opts});
parse_args([{sslopts, _}|T], Cpid, Data) ->
parse_args(T, Cpid, Data);
parse_args([{tcpopts, Opts}|T], Cpid, Data) when is_list(Opts) ->
parse_args(T, Cpid, Data#eldap{tcp_opts = tcp_opts(Opts,Cpid,Data#eldap.tcp_opts)});
parse_args([{log, F}|T], Cpid, Data) when is_function(F) ->
parse_args(T, Cpid, Data#eldap{log = F});
parse_args([{log, _}|T], Cpid, Data) ->
parse_args(T, Cpid, Data);
parse_args([H|_], Cpid, _) ->
send(Cpid, {error,{wrong_option,H}}),
unlink(Cpid),
exit(wrong_option);
parse_args([], _, Data) ->
Data.
tcp_opts([Opt|Opts], Cpid, Acc) ->
Key = if is_atom(Opt) -> Opt;
is_tuple(Opt) -> element(1,Opt)
end,
case lists:member(Key,[active,binary,deliver,list,mode,packet]) of
false ->
tcp_opts(Opts, Cpid, [Opt|Acc]);
true ->
tcp_opts_error(Opt, Cpid)
end;
tcp_opts([], _Cpid, Acc) -> Acc.
tcp_opts_error(Opt, Cpid) ->
send(Cpid, {error, {{forbidden_tcp_option,Opt},
"This option affects the eldap functionality and can't be set by user"}}),
unlink(Cpid),
exit(forbidden_tcp_option).
%%% Try to connect to the hosts in the listed order,
%%% and stop with the first one to which a successful
%%% connection is made.
try_connect([Host|Hosts], Data) ->
TcpOpts = [{packet, asn1}, {active,false}],
try do_connect(Host, Data, TcpOpts) of
{ok,Fd} -> {ok,Data#eldap{host = Host, fd = Fd}};
Err ->
log2(Data, "Connect: ~p failed ~p~n",[Host, Err]),
try_connect(Hosts, Data)
catch _:Err ->
log2(Data, "Connect: ~p failed ~p~n",[Host, Err]),
try_connect(Hosts, Data)
end;
try_connect([],_) ->
{error,"connect failed"}.
do_connect(Host, Data, Opts) when Data#eldap.ldaps == false ->
gen_tcp:connect(Host, Data#eldap.port, Opts ++ Data#eldap.tcp_opts,
Data#eldap.timeout);
do_connect(Host, Data, Opts) when Data#eldap.ldaps == true ->
ssl:connect(Host, Data#eldap.port,
Opts ++ Data#eldap.tls_opts ++ Data#eldap.tcp_opts,
Data#eldap.timeout).
loop(Cpid, Data) ->
receive
{From, {search, A, Controls}} ->
{Res,NewData} = do_search(Data, A, Controls),
send(From,Res),
?MODULE:loop(Cpid, NewData);
{From, {modify, Obj, Mod, Controls}} ->
{Res,NewData} = do_modify(Data, Obj, Mod, Controls),
send(From,Res),
?MODULE:loop(Cpid, NewData);
{From, {modify_dn, Obj, NewRDN, DelOldRDN, NewSup, Controls}} ->
{Res,NewData} = do_modify_dn(Data, Obj, NewRDN, DelOldRDN, NewSup, Controls),
send(From,Res),
?MODULE:loop(Cpid, NewData);
{From, {add, Entry, Attrs, Controls}} ->
{Res,NewData} = do_add(Data, Entry, Attrs, Controls),
send(From,Res),
?MODULE:loop(Cpid, NewData);
{From, {delete, Entry, Controls}} ->
{Res,NewData} = do_delete(Data, Entry, Controls),
send(From,Res),
?MODULE:loop(Cpid, NewData);
{From, {simple_bind, Dn, Passwd, Controls}} ->
{Res,NewData} = do_simple_bind(Data, Dn, Passwd, Controls),
send(From,Res),
?MODULE:loop(Cpid, NewData);
{From, {cnt_proc, NewCpid}} ->
unlink(Cpid),
send(From,ok),
?PRINT("New Cpid is: ~p~n",[NewCpid]),
?MODULE:loop(NewCpid, Data);
{From, {start_tls,TlsOptions,Timeout,Controls}} ->
{Res,NewData} = do_start_tls(Data, TlsOptions, Timeout, Controls),
send(From,Res),
?MODULE:loop(Cpid, NewData);
{From, {passwd_modify,Dn,NewPasswd,OldPasswd,Controls}} ->
{Res,NewData} = do_passwd_modify(Data, Dn, NewPasswd, OldPasswd, Controls),
send(From, Res),
?MODULE:loop(Cpid, NewData);
{_From, close} ->
% Ignore tcp error if connection is already closed.
try do_unbind(Data) of
{no_reply,_NewData} -> ok
catch
throw:{gen_tcp_error, _TcpErr} -> ok
end,
unlink(Cpid),
exit(closed);
{From, {getopts, OptNames}} ->
Result =
try
[case OptName of
port -> {port, Data#eldap.port};
log -> {log, Data#eldap.log};
timeout -> {timeout, Data#eldap.timeout};
ssl -> {ssl, Data#eldap.ldaps};
{sslopts, SslOptNames} when Data#eldap.using_tls==true ->
case ssl:getopts(Data#eldap.fd, SslOptNames) of
{ok,SslOptVals} -> {sslopts, SslOptVals};
{error,Reason} -> throw({error,Reason})
end;
{sslopts, _} ->
throw({error,no_tls});
{tcpopts, TcpOptNames} ->
case inet:getopts(Data#eldap.fd, TcpOptNames) of
{ok,TcpOptVals} -> {tcpopts, TcpOptVals};
{error,Posix} -> throw({error,Posix})
end
end || OptName <- OptNames]
of
OptsList -> {ok,OptsList}
catch
throw:Error -> Error;
Class:Error -> {error,{Class,Error}}
end,
send(From, Result),
?MODULE:loop(Cpid, Data);
{Cpid, 'EXIT', Reason} ->
?PRINT("Got EXIT from Cpid, reason=~p~n",[Reason]),
exit(Reason);
_XX ->
?PRINT("loop got: ~p~n",[_XX]),
?MODULE:loop(Cpid, Data)
end.
%%% --------------------------------------------------------------------
%%% startTLS Request
%%% --------------------------------------------------------------------
do_start_tls(Data=#eldap{using_tls=true}, _, _, _) ->
{{error,tls_already_started}, Data};
do_start_tls(Data=#eldap{fd=FD} , TlsOptions, Timeout, Controls) ->
case catch exec_start_tls(Data, Controls) of
{ok,NewData} ->
case ssl:connect(FD,TlsOptions,Timeout) of
{ok, SslSocket} ->
{ok, NewData#eldap{prev_fd = FD,
fd = SslSocket,
using_tls = true
}};
{error,Error} ->
{{error,Error}, Data}
end;
{{ok,Val},NewData} -> {{ok,Val},NewData};
{error,Error} -> {{error,Error},Data};
Else -> {{error,Else},Data}
end.
-define(START_TLS_OID, "1.3.6.1.4.1.1466.20037").
exec_start_tls(Data, Controls) ->
Req = #'ExtendedRequest'{requestName = ?START_TLS_OID},
Reply = request(Data#eldap.fd, Data, Data#eldap.id, {extendedReq, Req, Controls}),
exec_extended_req_reply(Data, Reply).
exec_extended_req_reply(Data, {ok,Msg}) when
Msg#'LDAPMessage'.messageID == Data#eldap.id ->
case Msg#'LDAPMessage'.protocolOp of
{extendedResp, Result} ->
case Result#'ExtendedResponse'.resultCode of
success ->
{ok,Data};
referral ->
{{ok, {referral,Result#'ExtendedResponse'.referral}}, Data};
Error ->
{error, {response,Error}}
end;
Other -> {error, Other}
end;
exec_extended_req_reply(_, Error) ->
{error, Error}.
%%% --------------------------------------------------------------------
%%% bindRequest
%%% --------------------------------------------------------------------
%%% Authenticate ourselves to the directory using
%%% simple authentication.
do_simple_bind(Data, anon, anon, Controls) -> %% For testing
do_the_simple_bind(Data, "", "", Controls);
do_simple_bind(Data, Dn, _Passwd,_) when Dn=="",Data#eldap.anon_auth==false ->
{{error,anonymous_auth},Data};
do_simple_bind(Data, _Dn, Passwd,_) when Passwd=="",Data#eldap.anon_auth==false ->
{{error,anonymous_auth},Data};
do_simple_bind(Data, Dn, Passwd, Controls) ->
do_the_simple_bind(Data, Dn, Passwd, Controls).
do_the_simple_bind(Data, Dn, Passwd, Controls) ->
case catch exec_simple_bind(Data#eldap{binddn = Dn,
passwd = Passwd,
id = bump_id(Data)},
Controls) of
{ok,NewData} -> {ok,NewData};
{{ok,Val},NewData} -> {{ok,Val},NewData};
{error,Emsg} -> {{error,Emsg},Data};
Else -> {{error,Else},Data}
end.
exec_simple_bind(Data, Controls) ->
Req = #'BindRequest'{version = Data#eldap.version,
name = Data#eldap.binddn,
authentication = {simple, Data#eldap.passwd}},
log2(Data, "bind request = ~p~n", [Req]),
Reply = request(Data#eldap.fd, Data, Data#eldap.id, {bindRequest, Req, Controls}),
log2(Data, "bind reply = ~p~n", [Reply]),
exec_simple_bind_reply(Data, Reply).
exec_simple_bind_reply(Data, {ok,Msg}) when
Msg#'LDAPMessage'.messageID == Data#eldap.id ->
case Msg#'LDAPMessage'.protocolOp of
{bindResponse, Result} ->
case Result#'BindResponse'.resultCode of
success -> {ok,Data};
referral -> {{ok, {referral,Result#'BindResponse'.referral}}, Data};
Error -> {error, Error}
end;
Other -> {error, Other}
end;
exec_simple_bind_reply(_, Error) ->
{error, Error}.
%%% --------------------------------------------------------------------
%%% searchRequest
%%% --------------------------------------------------------------------
do_search(Data, A, Controls) ->
case catch do_search_0(Data, A, Controls) of
{error,Emsg} -> {ldap_closed_p(Data, Emsg),Data};
{'EXIT',Error} -> {ldap_closed_p(Data, Error),Data};
{{ok,Val},NewData} -> {{ok,Val},NewData};
{ok,Res,Ref,NewData} -> {{ok,polish(Res, Ref)},NewData};
{{error,Reason},NewData} -> {{error,Reason},NewData};
Else -> {ldap_closed_p(Data, Else),Data}
end.
%%%
%%% Polish the returned search result
%%%
polish(Res, Ref) ->
R = polish_result(Res),
%%% No special treatment of referrals at the moment.
#eldap_search_result{entries = R,
referrals = Ref}.
polish_result([H|T]) when is_record(H, 'SearchResultEntry') ->
ObjectName = H#'SearchResultEntry'.objectName,
F = fun({_,A,V}) -> {A,V} end,
Attrs = lists:map(F, H#'SearchResultEntry'.attributes),
[#eldap_entry{object_name = ObjectName,
attributes = Attrs}|
polish_result(T)];
polish_result([]) ->
[].
do_search_0(Data, A, Controls) ->
Req = #'SearchRequest'{baseObject = A#eldap_search.base,
scope = v_scope(A#eldap_search.scope),
derefAliases = v_deref(A#eldap_search.deref),
sizeLimit = 0, % no size limit
timeLimit = v_timeout(A#eldap_search.timeout),
typesOnly = v_bool(A#eldap_search.types_only),
filter = v_filter(A#eldap_search.filter),
attributes = v_attributes(A#eldap_search.attributes)
},
Id = bump_id(Data),
collect_search_responses(Data#eldap{id=Id}, Req, Id, Controls).
%%% The returned answers cames in one packet per entry
%%% mixed with possible referals
collect_search_responses(Data, Req, ID, Controls) ->
S = Data#eldap.fd,
log2(Data, "search request = ~p~n", [Req]),
send_request(S, Data, ID, {searchRequest, Req, Controls}),
Resp = recv_response(S, Data),
log2(Data, "search reply = ~p~n", [Resp]),
collect_search_responses(Data, S, ID, Resp, [], []).
collect_search_responses(Data, S, ID, {ok,Msg}, Acc, Ref)
when is_record(Msg,'LDAPMessage') ->
case Msg#'LDAPMessage'.protocolOp of
{'searchResDone',R} ->
case R#'LDAPResult'.resultCode of
success ->
log2(Data, "search reply = searchResDone ~n", []),
{ok,Acc,Ref,Data};
referral ->
{{ok, {referral,R#'LDAPResult'.referral}}, Data};
Reason ->
{{error,Reason},Data}
end;
{'searchResEntry',R} when is_record(R,'SearchResultEntry') ->
Resp = recv_response(S, Data),
log2(Data, "search reply = ~p~n", [Resp]),
collect_search_responses(Data, S, ID, Resp, [R|Acc], Ref);
{'searchResRef',R} ->
%% At the moment we don't do anyting sensible here since
%% I haven't been able to trigger the server to generate
%% a response like this.
Resp = recv_response(S, Data),
log2(Data, "search reply = ~p~n", [Resp]),
collect_search_responses(Data, S, ID, Resp, Acc, [R|Ref]);
Else ->
throw({error,Else})
end;
collect_search_responses(_, _, _, Else, _, _) ->
throw({error,Else}).
%%% --------------------------------------------------------------------
%%% addRequest
%%% --------------------------------------------------------------------
do_add(Data, Entry, Attrs, Controls) ->
case catch do_add_0(Data, Entry, Attrs, Controls) of
{error,Emsg} -> {ldap_closed_p(Data, Emsg),Data};
{'EXIT',Error} -> {ldap_closed_p(Data, Error),Data};
{ok,NewData} -> {ok,NewData};
{{ok,Val},NewData} -> {{ok,Val},NewData};
Else -> {ldap_closed_p(Data, Else),Data}
end.
do_add_0(Data, Entry, Attrs, Controls) ->
Req = #'AddRequest'{entry = Entry,
attributes = Attrs},
S = Data#eldap.fd,
Id = bump_id(Data),
log2(Data, "add request = ~p~n", [Req]),
Resp = request(S, Data, Id, {addRequest, Req, Controls}),
log2(Data, "add reply = ~p~n", [Resp]),
check_reply(Data#eldap{id = Id}, Resp, addResponse).
%%% --------------------------------------------------------------------
%%% deleteRequest
%%% --------------------------------------------------------------------
do_delete(Data, Entry, Controls) ->
case catch do_delete_0(Data, Entry, Controls) of
{error,Emsg} -> {ldap_closed_p(Data, Emsg),Data};
{'EXIT',Error} -> {ldap_closed_p(Data, Error),Data};
{ok,NewData} -> {ok,NewData};
{{ok,Val},NewData} -> {{ok,Val},NewData};
Else -> {ldap_closed_p(Data, Else),Data}
end.
do_delete_0(Data, Entry, Controls) ->
S = Data#eldap.fd,
Id = bump_id(Data),
log2(Data, "del request = ~p~n", [Entry]),
Resp = request(S, Data, Id, {delRequest, Entry, Controls}),
log2(Data, "del reply = ~p~n", [Resp]),
check_reply(Data#eldap{id = Id}, Resp, delResponse).
%%% --------------------------------------------------------------------
%%% modifyRequest
%%% --------------------------------------------------------------------
do_modify(Data, Obj, Mod, Controls) ->
case catch do_modify_0(Data, Obj, Mod, Controls) of
{error,Emsg} -> {ldap_closed_p(Data, Emsg),Data};
{'EXIT',Error} -> {ldap_closed_p(Data, Error),Data};
{ok,NewData} -> {ok,NewData};
{{ok,Val},NewData} -> {{ok,Val},NewData};
Else -> {ldap_closed_p(Data, Else),Data}
end.
do_modify_0(Data, Obj, Mod, Controls) ->
v_modifications(Mod),
Req = #'ModifyRequest'{object = Obj,
changes = Mod},
S = Data#eldap.fd,
Id = bump_id(Data),
log2(Data, "modify request = ~p~n", [Req]),
Resp = request(S, Data, Id, {modifyRequest, Req, Controls}),
log2(Data, "modify reply = ~p~n", [Resp]),
check_reply(Data#eldap{id = Id}, Resp, modifyResponse).
%%% --------------------------------------------------------------------
%%% PasswdModifyRequest
%%% --------------------------------------------------------------------
-define(PASSWD_MODIFY_OID, "1.3.6.1.4.1.4203.1.11.1").
do_passwd_modify(Data, Dn, NewPasswd, OldPasswd, Controls) ->
case catch do_passwd_modify_0(Data, Dn, NewPasswd, OldPasswd, Controls) of
{error,Emsg} -> {ldap_closed_p(Data, Emsg),Data};
{'EXIT',Error} -> {ldap_closed_p(Data, Error),Data};
{ok,NewData} -> {ok,NewData};
{{ok,Val},NewData} -> {{ok,Val},NewData};
{ok,Passwd,NewData} -> {{ok, Passwd},NewData};
Else -> {ldap_closed_p(Data, Else),Data}
end.
do_passwd_modify_0(Data, Dn, NewPasswd, OldPasswd, Controls) ->
Req = #'PasswdModifyRequestValue'{userIdentity = Dn,
oldPasswd = OldPasswd,
newPasswd = NewPasswd},
log2(Data, "modify password request = ~p~n", [Req]),
{ok, Bytes} = 'ELDAPv3':encode('PasswdModifyRequestValue', Req),
ExtReq = #'ExtendedRequest'{requestName = ?PASSWD_MODIFY_OID,
requestValue = Bytes},
Id = bump_id(Data),
log2(Data, "extended request = ~p~n", [ExtReq]),
Reply = request(Data#eldap.fd, Data, Id, {extendedReq, ExtReq, Controls}),
log2(Data, "modify password reply = ~p~n", [Reply]),
exec_passwd_modify_reply(Data#eldap{id = Id}, Reply).
exec_passwd_modify_reply(Data, {ok,Msg}) when
Msg#'LDAPMessage'.messageID == Data#eldap.id ->
case Msg#'LDAPMessage'.protocolOp of
{extendedResp, Result} ->
case Result#'ExtendedResponse'.resultCode of
success ->
case Result#'ExtendedResponse'.responseValue of
asn1_NOVALUE ->
{ok, Data};
Value ->
case 'ELDAPv3':decode('PasswdModifyResponseValue', Value) of
{ok,#'PasswdModifyResponseValue'{genPasswd = Passwd}} ->
{ok, Passwd, Data};
Error ->
throw(Error)
end
end;
referral ->
{{ok, {referral,Result#'ExtendedResponse'.referral}}, Data};
Error ->
{error, {response,Error}}
end;
Other -> {error, Other}
end;
exec_passwd_modify_reply(_, Error) ->
{error, Error}.
%%% --------------------------------------------------------------------
%%% modifyDNRequest
%%% --------------------------------------------------------------------
do_modify_dn(Data, Entry, NewRDN, DelOldRDN, NewSup, Controls) ->
case catch do_modify_dn_0(Data, Entry, NewRDN, DelOldRDN, NewSup, Controls) of
{error,Emsg} -> {ldap_closed_p(Data, Emsg),Data};
{'EXIT',Error} -> {ldap_closed_p(Data, Error),Data};
{ok,NewData} -> {ok,NewData};
{{ok,Val},NewData} -> {{ok,Val},NewData};
Else -> {ldap_closed_p(Data, Else),Data}
end.
do_modify_dn_0(Data, Entry, NewRDN, DelOldRDN, NewSup, Controls) ->
Req = #'ModifyDNRequest'{entry = Entry,
newrdn = NewRDN,
deleteoldrdn = DelOldRDN,
newSuperior = NewSup},
S = Data#eldap.fd,
Id = bump_id(Data),
log2(Data, "modify DN request = ~p~n", [Req]),
Resp = request(S, Data, Id, {modDNRequest, Req, Controls}),
log2(Data, "modify DN reply = ~p~n", [Resp]),
check_reply(Data#eldap{id = Id}, Resp, modDNResponse).
%%%--------------------------------------------------------------------
%%% unbindRequest
%%%--------------------------------------------------------------------
do_unbind(Data) ->
Req = "",
log2(Data, "unbind request = ~p (has no reply)~n", [Req]),
send_request(Data#eldap.fd, Data, Data#eldap.id, {unbindRequest, Req}),
case Data#eldap.using_tls of
true -> ssl:close(Data#eldap.fd);
false -> gen_tcp:close(Data#eldap.fd)
end,
{no_reply, Data#eldap{binddn = (#eldap{})#eldap.binddn,
passwd = (#eldap{})#eldap.passwd,
fd = (#eldap{})#eldap.fd,
using_tls = false
}}.
%%% --------------------------------------------------------------------
%%% Send an LDAP request and receive the answer
%%% --------------------------------------------------------------------
request(S, Data, ID, Request) ->
send_request(S, Data, ID, Request),
recv_response(S, Data).
send_request(S, Data, Id, {T,P}) ->
send_the_LDAPMessage(S, Data, #'LDAPMessage'{messageID = Id,
protocolOp = {T,P}});
send_request(S, Data, Id, {T,P,asn1_NOVALUE}) ->
send_the_LDAPMessage(S, Data, #'LDAPMessage'{messageID = Id,
protocolOp = {T,P}});
send_request(S, Data, Id, {T,P,Controls0}) ->
Controls = [#'Control'{controlType=F1,
criticality=F2,
controlValue=F3} || {control,F1,F2,F3} <- Controls0],
send_the_LDAPMessage(S, Data, #'LDAPMessage'{messageID = Id,
protocolOp = {T,P},
controls = Controls}).
send_the_LDAPMessage(S, Data, LDAPMessage) ->
{ok,Bytes} = 'ELDAPv3':encode('LDAPMessage', LDAPMessage),
case do_send(S, Data, Bytes) of
{error,Reason} -> throw({gen_tcp_error,Reason});
Else -> Else
end.
do_send(S, Data, Bytes) when Data#eldap.using_tls == false ->
gen_tcp:send(S, Bytes);
do_send(S, Data, Bytes) when Data#eldap.using_tls == true ->
ssl:send(S, Bytes).
do_recv(S, #eldap{using_tls=false, timeout=Timeout}, Len) ->
gen_tcp:recv(S, Len, Timeout);
do_recv(S, #eldap{using_tls=true, timeout=Timeout}, Len) ->
ssl:recv(S, Len, Timeout).
recv_response(S, Data) ->
case do_recv(S, Data, 0) of
{ok, Packet} ->
case 'ELDAPv3':decode('LDAPMessage', Packet) of
{ok,Resp} -> {ok,Resp};
Error -> throw(Error)
end;
{error,Reason} ->
throw({gen_tcp_error, Reason})
end.
%%% Check for expected kind of reply
check_reply(Data, {ok,Msg}, Op) when
Msg#'LDAPMessage'.messageID == Data#eldap.id ->
case Msg#'LDAPMessage'.protocolOp of
{Op, Result} ->
case Result#'LDAPResult'.resultCode of
success -> {ok,Data};
referral -> {{ok, {referral,Result#'LDAPResult'.referral}}, Data};
Error -> {error, Error}
end;
Other -> {error, Other}
end;
check_reply(_, Error, _) ->
{error, Error}.
%%% --------------------------------------------------------------------
%%% Verify the input data
%%% --------------------------------------------------------------------
v_filter({'and',L}) -> {'and',L};
v_filter({'or', L}) -> {'or',L};
v_filter({'not',L}) -> {'not',L};
v_filter({equalityMatch,AV}) -> {equalityMatch,AV};
v_filter({greaterOrEqual,AV}) -> {greaterOrEqual,AV};
v_filter({lessOrEqual,AV}) -> {lessOrEqual,AV};
v_filter({approxMatch,AV}) -> {approxMatch,AV};
v_filter({present,A}) -> {present,A};
v_filter({substrings,S}) when is_record(S,'SubstringFilter') -> {substrings,S};
v_filter({extensibleMatch,S}) when is_record(S,'MatchingRuleAssertion') -> {extensibleMatch,S};
v_filter(_Filter) -> throw({error,concat(["unknown filter: ",_Filter])}).
v_modifications(Mods) ->
F = fun({_,Op,_}) ->
case lists:member(Op,[add,delete,replace]) of
true -> true;
_ -> throw({error,{mod_operation,Op}})
end
end,
lists:foreach(F, Mods).
v_substr([{Key,Str}|T]) when is_list(Str),Key==initial;Key==any;Key==final ->
[{Key,Str}|v_substr(T)];
v_substr([H|_]) ->
throw({error,{substring_arg,H}});
v_substr([]) ->
[].
v_scope(baseObject) -> baseObject;
v_scope(singleLevel) -> singleLevel;
v_scope(wholeSubtree) -> wholeSubtree;
v_scope(_Scope) -> throw({error,concat(["unknown scope: ",_Scope])}).
v_deref(DR = neverDerefAliases) -> DR;
v_deref(DR = derefInSearching) -> DR;
v_deref(DR = derefFindingBaseObj) -> DR;
v_deref(DR = derefAlways ) -> DR.
v_bool(true) -> true;
v_bool(false) -> false;
v_bool(_Bool) -> throw({error,concat(["not Boolean: ",_Bool])}).
v_timeout(I) when is_integer(I), I>=0 -> I;
v_timeout(_I) -> throw({error,concat(["timeout not positive integer: ",_I])}).
v_attributes(Attrs) ->
F = fun(A) when is_list(A) -> A;
(A) -> throw({error,concat(["attribute not String: ",A])})
end,
lists:map(F,Attrs).
%%% --------------------------------------------------------------------
%%% Log routines. Call a user provided log routine F.
%%% --------------------------------------------------------------------
%log1(Data, Str, Args) -> log(Data, Str, Args, 1).
log2(Data, Str, Args) -> log(Data, Str, Args, 2).
log(Data, Str, Args, Level) when is_function(Data#eldap.log) ->
catch (Data#eldap.log)(Level, Str, Args);
log(_, _, _, _) ->
ok.
%%% --------------------------------------------------------------------
%%% Misc. routines
%%% --------------------------------------------------------------------
send(To,Msg) ->
To ! {self(), Msg},
ok.
recv(From) ->
receive
{From, Msg} -> Msg;
{'EXIT', From, Reason} ->
{error, {internal_error, Reason}}
end.
ldap_closed_p(Data, Emsg) when Data#eldap.using_tls == true ->
%% Check if the SSL socket seems to be alive or not
case catch ssl:sockname(Data#eldap.fd) of
{error, _} ->
ssl:close(Data#eldap.fd),
{error, ldap_closed};
{ok, _} ->
{error, Emsg};
_ ->
%% sockname crashes if the socket pid is not alive
{error, ldap_closed}
end;
ldap_closed_p(Data, Emsg) ->
%% non-SSL socket
case inet:port(Data#eldap.fd) of
{error,_} -> {error, ldap_closed};
_ -> {error,Emsg}
end.
bump_id(Data) -> Data#eldap.id + 1.
%%% --------------------------------------------------------------------
%%% parse_dn/1 - Implementation of RFC 2253:
%%%
%%% "UTF-8 String Representation of Distinguished Names"
%%%
%%% Test cases:
%%%
%%% The simplest case:
%%%
%%% 1> eldap:parse_dn("CN=Steve Kille,O=Isode Limited,C=GB").
%%% {ok,[[{attribute_type_and_value,"CN","Steve Kille"}],
%%% [{attribute_type_and_value,"O","Isode Limited"}],
%%% [{attribute_type_and_value,"C","GB"}]]}
%%%
%%% The first RDN is multi-valued:
%%%
%%% 2> eldap:parse_dn("OU=Sales+CN=J. Smith,O=Widget Inc.,C=US").
%%% {ok,[[{attribute_type_and_value,"OU","Sales"},
%%% {attribute_type_and_value,"CN","J. Smith"}],
%%% [{attribute_type_and_value,"O","Widget Inc."}],
%%% [{attribute_type_and_value,"C","US"}]]}
%%%
%%% Quoting a comma:
%%%
%%% 3> eldap:parse_dn("CN=L. Eagle,O=Sue\\, Grabbit and Runn,C=GB").
%%% {ok,[[{attribute_type_and_value,"CN","L. Eagle"}],
%%% [{attribute_type_and_value,"O","Sue\\, Grabbit and Runn"}],
%%% [{attribute_type_and_value,"C","GB"}]]}
%%%
%%% A value contains a carriage return:
%%%
%%% 4> eldap:parse_dn("CN=Before
%%% 4> After,O=Test,C=GB").
%%% {ok,[[{attribute_type_and_value,"CN","Before\nAfter"}],
%%% [{attribute_type_and_value,"O","Test"}],
%%% [{attribute_type_and_value,"C","GB"}]]}
%%%
%%% 5> eldap:parse_dn("CN=Before\\0DAfter,O=Test,C=GB").
%%% {ok,[[{attribute_type_and_value,"CN","Before\\0DAfter"}],
%%% [{attribute_type_and_value,"O","Test"}],
%%% [{attribute_type_and_value,"C","GB"}]]}
%%%
%%% An RDN in OID form:
%%%
%%% 6> eldap:parse_dn("1.3.6.1.4.1.1466.0=#04024869,O=Test,C=GB").
%%% {ok,[[{attribute_type_and_value,"1.3.6.1.4.1.1466.0","#04024869"}],
%%% [{attribute_type_and_value,"O","Test"}],
%%% [{attribute_type_and_value,"C","GB"}]]}
%%%
%%%
%%% --------------------------------------------------------------------
parse_dn("") -> % empty DN string
{ok,[]};
parse_dn([H|_] = Str) when H=/=$, -> % 1:st name-component !
case catch parse_name(Str,[]) of
{'EXIT',Reason} -> {parse_error,internal_error,Reason};
Else -> Else
end.
parse_name("",Acc) ->
{ok,lists:reverse(Acc)};
parse_name([$,|T],Acc) -> % N:th name-component !
parse_name(T,Acc);
parse_name(Str,Acc) ->
{Rest,NameComponent} = parse_name_component(Str),
parse_name(Rest,[NameComponent|Acc]).
parse_name_component(Str) ->
parse_name_component(Str,[]).
parse_name_component(Str,Acc) ->
case parse_attribute_type_and_value(Str) of
{[$+|Rest], ATV} ->
parse_name_component(Rest,[ATV|Acc]);
{Rest,ATV} ->
{Rest,lists:reverse([ATV|Acc])}
end.
parse_attribute_type_and_value(Str) ->
case parse_attribute_type(Str) of
{_Rest,[]} ->
parse_error(expecting_attribute_type,Str);
{Rest,Type} ->
Rest2 = parse_equal_sign(Rest),
{Rest3,Value} = parse_attribute_value(Rest2),
{Rest3,{attribute_type_and_value,Type,Value}}
end.
-define(IS_ALPHA(X) , X>=$a,X=<$z;X>=$A,X=<$Z ).
-define(IS_DIGIT(X) , X>=$0,X=<$9 ).
-define(IS_SPECIAL(X) , X==$,;X==$=;X==$+;X==$<;X==$>;X==$#;X==$; ).
-define(IS_QUOTECHAR(X) , X=/=$\\,X=/=$" ).
-define(IS_STRINGCHAR(X) ,
X=/=$,,X=/=$=,X=/=$+,X=/=$<,X=/=$>,X=/=$#,X=/=$;,?IS_QUOTECHAR(X) ).
-define(IS_HEXCHAR(X) , ?IS_DIGIT(X);X>=$a,X=<$f;X>=$A,X=<$F ).
parse_attribute_type([H|T]) when ?IS_ALPHA(H) ->
%% NB: It must be an error in the RFC in the definition
%% of 'attributeType', should be: (ALPHA *keychar)
{Rest,KeyChars} = parse_keychars(T),
{Rest,[H|KeyChars]};
parse_attribute_type([H|_] = Str) when ?IS_DIGIT(H) ->
parse_oid(Str);
parse_attribute_type(Str) ->
parse_error(invalid_attribute_type,Str).
%%% Is a hexstring !
parse_attribute_value([$#,X,Y|T]) when ?IS_HEXCHAR(X),?IS_HEXCHAR(Y) ->
{Rest,HexString} = parse_hexstring(T),
{Rest,[$#,X,Y|HexString]};
%%% Is a "quotation-sequence" !
parse_attribute_value([$"|T]) ->
{Rest,Quotation} = parse_quotation(T),
{Rest,[$"|Quotation]};
%%% Is a stringchar , pair or Empty !
parse_attribute_value(Str) ->
parse_string(Str).
parse_hexstring(Str) ->
parse_hexstring(Str,[]).
parse_hexstring([X,Y|T],Acc) when ?IS_HEXCHAR(X),?IS_HEXCHAR(Y) ->
parse_hexstring(T,[Y,X|Acc]);
parse_hexstring(T,Acc) ->
{T,lists:reverse(Acc)}.
parse_quotation([$"|T]) -> % an empty: "" is ok !
{T,[$"]};
parse_quotation(Str) ->
parse_quotation(Str,[]).
%%% Parse to end of quotation
parse_quotation([$"|T],Acc) ->
{T,lists:reverse([$"|Acc])};
parse_quotation([X|T],Acc) when ?IS_QUOTECHAR(X) ->
parse_quotation(T,[X|Acc]);
parse_quotation([$\\,X|T],Acc) when ?IS_SPECIAL(X) ->
parse_quotation(T,[X,$\\|Acc]);
parse_quotation([$\\,$\\|T],Acc) ->
parse_quotation(T,[$\\,$\\|Acc]);
parse_quotation([$\\,$"|T],Acc) ->
parse_quotation(T,[$",$\\|Acc]);
parse_quotation([$\\,X,Y|T],Acc) when ?IS_HEXCHAR(X),?IS_HEXCHAR(Y) ->
parse_quotation(T,[Y,X,$\\|Acc]);
parse_quotation(T,_) ->
parse_error(expecting_double_quote_mark,T).
parse_string(Str) ->
parse_string(Str,[]).
parse_string("",Acc) ->
{"",lists:reverse(Acc)};
parse_string([H|T],Acc) when ?IS_STRINGCHAR(H) ->
parse_string(T,[H|Acc]);
parse_string([$\\,X|T],Acc) when ?IS_SPECIAL(X) -> % is a pair !
parse_string(T,[X,$\\|Acc]);
parse_string([$\\,$\\|T],Acc) -> % is a pair !
parse_string(T,[$\\,$\\|Acc]);
parse_string([$\\,$" |T],Acc) -> % is a pair !
parse_string(T,[$" ,$\\|Acc]);
parse_string([$\\,X,Y|T],Acc) when ?IS_HEXCHAR(X),?IS_HEXCHAR(Y) -> % is a pair!
parse_string(T,[Y,X,$\\|Acc]);
parse_string(T,Acc) ->
{T,lists:reverse(Acc)}.
parse_equal_sign([$=|T]) -> T;
parse_equal_sign(T) -> parse_error(expecting_equal_sign,T).
parse_keychars(Str) -> parse_keychars(Str,[]).
parse_keychars([H|T],Acc) when ?IS_ALPHA(H) -> parse_keychars(T,[H|Acc]);
parse_keychars([H|T],Acc) when ?IS_DIGIT(H) -> parse_keychars(T,[H|Acc]);
parse_keychars([$-|T],Acc) -> parse_keychars(T,[$-|Acc]);
parse_keychars(T,Acc) -> {T,lists:reverse(Acc)}.
parse_oid(Str) -> parse_oid(Str,[]).
parse_oid([H,$.|T], Acc) when ?IS_DIGIT(H) ->
parse_oid(T,[$.,H|Acc]);
parse_oid([H|T], Acc) when ?IS_DIGIT(H) ->
parse_oid(T,[H|Acc]);
parse_oid(T, Acc) ->
{T,lists:reverse(Acc)}.
parse_error(Emsg,Rest) ->
throw({parse_error,Emsg,Rest}).
%%% --------------------------------------------------------------------
%%% Parse LDAP url according to RFC 2255
%%%
%%% Test case:
%%%
%%% 2> eldap:parse_ldap_url("ldap://10.42.126.33:389/cn=Administrative%20CA,o=Post%20Danmark,c=DK?certificateRevokationList;binary").
%%% {ok,{{10,42,126,33},389},
%%% [[{attribute_type_and_value,"cn","Administrative%20CA"}],
%%% [{attribute_type_and_value,"o","Post%20Danmark"}],
%%% [{attribute_type_and_value,"c","DK"}]],
%%% {attributes,["certificateRevokationList;binary"]}}
%%%
%%% --------------------------------------------------------------------
parse_ldap_url("ldap://" ++ Rest1 = Str) ->
{Rest2,HostPort} = parse_hostport(Rest1),
%% Split the string into DN and Attributes+etc
{Sdn,Rest3} = split_string(rm_leading_slash(Rest2),$?),
case parse_dn(Sdn) of
{parse_error,internal_error,_Reason} ->
{parse_error,internal_error,{Str,[]}};
{parse_error,Emsg,Tail} ->
Head = get_head(Str,Tail),
{parse_error,Emsg,{Head,Tail}};
{ok,DN} ->
%% We stop parsing here for now and leave
%% 'scope', 'filter' and 'extensions' to
%% be implemented later if needed.
{_Rest4,Attributes} = parse_attributes(Rest3),
{ok,HostPort,DN,Attributes}
end.
rm_leading_slash([$/|Tail]) -> Tail;
rm_leading_slash(Tail) -> Tail.
parse_attributes([$?|Tail]) ->
case split_string(Tail,$?) of
{[],Attributes} ->
{[],{attributes,string:lexemes(Attributes,",")}};
{Attributes,Rest} ->
{Rest,{attributes,string:lexemes(Attributes,",")}}
end.
parse_hostport(Str) ->
{HostPort,Rest} = split_string(Str,$/),
case split_string(HostPort,$:) of
{Shost,[]} ->
{Rest,{parse_host(Rest,Shost),?LDAP_PORT}};
{Shost,[$:|Sport]} ->
{Rest,{parse_host(Rest,Shost),
parse_port(Rest,Sport)}}
end.
parse_port(Rest,Sport) ->
try list_to_integer(Sport)
catch _:_ -> parse_error(parsing_port,Rest)
end.
parse_host(Rest,Shost) ->
case catch validate_host(Shost) of
{parse_error,Emsg,_} -> parse_error(Emsg,Rest);
Host -> Host
end.
validate_host(Shost) ->
case inet_parse:address(Shost) of
{ok,Host} -> Host;
_ ->
case inet_parse:domain(Shost) of
true -> Shost;
_ -> parse_error(parsing_host,Shost)
end
end.
split_string(Str,Key) ->
Pred = fun(X) when X==Key -> false; (_) -> true end,
lists:splitwith(Pred, Str).
get_head(Str,Tail) ->
get_head(Str,Tail,[]).
%%% Should always succeed !
get_head([H|Tail],Tail,Rhead) -> lists:reverse([H|Rhead]);
get_head([H|Rest],Tail,Rhead) -> get_head(Rest,Tail,[H|Rhead]).