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

%%%----------------------------------------------------------------------
%%% 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) 2002-2011   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
%%%
%%% 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').

-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/1]).

%% gen_mod callbacks
-export([start/2, start_link/2,
	 stop/1]).

%% gen_server callbacks
-export([init/1,
	 handle_info/2,
	 handle_call/3,
	 handle_cast/2,
	 terminate/2,
	 code_change/3
	]).

%% hook handlers
-export([user_send_packet/4,
	 user_receive_packet/5,
	 c2s_presence_in/2,
	 c2s_broadcast_recipients/5]).

-include("ejabberd.hrl").
-include("jlib.hrl").

-define(PROCNAME, ejabberd_mod_caps).
-define(BAD_HASH_LIFETIME, 600). %% in seconds

-record(caps, {node, version, hash, exts}).
-record(caps_features, {node_pair, features = []}).

-record(state, {host}).

%%====================================================================
%% API
%%====================================================================
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).

%% get_features returns a list of features implied by the given caps
%% record (as extracted by read_caps) or 'unknown' if features are
%% not completely collected at the moment.
get_features(nothing) ->
    [];
get_features(#caps{node = Node, version = Version, exts = Exts}) ->
    SubNodes = [Version | Exts],
    lists:foldl(
      fun(SubNode, Acc) ->
	      BinaryNode = node_to_binary(Node, SubNode),
	      case cache_tab:lookup(caps_features, BinaryNode,
				    caps_read_fun(BinaryNode)) of
		  {ok, Features} when is_list(Features) ->
		      binary_to_features(Features) ++ Acc;
		  _ ->
		      Acc
	      end
      end, [], SubNodes).

%% read_caps takes a list of XML elements (the child elements of a
%% <presence/> stanza) and returns an opaque value representing the
%% Entity Capabilities contained therein, or the atom nothing if no
%% capabilities are advertised.
read_caps(Els) ->
    read_caps(Els, nothing).

read_caps([{xmlelement, "c", Attrs, _Els} | Tail], Result) ->
    case xml:get_attr_s("xmlns", Attrs) of
	?NS_CAPS ->
	    Node = xml:get_attr_s("node", Attrs),
	    Version = xml:get_attr_s("ver", Attrs),
	    Hash = xml:get_attr_s("hash", Attrs),
	    Exts = string:tokens(xml:get_attr_s("ext", Attrs), " "),
	    read_caps(Tail, #caps{node = Node, hash = Hash,
				  version = Version, exts = Exts});
	_ ->
	    read_caps(Tail, Result)
    end;
read_caps([{xmlelement, "x", Attrs, _Els} | Tail], Result) ->
    case xml:get_attr_s("xmlns", Attrs) of
	?NS_MUC_USER ->
	    nothing;
	_ ->
	    read_caps(Tail, Result)
    end;
read_caps([_ | Tail], Result) ->
    read_caps(Tail, Result);
read_caps([], Result) ->
    Result.

%%====================================================================
%% Hooks
%%====================================================================
user_send_packet(_DebugFlag,
		 #jid{luser = User, lserver = Server} = From,
		 #jid{luser = User, lserver = Server, lresource = ""},
		 {xmlelement, "presence", Attrs, Els}) ->
    Type = xml:get_attr_s("type", Attrs),
    if Type == ""; Type == "available" ->
	    case read_caps(Els) of
		nothing ->
		    ok;
		#caps{version = Version, exts = Exts} = Caps ->
		    feature_request(Server, From, Caps, [Version | Exts])
	    end;
       true ->
	    ok
    end;
user_send_packet(_DebugFlag, _From, _To, _Packet) ->
    ok.

user_receive_packet(_DebugFlag,
                    #jid{lserver = Server}, From, _To,
		    {xmlelement, "presence", Attrs, Els}) ->
    Type = xml:get_attr_s("type", Attrs),
    if Type == ""; Type == "available" ->
	    case read_caps(Els) of
		nothing ->
		    ok;
		#caps{version = Version, exts = Exts} = Caps ->
		    feature_request(Server, From, Caps, [Version | Exts])
	    end;
       true ->
	    ok
    end;
user_receive_packet(_DebugFlag, _JID, _From, _To, _Packet) ->
    ok.

caps_stream_features(Acc, MyHost) ->
    case make_my_disco_hash(MyHost) of
	"" ->
	    Acc;
	Hash ->
	    [{xmlelement, "c", [{"xmlns", ?NS_CAPS},
				{"hash", "sha-1"},
				{"node", ?EJABBERD_URI},
				{"ver", Hash}], []} | Acc]
    end.

disco_features(_Acc, From, To, ?EJABBERD_URI ++ "#" ++ [_|_], Lang) ->
    ejabberd_hooks:run_fold(disco_local_features,
			    To#jid.lserver,
			    empty,
			    [From, To, "", Lang]);
disco_features(Acc, _From, _To, _Node, _Lang) ->
    Acc.

disco_identity(_Acc, From, To, ?EJABBERD_URI ++ "#" ++ [_|_], Lang) ->
    ejabberd_hooks:run_fold(disco_local_identity,
			    To#jid.lserver,
			    [],
			    [From, To, "", Lang]);
disco_identity(Acc, _From, _To, _Node, _Lang) ->
    Acc.

disco_info(_Acc, Host, Module, ?EJABBERD_URI ++ "#" ++ [_|_], Lang) ->
    ejabberd_hooks:run_fold(disco_info,
			    Host,
			    [],
			    [Host, Module, "", Lang]);
disco_info(Acc, _Host, _Module, _Node, _Lang) ->
    Acc.

c2s_presence_in(C2SState, {From, To, {_, _, Attrs, Els}}) ->
    Type = xml:get_attr_s("type", Attrs),
    Subscription = ejabberd_c2s:get_subscription(From, C2SState),
    Insert = ((Type == "") or (Type == "available"))
	and ((Subscription == both) or (Subscription == to)),
    Delete = (Type == "unavailable") or (Type == "error") or (Type == "invisible"),
    if Insert or Delete ->
	    LFrom = jlib: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(Els),
	    {CapsUpdated, NewRs} =
		case Caps of
		    nothing when Insert == true ->
			{false, Rs};
		    _ when Insert == true ->
			case gb_trees:lookup(LFrom, Rs) of
			    {value, Caps} ->
				{false, Rs};
			    none ->
				{true, gb_trees:insert(LFrom, Caps, Rs)};
			    _ ->
				{true, gb_trees:update(LFrom, Caps, Rs)}
			end;
		    _ ->
			{false, gb_trees:delete_any(LFrom, Rs)}
		end,
	    if CapsUpdated ->
		    ejabberd_hooks:run(caps_update, To#jid.lserver,
				       [From, To, get_features(Caps)]);
	       true ->
		    ok
	    end,
	    ejabberd_c2s:set_aux_field(caps_resources, NewRs, C2SState);
       true ->
	    C2SState
    end.

c2s_broadcast_recipients(InAcc, 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(Caps)) of
			  true ->
			      [USR|Acc];
			  false ->
			      Acc
		      end
	      end, InAcc, Rs);
	_ ->
	    InAcc
    end;
c2s_broadcast_recipients(Acc, _, _, _, _) ->
    Acc.

%%====================================================================
%% gen_server callbacks
%%====================================================================
init([Host, Opts]) ->
    case catch mnesia:table_info(caps_features, storage_type) of
	{'EXIT', _} ->
	    ok;
	disc_only_copies ->
	    ok;
	_ ->
	    mnesia:delete_table(caps_features)
    end,
    mnesia:create_table(caps_features,
			[{disc_only_copies, [node()]},
			 {local_content, true},
			 {attributes, record_info(fields, caps_features)}]),
    mnesia:add_table_copy(caps_features, node(), disc_only_copies),
    MaxSize = gen_mod:get_opt(cache_size, Opts, 1000),
    LifeTime = gen_mod:get_opt(cache_life_time, Opts, 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_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_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}.

%%====================================================================
%% Aux functions
%%====================================================================
feature_request(Host, From, Caps, [SubNode | Tail] = SubNodes) ->
    Node = Caps#caps.node,
    BinaryNode = node_to_binary(Node, SubNode),
    case cache_tab:lookup(caps_features, BinaryNode,
			  caps_read_fun(BinaryNode)) 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,
			     xmlns = ?NS_DISCO_INFO,
			     sub_el = [{xmlelement, "query",
					[{"xmlns", ?NS_DISCO_INFO},
					 {"node", Node ++ "#" ++ SubNode}],
					[]}]},
		    F = fun(IQReply) ->
				feature_response(
				  IQReply, Host, From, Caps, SubNodes)
			end,
		    ejabberd_local:route_iq(
		      jlib:make_jid("", Host, ""), From, IQ, F);
	       true ->
		    feature_request(Host, From, Caps, Tail)
	    end
    end;
feature_request(_Host, _From, _Caps, []) ->
    ok.

feature_response(#iq{type = result,
		     sub_el = [{xmlelement, _, _, Els}]},
		 Host, From, Caps, [SubNode | SubNodes]) ->
    BinaryNode = node_to_binary(Caps#caps.node, SubNode),
    case check_hash(Caps, Els) of
	true ->
	    Features = lists:flatmap(
			 fun({xmlelement, "feature", FAttrs, _}) ->
				 [xml:get_attr_s("var", FAttrs)];
			    (_) ->
				 []
			 end, Els),
	    BinaryFeatures = features_to_binary(Features),
	    cache_tab:insert(
	      caps_features, BinaryNode, BinaryFeatures,
	      caps_write_fun(BinaryNode, BinaryFeatures));
	false ->
	    %% We cache current timestamp and will probe the client
	    %% after BAD_HASH_LIFETIME seconds.
	    cache_tab:insert(caps_features, BinaryNode, now_ts(),
			     caps_write_fun(BinaryNode, now_ts()))
    end,
    feature_request(Host, From, Caps, SubNodes);
feature_response(_IQResult, Host, From, Caps, [SubNode | SubNodes]) ->
    %% We got type=error or invalid type=result stanza or timeout,
    %% so we cache current timestamp and will probe the client
    %% after BAD_HASH_LIFETIME seconds.
    BinaryNode = node_to_binary(Caps#caps.node, SubNode),
    cache_tab:insert(caps_features, BinaryNode, now_ts(),
		     caps_write_fun(BinaryNode, now_ts())),
    feature_request(Host, From, Caps, SubNodes).

node_to_binary(Node, SubNode) ->
    {list_to_binary(Node), list_to_binary(SubNode)}.

features_to_binary(L) -> [list_to_binary(I) || I <- L].
binary_to_features(L) -> [binary_to_list(I) || I <- L].

caps_read_fun(Node) ->
    fun() ->
	    case mnesia:dirty_read({caps_features, Node}) of
		[#caps_features{features = Features}] ->
		    {ok, Features};
		_ ->
		    error
	    end
    end.

caps_write_fun(Node, Features) ->
    fun() ->
	    mnesia:dirty_write(
	      #caps_features{node_pair = Node,
			     features = Features})
    end.

make_my_disco_hash(Host) ->
    JID = jlib:make_jid("", 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}}) ->
			      {xmlelement, "feature", [{"var", Feat}], []};
			 (Feat) ->
			      {xmlelement, "feature", [{"var", Feat}], []}
		      end, Features),
	    make_disco_hash(Identities ++ Info ++ Feats, sha1);
	_Err ->
	    ""
    end.

-ifdef(HAVE_MD2).
make_disco_hash(DiscoEls, Algo) ->
    Concat = [concat_identities(DiscoEls),
	      concat_features(DiscoEls),
	      concat_info(DiscoEls)],
    base64:encode_to_string(
      if Algo == md2 ->
	      sha:md2(Concat);
	 Algo == md5 ->
	      crypto:md5(Concat);
	 Algo == sha1 ->
	      crypto:sha(Concat);
	 Algo == sha224 ->
	      sha:sha224(Concat);
	 Algo == sha256 ->
	      sha:sha256(Concat);
	 Algo == sha384 ->
	      sha:sha384(Concat);
	 Algo == sha512 ->
	      sha:sha512(Concat)
      end).

check_hash(Caps, Els) ->
    case Caps#caps.hash of
	"md2" ->
	    Caps#caps.version == make_disco_hash(Els, md2);
	"md5" ->
	    Caps#caps.version == make_disco_hash(Els, md5);
	"sha-1" ->
	    Caps#caps.version == make_disco_hash(Els, sha1);
	"sha-224" ->
	    Caps#caps.version == make_disco_hash(Els, sha224);
	"sha-256" ->
	    Caps#caps.version == make_disco_hash(Els, sha256);
	"sha-384" ->
	    Caps#caps.version == make_disco_hash(Els, sha384);
	"sha-512" ->
	    Caps#caps.version == make_disco_hash(Els, sha512);
	_ ->
	    true
    end.
-else.
make_disco_hash(DiscoEls, Algo) ->
    Concat = [concat_identities(DiscoEls),
	      concat_features(DiscoEls),
	      concat_info(DiscoEls)],
    base64:encode_to_string(
      if Algo == md5 ->
	      crypto:md5(Concat);
	 Algo == sha1 ->
	      crypto:sha(Concat);
	 Algo == sha224 ->
	      sha:sha224(Concat);
	 Algo == sha256 ->
	      sha:sha256(Concat);
	 Algo == sha384 ->
	      sha:sha384(Concat);
	 Algo == sha512 ->
	      sha:sha512(Concat)
      end).

check_hash(Caps, Els) ->
    case Caps#caps.hash of
	"md5" ->
	    Caps#caps.version == make_disco_hash(Els, md5);
	"sha-1" ->
	    Caps#caps.version == make_disco_hash(Els, sha1);
	"sha-224" ->
	    Caps#caps.version == make_disco_hash(Els, sha224);
	"sha-256" ->
	    Caps#caps.version == make_disco_hash(Els, sha256);
	"sha-384" ->
	    Caps#caps.version == make_disco_hash(Els, sha384);
	"sha-512" ->
	    Caps#caps.version == make_disco_hash(Els, sha512);
	_ ->
	    true
    end.
-endif.

concat_features(Els) ->
    lists:usort(
      lists:flatmap(
	fun({xmlelement, "feature", Attrs, _}) ->
		[[xml:get_attr_s("var", Attrs), $<]];
	   (_) ->
		[]
	end, Els)).

concat_identities(Els) ->
    lists:sort(
      lists:flatmap(
	fun({xmlelement, "identity", Attrs, _}) ->
		[[xml:get_attr_s("category", Attrs), $/,
		  xml:get_attr_s("type", Attrs), $/,
		  xml:get_attr_s("xml:lang", Attrs), $/,
		  xml:get_attr_s("name", Attrs), $<]];
	   (_) ->
		[]
	end, Els)).

concat_info(Els) ->
    lists:sort(
      lists:flatmap(
	fun({xmlelement, "x", Attrs, Fields}) ->
		case {xml:get_attr_s("xmlns", Attrs),
		      xml:get_attr_s("type", Attrs)} of
		    {?NS_XDATA, "result"} ->
			[concat_xdata_fields(Fields)];
		    _ ->
			[]
		end;
	   (_) ->
		[]
	end, Els)).

concat_xdata_fields(Fields) ->
    [Form, Res] =
	lists:foldl(
	  fun({xmlelement, "field", Attrs, Els} = El,
	      [FormType, VarFields] = Acc) ->
		  case xml:get_attr_s("var", Attrs) of
		      "" ->
			  Acc;
		      "FORM_TYPE" ->
			  [xml:get_subtag_cdata(El, "value"), VarFields];
		      Var ->
			  [FormType,
			   [[[Var, $<],
			     lists:sort(
			       lists:flatmap(
				 fun({xmlelement, "value", _, VEls}) ->
					 [[xml:get_cdata(VEls), $<]];
				    (_) ->
					 []
				 end, Els))] | VarFields]]
		  end;
	     (_, Acc) ->
		  Acc
	  end, ["", []], Fields),
    [Form, $<, lists:sort(Res)].

gb_trees_fold(F, Acc, Tree) ->
    Iter = gb_trees:iterator(Tree),
    gb_trees_fold_iter(F, Acc, Iter).

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.

now_ts() ->
    {MegaSecs, Secs, _} = now(),
    MegaSecs*1000000 + Secs.