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mirror of https://github.com/processone/ejabberd.git synced 2024-12-28 17:38:54 +01:00
xmpp.chapril.org-ejabberd/src/cyrsasl_digest.erl
2013-08-21 22:17:59 +10:00

260 lines
9.0 KiB
Erlang

%%%----------------------------------------------------------------------
%%% File : cyrsasl_digest.erl
%%% Author : Alexey Shchepin <alexey@sevcom.net>
%%% Purpose : DIGEST-MD5 SASL mechanism
%%% Created : 11 Mar 2003 by Alexey Shchepin <alexey@sevcom.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2013 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., 59 Temple Place, Suite 330, Boston, MA
%%% 02111-1307 USA
%%%
%%%----------------------------------------------------------------------
-module(cyrsasl_digest).
-author('alexey@sevcom.net').
-export([start/1, stop/0, mech_new/4, mech_step/2, parse/1]).
-include("ejabberd.hrl").
-include("logger.hrl").
-behaviour(cyrsasl).
-type get_password_fun() :: fun((binary()) -> {false, any()} |
{binary(), atom()}).
-type check_password_fun() :: fun((binary(), binary(), binary(),
fun((binary()) -> binary())) ->
{boolean(), any()} |
false).
-record(state, {step = 1 :: 1 | 3 | 5,
nonce = <<"">> :: binary(),
username = <<"">> :: binary(),
authzid = <<"">> :: binary(),
get_password = fun(_) -> {false, <<>>} end :: get_password_fun(),
check_password = fun(_, _, _, _) -> false end :: check_password_fun(),
auth_module :: atom(),
host = <<"">> :: binary(),
hostfqdn = <<"">> :: binary()}).
start(_Opts) ->
Fqdn = get_local_fqdn(),
?INFO_MSG("FQDN used to check DIGEST-MD5 SASL authentication: ~s",
[Fqdn]),
cyrsasl:register_mechanism(<<"DIGEST-MD5">>, ?MODULE,
digest).
stop() -> ok.
mech_new(Host, GetPassword, _CheckPassword,
CheckPasswordDigest) ->
{ok,
#state{step = 1, nonce = randoms:get_string(),
host = Host, hostfqdn = get_local_fqdn(),
get_password = GetPassword,
check_password = CheckPasswordDigest}}.
mech_step(#state{step = 1, nonce = Nonce} = State, _) ->
{continue,
<<"nonce=\"", Nonce/binary,
"\",qop=\"auth\",charset=utf-8,algorithm=md5-sess">>,
State#state{step = 3}};
mech_step(#state{step = 3, nonce = Nonce} = State,
ClientIn) ->
case parse(ClientIn) of
bad -> {error, <<"bad-protocol">>};
KeyVals ->
DigestURI = proplists:get_value(<<"digest-uri">>, KeyVals, <<>>),
%DigestURI = xml:get_attr_s(<<"digest-uri">>, KeyVals),
UserName = proplists:get_value(<<"username">>, KeyVals, <<>>),
%UserName = xml:get_attr_s(<<"username">>, KeyVals),
case is_digesturi_valid(DigestURI, State#state.host,
State#state.hostfqdn)
of
false ->
?DEBUG("User login not authorized because digest-uri "
"seems invalid: ~p (checking for Host "
"~p, FQDN ~p)",
[DigestURI, State#state.host, State#state.hostfqdn]),
{error, <<"not-authorized">>, UserName};
true ->
AuthzId = proplists:get_value(<<"authzid">>, KeyVals, <<>>),
%AuthzId = xml:get_attr_s(<<"authzid">>, KeyVals),
case (State#state.get_password)(UserName) of
{false, _} -> {error, <<"not-authorized">>, UserName};
{Passwd, AuthModule} ->
case (State#state.check_password)(UserName, <<"">>,
proplists:get_value(<<"response">>, KeyVals, <<>>),
%xml:get_attr_s(<<"response">>, KeyVals),
fun (PW) ->
response(KeyVals,
UserName,
PW,
Nonce,
AuthzId,
<<"AUTHENTICATE">>)
end)
of
{true, _} ->
RspAuth = response(KeyVals, UserName, Passwd, Nonce,
AuthzId, <<"">>),
{continue, <<"rspauth=", RspAuth/binary>>,
State#state{step = 5, auth_module = AuthModule,
username = UserName,
authzid = AuthzId}};
false -> {error, <<"not-authorized">>, UserName};
{false, _} -> {error, <<"not-authorized">>, UserName}
end
end
end
end;
mech_step(#state{step = 5, auth_module = AuthModule,
username = UserName, authzid = AuthzId},
<<"">>) ->
{ok,
[{username, UserName}, {authzid, AuthzId},
{auth_module, AuthModule}]};
mech_step(A, B) ->
?DEBUG("SASL DIGEST: A ~p B ~p", [A, B]),
{error, <<"bad-protocol">>}.
parse(S) -> parse1(binary_to_list(S), "", []).
parse1([$= | Cs], S, Ts) ->
parse2(Cs, lists:reverse(S), "", Ts);
parse1([$, | Cs], [], Ts) -> parse1(Cs, [], Ts);
parse1([$\s | Cs], [], Ts) -> parse1(Cs, [], Ts);
parse1([C | Cs], S, Ts) -> parse1(Cs, [C | S], Ts);
parse1([], [], T) -> lists:reverse(T);
parse1([], _S, _T) -> bad.
parse2([$" | Cs], Key, Val, Ts) ->
parse3(Cs, Key, Val, Ts);
parse2([C | Cs], Key, Val, Ts) ->
parse4(Cs, Key, [C | Val], Ts);
parse2([], _, _, _) -> bad.
parse3([$" | Cs], Key, Val, Ts) ->
parse4(Cs, Key, Val, Ts);
parse3([$\\, C | Cs], Key, Val, Ts) ->
parse3(Cs, Key, [C | Val], Ts);
parse3([C | Cs], Key, Val, Ts) ->
parse3(Cs, Key, [C | Val], Ts);
parse3([], _, _, _) -> bad.
parse4([$, | Cs], Key, Val, Ts) ->
parse1(Cs, "", [{list_to_binary(Key), list_to_binary(lists:reverse(Val))} | Ts]);
parse4([$\s | Cs], Key, Val, Ts) ->
parse4(Cs, Key, Val, Ts);
parse4([C | Cs], Key, Val, Ts) ->
parse4(Cs, Key, [C | Val], Ts);
parse4([], Key, Val, Ts) ->
%% @doc Check if the digest-uri is valid.
%% RFC-2831 allows to provide the IP address in Host,
%% however ejabberd doesn't allow that.
%% If the service (for example jabber.example.org)
%% is provided by several hosts (being one of them server3.example.org),
%% then acceptable digest-uris would be:
%% xmpp/server3.example.org/jabber.example.org, xmpp/server3.example.org and
%% xmpp/jabber.example.org
%% The last version is not actually allowed by the RFC, but implemented by popular clients
parse1([], "", [{list_to_binary(Key), list_to_binary(lists:reverse(Val))} | Ts]).
is_digesturi_valid(DigestURICase, JabberDomain,
JabberFQDN) ->
DigestURI = stringprep:tolower(DigestURICase),
case catch str:tokens(DigestURI, <<"/">>) of
[<<"xmpp">>, Host] ->
IsHostFqdn = is_host_fqdn(binary_to_list(Host), binary_to_list(JabberFQDN)),
(Host == JabberDomain) or IsHostFqdn;
[<<"xmpp">>, Host, ServName] ->
IsHostFqdn = is_host_fqdn(binary_to_list(Host), binary_to_list(JabberFQDN)),
(ServName == JabberDomain) and IsHostFqdn;
_ ->
false
end.
is_host_fqdn(Host, [Letter | _Tail] = Fqdn) when not is_list(Letter) ->
Host == Fqdn;
is_host_fqdn(_Host, []) ->
false;
is_host_fqdn(Host, [Fqdn | _FqdnTail]) when Host == Fqdn ->
true;
is_host_fqdn(Host, [Fqdn | FqdnTail]) when Host /= Fqdn ->
is_host_fqdn(Host, FqdnTail).
get_local_fqdn() ->
case catch get_local_fqdn2() of
Str when is_binary(Str) -> Str;
_ ->
<<"unknown-fqdn, please configure fqdn "
"option in ejabberd.yml!">>
end.
get_local_fqdn2() ->
case ejabberd_config:get_option(
fqdn, fun iolist_to_binary/1) of
ConfiguredFqdn when is_binary(ConfiguredFqdn) ->
ConfiguredFqdn;
undefined ->
{ok, Hostname} = inet:gethostname(),
{ok, {hostent, Fqdn, _, _, _, _}} =
inet:gethostbyname(Hostname),
list_to_binary(Fqdn)
end.
hex(S) ->
p1_sha:to_hexlist(S).
proplists_get_bin_value(Key, Pairs, Default) ->
case proplists:get_value(Key, Pairs, Default) of
L when is_list(L) ->
list_to_binary(L);
L2 ->
L2
end.
response(KeyVals, User, Passwd, Nonce, AuthzId,
A2Prefix) ->
Realm = proplists_get_bin_value(<<"realm">>, KeyVals, <<>>),
CNonce = proplists_get_bin_value(<<"cnonce">>, KeyVals, <<>>),
DigestURI = proplists_get_bin_value(<<"digest-uri">>, KeyVals, <<>>),
NC = proplists_get_bin_value(<<"nc">>, KeyVals, <<>>),
QOP = proplists_get_bin_value(<<"qop">>, KeyVals, <<>>),
MD5Hash = crypto:md5(<<User/binary, ":", Realm/binary, ":",
Passwd/binary>>),
A1 = case AuthzId of
<<"">> ->
<<MD5Hash/binary, ":", Nonce/binary, ":", CNonce/binary>>;
_ ->
<<MD5Hash/binary, ":", Nonce/binary, ":", CNonce/binary, ":",
AuthzId/binary>>
end,
A2 = case QOP of
<<"auth">> ->
<<A2Prefix/binary, ":", DigestURI/binary>>;
_ ->
<<A2Prefix/binary, ":", DigestURI/binary,
":00000000000000000000000000000000">>
end,
T = <<(hex((crypto:md5(A1))))/binary, ":", Nonce/binary,
":", NC/binary, ":", CNonce/binary, ":", QOP/binary,
":", (hex((crypto:md5(A2))))/binary>>,
hex((crypto:md5(T))).