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xmpp.chapril.org-ejabberd
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xmpp.chapril.org-ejabberd/src/mod_caps.erl

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%%%----------------------------------------------------------------------
%%% File : mod_caps.erl
%%% Author : Magnus Henoch <henoch@dtek.chalmers.se>
%%% Purpose : Request and cache Entity Capabilities (XEP-0115)
%%% Created : 7 Oct 2006 by Magnus Henoch <henoch@dtek.chalmers.se>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2016 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.
%%%
%%% 2009, improvements from ProcessOne to support correct PEP handling
%%% through s2s, use less memory, and speedup global caps handling
%%%----------------------------------------------------------------------
-module(mod_caps).
-author('henoch@dtek.chalmers.se').
-protocol({xep, 115, '1.5'}).
-behaviour(gen_server).
-behaviour(gen_mod).
-export([read_caps/1, caps_stream_features/2,
disco_features/5, disco_identity/5, disco_info/5,
get_features/2, export/1, import_info/0, import/5,
import_start/2, import_stop/2]).
%% gen_mod callbacks
-export([start/2, start_link/2, stop/1, depends/2]).
%% gen_server callbacks
-export([init/1, handle_info/2, handle_call/3,
handle_cast/2, terminate/2, code_change/3]).
-export([user_send_packet/4, user_receive_packet/5,
c2s_presence_in/2, c2s_filter_packet/6,
c2s_broadcast_recipients/6, mod_opt_type/1]).
-include("ejabberd.hrl").
-include("logger.hrl").
-include("xmpp.hrl").
-define(PROCNAME, ejabberd_mod_caps).
-define(BAD_HASH_LIFETIME, 600).
-record(caps_features,
{
node_pair = {<<"">>, <<"">>} :: {binary(), binary()},
features = [] :: [binary()] | pos_integer()
}).
-record(state, {host = <<"">> :: binary()}).
-callback init(binary(), gen_mod:opts()) -> any().
-callback caps_read(binary(), {binary(), binary()}) ->
{ok, non_neg_integer() | [binary()]} | error.
-callback caps_write(binary(), {binary(), binary()},
non_neg_integer() | [binary()]) -> any().
start_link(Host, Opts) ->
Proc = gen_mod:get_module_proc(Host, ?PROCNAME),
gen_server:start_link({local, Proc}, ?MODULE,
[Host, Opts], []).
start(Host, Opts) ->
Proc = gen_mod:get_module_proc(Host, ?PROCNAME),
ChildSpec = {Proc, {?MODULE, start_link, [Host, Opts]},
transient, 1000, worker, [?MODULE]},
supervisor:start_child(ejabberd_sup, ChildSpec).
stop(Host) ->
Proc = gen_mod:get_module_proc(Host, ?PROCNAME),
gen_server:call(Proc, stop),
supervisor:terminate_child(ejabberd_sup, Proc),
supervisor:delete_child(ejabberd_sup, Proc).
-spec get_features(binary(), nothing | caps()) -> [binary()].
get_features(_Host, nothing) -> [];
get_features(Host, #caps{node = Node, version = Version,
exts = Exts}) ->
SubNodes = [Version | Exts],
lists:foldl(fun (SubNode, Acc) ->
NodePair = {Node, SubNode},
case cache_tab:lookup(caps_features, NodePair,
caps_read_fun(Host, NodePair))
of
{ok, Features} when is_list(Features) ->
Features ++ Acc;
_ -> Acc
end
end,
[], SubNodes).
-spec read_caps(#presence{}) -> nothing | caps().
read_caps(Presence) ->
case xmpp:get_subtag(Presence, #caps{}) of
false -> nothing;
Caps -> Caps
end.
-spec user_send_packet(stanza(), ejabberd_c2s:state(), jid(), jid()) -> stanza().
user_send_packet(#presence{type = available} = Pkt,
_C2SState,
#jid{luser = User, lserver = Server} = From,
#jid{luser = User, lserver = Server,
lresource = <<"">>}) ->
case read_caps(Pkt) of
nothing -> ok;
#caps{version = Version, exts = Exts} = Caps ->
feature_request(Server, From, Caps, [Version | Exts])
end,
Pkt;
user_send_packet(Pkt, _C2SState, _From, _To) ->
Pkt.
-spec user_receive_packet(stanza(), ejabberd_c2s:state(),
jid(), jid(), jid()) -> stanza().
user_receive_packet(#presence{type = available} = Pkt,
_C2SState,
#jid{lserver = Server},
From, _To) ->
IsRemote = not lists:member(From#jid.lserver, ?MYHOSTS),
if IsRemote ->
case read_caps(Pkt) of
nothing -> ok;
#caps{version = Version, exts = Exts} = Caps ->
feature_request(Server, From, Caps, [Version | Exts])
end;
true -> ok
end,
Pkt;
user_receive_packet(Pkt, _C2SState, _JID, _From, _To) ->
Pkt.
-spec caps_stream_features([xmpp_element()], binary()) -> [xmpp_element()].
caps_stream_features(Acc, MyHost) ->
case make_my_disco_hash(MyHost) of
<<"">> -> Acc;
Hash ->
[#caps{hash = <<"sha-1">>, node = ?EJABBERD_URI, version = Hash}|Acc]
end.
-spec disco_features({error, error()} | {result, [binary()]} | empty,
jid(), jid(),
binary(), binary()) ->
{error, error()} | {result, [binary()]} | empty.
disco_features(Acc, From, To, Node, Lang) ->
case is_valid_node(Node) of
true ->
ejabberd_hooks:run_fold(disco_local_features,
To#jid.lserver, empty,
[From, To, <<"">>, Lang]);
false ->
Acc
end.
-spec disco_identity([identity()], jid(), jid(),
binary(), binary()) ->
[identity()].
disco_identity(Acc, From, To, Node, Lang) ->
case is_valid_node(Node) of
true ->
ejabberd_hooks:run_fold(disco_local_identity,
To#jid.lserver, [],
[From, To, <<"">>, Lang]);
false ->
Acc
end.
-spec disco_info([xdata()], binary(), module(), binary(), binary()) -> [xdata()];
([xdata()], jid(), jid(), binary(), binary()) -> [xdata()].
disco_info(Acc, Host, Module, Node, Lang) when is_atom(Module) ->
case is_valid_node(Node) of
true ->
ejabberd_hooks:run_fold(disco_info, Host, [],
[Host, Module, <<"">>, Lang]);
false ->
Acc
end;
disco_info(Acc, _, _, _Node, _Lang) ->
Acc.
-spec c2s_presence_in(ejabberd_c2s:state(), {jid(), jid(), presence()}) ->
ejabberd_c2s:state().
c2s_presence_in(C2SState,
{From, To, #presence{type = Type} = Presence}) ->
Subscription = ejabberd_c2s:get_subscription(From,
C2SState),
Insert = (Type == available)
and ((Subscription == both) or (Subscription == to)),
Delete = (Type == unavailable) or (Type == error),
if Insert or Delete ->
LFrom = jid:tolower(From),
Rs = case ejabberd_c2s:get_aux_field(caps_resources,
C2SState)
of
{ok, Rs1} -> Rs1;
error -> gb_trees:empty()
end,
Caps = read_caps(Presence),
NewRs = case Caps of
nothing when Insert == true -> Rs;
_ when Insert == true ->
case gb_trees:lookup(LFrom, Rs) of
{value, Caps} -> Rs;
none ->
ejabberd_hooks:run(caps_add, To#jid.lserver,
[From, To,
get_features(To#jid.lserver, Caps)]),
gb_trees:insert(LFrom, Caps, Rs);
_ ->
ejabberd_hooks:run(caps_update, To#jid.lserver,
[From, To,
get_features(To#jid.lserver, Caps)]),
gb_trees:update(LFrom, Caps, Rs)
end;
_ -> gb_trees:delete_any(LFrom, Rs)
end,
ejabberd_c2s:set_aux_field(caps_resources, NewRs,
C2SState);
true -> C2SState
end.
-spec c2s_filter_packet(boolean(), binary(), ejabberd_c2s:state(),
{pep_message, binary()}, jid(), stanza()) ->
boolean().
c2s_filter_packet(InAcc, Host, C2SState, {pep_message, Feature}, To, _Packet) ->
case ejabberd_c2s:get_aux_field(caps_resources, C2SState) of
{ok, Rs} ->
LTo = jid:tolower(To),
case gb_trees:lookup(LTo, Rs) of
{value, Caps} ->
Drop = not lists:member(Feature, get_features(Host, Caps)),
{stop, Drop};
none ->
{stop, true}
end;
_ -> InAcc
end;
c2s_filter_packet(Acc, _, _, _, _, _) -> Acc.
-spec c2s_broadcast_recipients([ljid()], binary(), ejabberd_c2s:state(),
{pep_message, binary()}, jid(), stanza()) ->
[ljid()].
c2s_broadcast_recipients(InAcc, Host, C2SState,
{pep_message, Feature}, _From, _Packet) ->
case ejabberd_c2s:get_aux_field(caps_resources,
C2SState)
of
{ok, Rs} ->
gb_trees_fold(fun (USR, Caps, Acc) ->
case lists:member(Feature,
get_features(Host, Caps))
of
true -> [USR | Acc];
false -> Acc
end
end,
InAcc, Rs);
_ -> InAcc
end;
c2s_broadcast_recipients(Acc, _, _, _, _, _) -> Acc.
-spec depends(binary(), gen_mod:opts()) -> [{module(), hard | soft}].
depends(_Host, _Opts) ->
[].
init([Host, Opts]) ->
Mod = gen_mod:db_mod(Host, Opts, ?MODULE),
Mod:init(Host, Opts),
MaxSize = gen_mod:get_opt(cache_size, Opts,
fun(I) when is_integer(I), I>0 -> I end,
1000),
LifeTime = gen_mod:get_opt(cache_life_time, Opts,
fun(I) when is_integer(I), I>0 -> I end,
timer:hours(24) div 1000),
cache_tab:new(caps_features,
[{max_size, MaxSize}, {life_time, LifeTime}]),
ejabberd_hooks:add(c2s_presence_in, Host, ?MODULE,
c2s_presence_in, 75),
ejabberd_hooks:add(c2s_filter_packet, Host, ?MODULE,
c2s_filter_packet, 75),
ejabberd_hooks:add(c2s_broadcast_recipients, Host,
?MODULE, c2s_broadcast_recipients, 75),
ejabberd_hooks:add(user_send_packet, Host, ?MODULE,
user_send_packet, 75),
ejabberd_hooks:add(user_receive_packet, Host, ?MODULE,
user_receive_packet, 75),
ejabberd_hooks:add(c2s_stream_features, Host, ?MODULE,
caps_stream_features, 75),
ejabberd_hooks:add(s2s_stream_features, Host, ?MODULE,
caps_stream_features, 75),
ejabberd_hooks:add(disco_local_features, Host, ?MODULE,
disco_features, 75),
ejabberd_hooks:add(disco_local_identity, Host, ?MODULE,
disco_identity, 75),
ejabberd_hooks:add(disco_info, Host, ?MODULE,
disco_info, 75),
{ok, #state{host = Host}}.
handle_call(stop, _From, State) ->
{stop, normal, ok, State};
handle_call(_Req, _From, State) ->
{reply, {error, badarg}, State}.
handle_cast(_Msg, State) -> {noreply, State}.
handle_info(_Info, State) -> {noreply, State}.
terminate(_Reason, State) ->
Host = State#state.host,
ejabberd_hooks:delete(c2s_presence_in, Host, ?MODULE,
c2s_presence_in, 75),
ejabberd_hooks:delete(c2s_filter_packet, Host, ?MODULE,
c2s_filter_packet, 75),
ejabberd_hooks:delete(c2s_broadcast_recipients, Host,
?MODULE, c2s_broadcast_recipients, 75),
ejabberd_hooks:delete(user_send_packet, Host, ?MODULE,
user_send_packet, 75),
ejabberd_hooks:delete(user_receive_packet, Host,
?MODULE, user_receive_packet, 75),
ejabberd_hooks:delete(c2s_stream_features, Host,
?MODULE, caps_stream_features, 75),
ejabberd_hooks:delete(s2s_stream_features, Host,
?MODULE, caps_stream_features, 75),
ejabberd_hooks:delete(disco_local_features, Host,
?MODULE, disco_features, 75),
ejabberd_hooks:delete(disco_local_identity, Host,
?MODULE, disco_identity, 75),
ejabberd_hooks:delete(disco_info, Host, ?MODULE,
disco_info, 75),
ok.
code_change(_OldVsn, State, _Extra) -> {ok, State}.
-spec feature_request(binary(), jid(), caps(), [binary()]) -> any().
feature_request(Host, From, Caps,
[SubNode | Tail] = SubNodes) ->
Node = Caps#caps.node,
NodePair = {Node, SubNode},
case cache_tab:lookup(caps_features, NodePair,
caps_read_fun(Host, NodePair))
of
{ok, Fs} when is_list(Fs) ->
feature_request(Host, From, Caps, Tail);
Other ->
NeedRequest = case Other of
{ok, TS} -> now_ts() >= TS + (?BAD_HASH_LIFETIME);
_ -> true
end,
if NeedRequest ->
IQ = #iq{type = get,
sub_els = [#disco_info{node = <<Node/binary, "#",
SubNode/binary>>}]},
cache_tab:insert(caps_features, NodePair, now_ts(),
caps_write_fun(Host, NodePair, now_ts())),
F = fun (IQReply) ->
feature_response(IQReply, Host, From, Caps,
SubNodes)
end,
ejabberd_local:route_iq(jid:make(<<"">>, Host,
<<"">>),
From, IQ, F);
true -> feature_request(Host, From, Caps, Tail)
end
end;
feature_request(_Host, _From, _Caps, []) -> ok.
-spec feature_response(iq(), binary(), jid(), caps(), [binary()]) -> any().
feature_response(#iq{type = result, sub_els = [El]},
Host, From, Caps, [SubNode | SubNodes]) ->
NodePair = {Caps#caps.node, SubNode},
try
DiscoInfo = xmpp:decode(El),
case check_hash(Caps, DiscoInfo) of
true ->
Features = DiscoInfo#disco_info.features,
cache_tab:insert(caps_features, NodePair,
Features,
caps_write_fun(Host, NodePair, Features));
false -> ok
end
catch _:{xmpp_codec, _Why} ->
ok
end,
feature_request(Host, From, Caps, SubNodes);
feature_response(_IQResult, Host, From, Caps,
[_SubNode | SubNodes]) ->
feature_request(Host, From, Caps, SubNodes).
-spec caps_read_fun(binary(), {binary(), binary()})
-> fun(() -> {ok, [binary()] | non_neg_integer()} | error).
caps_read_fun(Host, Node) ->
LServer = jid:nameprep(Host),
Mod = gen_mod:db_mod(LServer, ?MODULE),
fun() -> Mod:caps_read(LServer, Node) end.
-spec caps_write_fun(binary(), {binary(), binary()},
[binary()] | non_neg_integer()) -> fun().
caps_write_fun(Host, Node, Features) ->
LServer = jid:nameprep(Host),
Mod = gen_mod:db_mod(LServer, ?MODULE),
fun() -> Mod:caps_write(LServer, Node, Features) end.
-spec make_my_disco_hash(binary()) -> binary().
make_my_disco_hash(Host) ->
JID = jid:make(<<"">>, Host, <<"">>),
case {ejabberd_hooks:run_fold(disco_local_features,
Host, empty, [JID, JID, <<"">>, <<"">>]),
ejabberd_hooks:run_fold(disco_local_identity, Host, [],
[JID, JID, <<"">>, <<"">>]),
ejabberd_hooks:run_fold(disco_info, Host, [],
[Host, undefined, <<"">>, <<"">>])}
of
{{result, Features}, Identities, Info} ->
Feats = lists:map(fun ({{Feat, _Host}}) -> Feat;
(Feat) -> Feat
end,
Features),
DiscoInfo = #disco_info{identities = Identities,
features = Feats,
xdata = Info},
make_disco_hash(DiscoInfo, sha);
_Err -> <<"">>
end.
-type digest_type() :: md5 | sha | sha224 | sha256 | sha384 | sha512.
-spec make_disco_hash(disco_info(), digest_type()) -> binary().
make_disco_hash(DiscoInfo, Algo) ->
Concat = list_to_binary([concat_identities(DiscoInfo),
concat_features(DiscoInfo), concat_info(DiscoInfo)]),
jlib:encode_base64(case Algo of
md5 -> erlang:md5(Concat);
sha -> p1_sha:sha1(Concat);
sha224 -> p1_sha:sha224(Concat);
sha256 -> p1_sha:sha256(Concat);
sha384 -> p1_sha:sha384(Concat);
sha512 -> p1_sha:sha512(Concat)
end).
-spec check_hash(caps(), disco_info()) -> boolean().
check_hash(Caps, DiscoInfo) ->
case Caps#caps.hash of
<<"md5">> ->
Caps#caps.version == make_disco_hash(DiscoInfo, md5);
<<"sha-1">> ->
Caps#caps.version == make_disco_hash(DiscoInfo, sha);
<<"sha-224">> ->
Caps#caps.version == make_disco_hash(DiscoInfo, sha224);
<<"sha-256">> ->
Caps#caps.version == make_disco_hash(DiscoInfo, sha256);
<<"sha-384">> ->
Caps#caps.version == make_disco_hash(DiscoInfo, sha384);
<<"sha-512">> ->
Caps#caps.version == make_disco_hash(DiscoInfo, sha512);
_ -> true
end.
-spec concat_features(disco_info()) -> iolist().
concat_features(#disco_info{features = Features}) ->
lists:usort([[Feat, $<] || Feat <- Features]).
-spec concat_identities(disco_info()) -> iolist().
concat_identities(#disco_info{identities = Identities}) ->
lists:sort(
[[Cat, $/, T, $/, Lang, $/, Name, $<] ||
#identity{category = Cat, type = T,
lang = Lang, name = Name} <- Identities]).
-spec concat_info(disco_info()) -> iolist().
concat_info(#disco_info{xdata = Xs}) ->
lists:sort(
[concat_xdata_fields(Fs) || #xdata{type = result, fields = Fs} <- Xs]).
-spec concat_xdata_fields([xdata_field()]) -> iolist().
concat_xdata_fields(Fields) ->
Form = case lists:keyfind(<<"FORM_TYPE">>, #xdata_field.var, Fields) of
#xdata_field{values = Values} -> Values;
false -> []
end,
Res = [[Var, $<, lists:sort([[Val, $<] || Val <- Values])]
|| #xdata_field{var = Var, values = Values} <- Fields,
is_binary(Var), Var /= <<"FORM_TYPE">>],
[Form, $<, lists:sort(Res)].
-spec gb_trees_fold(fun((_, _, T) -> T), T, gb_trees:tree()) -> T.
gb_trees_fold(F, Acc, Tree) ->
Iter = gb_trees:iterator(Tree),
gb_trees_fold_iter(F, Acc, Iter).
-spec gb_trees_fold_iter(fun((_, _, T) -> T), T, gb_trees:iter()) -> T.
gb_trees_fold_iter(F, Acc, Iter) ->
case gb_trees:next(Iter) of
{Key, Val, NewIter} ->
NewAcc = F(Key, Val, Acc),
gb_trees_fold_iter(F, NewAcc, NewIter);
_ -> Acc
end.
-spec now_ts() -> integer().
now_ts() ->
p1_time_compat:system_time(seconds).
-spec is_valid_node(binary()) -> boolean().
is_valid_node(Node) ->
case str:tokens(Node, <<"#">>) of
[?EJABBERD_URI|_] ->
true;
_ ->
false
end.
caps_features_schema() ->
{record_info(fields, caps_features), #caps_features{}}.
export(LServer) ->
Mod = gen_mod:db_mod(LServer, ?MODULE),
Mod:export(LServer).
import_info() ->
[{<<"caps_features">>, 4}].
import_start(LServer, DBType) ->
ets:new(caps_features_tmp, [private, named_table, bag]),
Mod = gen_mod:db_mod(DBType, ?MODULE),
Mod:init(LServer, []),
ok.
import(_LServer, {sql, _}, _DBType, <<"caps_features">>,
[Node, SubNode, Feature, _TimeStamp]) ->
Feature1 = case catch jlib:binary_to_integer(Feature) of
I when is_integer(I), I>0 -> I;
_ -> Feature
end,
ets:insert(caps_features_tmp, {{Node, SubNode}, Feature1}),
ok.
import_stop(LServer, DBType) ->
import_next(LServer, DBType, ets:first(caps_features_tmp)),
ets:delete(caps_features_tmp),
ok.
import_next(_LServer, _DBType, '$end_of_table') ->
ok;
import_next(LServer, DBType, NodePair) ->
Features = [F || {_, F} <- ets:lookup(caps_features_tmp, NodePair)],
case Features of
[I] when is_integer(I), DBType == mnesia ->
mnesia:dirty_write(
#caps_features{node_pair = NodePair, features = I});
[I] when is_integer(I), DBType == riak ->
ejabberd_riak:put(
#caps_features{node_pair = NodePair, features = I},
caps_features_schema());
_ when DBType == mnesia ->
mnesia:dirty_write(
#caps_features{node_pair = NodePair, features = Features});
_ when DBType == riak ->
ejabberd_riak:put(
#caps_features{node_pair = NodePair, features = Features},
caps_features_schema());
_ when DBType == sql ->
ok
end,
import_next(LServer, DBType, ets:next(caps_features_tmp, NodePair)).
mod_opt_type(cache_life_time) ->
fun (I) when is_integer(I), I > 0 -> I end;
mod_opt_type(cache_size) ->
fun (I) when is_integer(I), I > 0 -> I end;
mod_opt_type(db_type) -> fun(T) -> ejabberd_config:v_db(?MODULE, T) end;
mod_opt_type(_) ->
[cache_life_time, cache_size, db_type].
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