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%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1998-2010. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% %CopyrightEnd%
%%
-module(inet_gethost_native).
-behaviour(supervisor_bridge).

%% Supervisor bridge exports
-export([start_link/0, init/1, terminate/2, start_raw/0, run_once/0]).

%% Server export
-export([server_init/2, main_loop/1]).

%% API exports
-export([gethostbyname/1, gethostbyname/2, gethostbyaddr/1, control/1]).

%%% Exports for sys:handle_system_msg/6
-export([system_continue/3, system_terminate/4, system_code_change/4]).

-include_lib("kernel/include/inet.hrl").

-define(PROCNAME_SUP, inet_gethost_native_sup).

-define(OP_GETHOSTBYNAME,1).
-define(OP_GETHOSTBYADDR,2).
-define(OP_CANCEL_REQUEST,3).
-define(OP_CONTROL,4).

-define(PROTO_IPV4,1).
-define(PROTO_IPV6,2).

%% OP_CONTROL
-define(SETOPT_DEBUG_LEVEL, 0).

-define(UNIT_ERROR,0).
-define(UNIT_IPV4,4).
-define(UNIT_IPV6,16).

-define(PORT_PROGRAM, "inet_gethost").
-define(DEFAULT_POOLSIZE, 4).
-define(REQUEST_TIMEOUT, (inet_db:res_option(timeout)*4)).

-define(MAX_TIMEOUT, 16#7FFFFFF).
-define(INVALID_SERIAL, 16#FFFFFFFF).

%-define(DEBUG,1).
-ifdef(DEBUG).
-define(dbg(A,B), io:format(A,B)).
-else.
-define(dbg(A,B), noop).
-endif.

-define(SEND_AFTER(A,B,C),erlang:send_after(A,B,C)).
-define(CANCEL_TIMER(A),erlang:cancel_timer(A)).

%% In erlang, IPV6 addresses are built as 8-tuples of 16bit values (not 16-tuples of octets).
%% This macro, meant to be used in guards checks one such 16bit value in the 8-tuple.
-define(VALID_V6(Part), is_integer(Part), Part < 65536).
%% The regular IPV4 addresses are represented as 4-tuples of octets, this macro,
%% meant to be used in guards, check one such octet.
-define(VALID_V4(Part), is_integer(Part), Part < 256).

% Requests, one per unbique request to the PORT program, may be more than one client!!!
-record(request, {
	  rid, % Request id as sent to port
	  op,
	  proto,
	  rdata,
	  clients = [] % Can be more than one client per request (Pid's). 
}).


% Statistics, not used yet.
-record(statistics, {
	  netdb_timeout = 0,
	  netdb_internal = 0,
	  port_crash = 0,
	  notsup = 0,
	  host_not_found = 0,
	  try_again = 0,
	  no_recovery = 0,
	  no_data = 0
}).

% The main loopstate...
-record(state, {
	  port = noport, % Port() connected to the port program
	  timeout = 8000, % Timeout value from inet_db:res_option
	  requests, % Table of request
	  req_index, % Table of {{op,proto,rdata},rid}
	  parent,    % The supervisor bridge
	  pool_size = 4, % Number of C processes in pool.
	  statistics % Statistics record (records error causes).
}).
-type state() :: #state{}.

%% The supervisor bridge code
-spec init([]) -> {'ok', pid(), pid()} | {'error', term()}.

init([]) -> % Called by supervisor_bridge:start_link
    Ref = make_ref(),
    SaveTE = process_flag(trap_exit,true),
    Pid = spawn_link(?MODULE,server_init,[self(),Ref]),
    receive
	Ref ->
	    process_flag(trap_exit,SaveTE),
	    {ok, Pid, Pid};
	{'EXIT', Pid, Message} ->
	    process_flag(trap_exit,SaveTE),
	    {error, Message}
    after 10000 ->
	    process_flag(trap_exit,SaveTE),
	    {error, {timeout, ?MODULE}}
    end.

start_link() ->
    supervisor_bridge:start_link({local, ?PROCNAME_SUP}, ?MODULE, []).

%% Only used in fallback situations, no supervisor, no bridge, serve only until
%% no requests present...
start_raw() ->
    spawn(?MODULE,run_once,[]).

run_once() ->
    Port = do_open_port(get_poolsize(), get_extra_args()),
    Timeout = ?REQUEST_TIMEOUT,
    {Pid, R, Request} = 
	receive
	    {{Pid0,R0}, {?OP_GETHOSTBYNAME, Proto0, Name0}} ->
		{Pid0, R0, 
		 [<<1:32, ?OP_GETHOSTBYNAME:8, Proto0:8>>,Name0,0]};
	    {{Pid1,R1}, {?OP_GETHOSTBYADDR, Proto1, Data1}}  ->
		{Pid1, R1, 
		 <<1:32, ?OP_GETHOSTBYADDR:8, Proto1:8, Data1/binary>>}
	after Timeout ->
		exit(normal)
	end,
    (catch port_command(Port, Request)),
    receive
	{Port, {data, <<1:32, BinReply/binary>>}} ->
	    Pid ! {R, {ok, BinReply}}
    after Timeout ->
	    Pid ! {R,{error,timeout}}
    end.

-spec terminate(term(), pid()) -> 'ok'.

terminate(_Reason, Pid) ->
    (catch exit(Pid, kill)),
    ok.

%%-----------------------------------------------------------------------
%% Server API
%%-----------------------------------------------------------------------
server_init(Starter, Ref) ->
    process_flag(trap_exit,true),
    case whereis(?MODULE) of
	undefined ->
	    case (catch register(?MODULE,self())) of
		true ->
		    Starter ! Ref;
		_->
		    exit({already_started,whereis(?MODULE)})
	    end;
	Winner ->
	   exit({already_started,Winner})
    end,
    Poolsize = get_poolsize(),
    Port = do_open_port(Poolsize, get_extra_args()),
    Timeout = ?REQUEST_TIMEOUT,
    put(rid,0),
    put(num_requests,0),
    RequestTab = ets:new(ign_requests,[{keypos,#request.rid},set,protected]),
    RequestIndex = ets:new(ign_req_index,[set,protected]),
    State = #state{port = Port, timeout = Timeout, requests = RequestTab,
		   req_index = RequestIndex, 
		   pool_size = Poolsize,
		   statistics = #statistics{},
		   parent = Starter},
    main_loop(State).

main_loop(State) ->
    receive
	Any -> 
	    handle_message(Any,State)
    end.

handle_message({{Pid,_} = Client, {?OP_GETHOSTBYNAME, Proto, Name} = R}, 
	       State) when is_pid(Pid) ->
    NewState = do_handle_call(R,Client,State,
			      [<<?OP_GETHOSTBYNAME:8, Proto:8>>, Name,0]),
    main_loop(NewState);

handle_message({{Pid,_} = Client, {?OP_GETHOSTBYADDR, Proto, Data} = R}, 
	       State) when is_pid(Pid) ->
    NewState = do_handle_call(R,Client,State,
			      <<?OP_GETHOSTBYADDR:8, Proto:8, Data/binary>>),
    main_loop(NewState);

handle_message({{Pid,Ref}, {?OP_CONTROL, Ctl, Data}}, State)
  when is_pid(Pid) ->
    catch port_command(State#state.port, 
		       <<?INVALID_SERIAL:32, ?OP_CONTROL:8, 
			Ctl:8, Data/binary>>),
    Pid ! {Ref, ok},
    main_loop(State);

handle_message({{Pid,Ref}, restart_port}, State)
  when is_pid(Pid) ->
    NewPort=restart_port(State),
    Pid ! {Ref, ok},
    main_loop(State#state{port=NewPort});

handle_message({Port, {data, Data}}, State = #state{port = Port}) ->
    NewState = case Data of
		   <<RID:32, BinReply/binary>> ->
		       case BinReply of
			   <<Unit, _/binary>> when Unit =:= ?UNIT_ERROR;
						   Unit =:= ?UNIT_IPV4;
						   Unit =:= ?UNIT_IPV6 ->
			       case pick_request(State,RID) of
				   false ->
				       State;
				   Req ->
				       lists:foreach(fun({P,R,TR}) ->
							     ?CANCEL_TIMER(TR),
							     P ! {R,
								  {ok,
								   BinReply}}
						     end,
						     Req#request.clients),
				       State
			       end;
			   _UnitError ->
			       %% Unexpected data, let's restart it, 
			       %% it must be broken.
			       NewPort=restart_port(State),
			       State#state{port=NewPort}
		       end;
		   _BasicFormatError ->
		       NewPort=restart_port(State),
		       State#state{port=NewPort}
	       end,    
    main_loop(NewState);
	
handle_message({'EXIT',Port,_Reason}, State = #state{port = Port}) -> 
    ?dbg("Port died.~n",[]),
    NewPort=restart_port(State),
    main_loop(State#state{port=NewPort});

handle_message({Port,eof}, State = #state{port = Port}) ->
    ?dbg("Port eof'ed.~n",[]),
    NewPort=restart_port(State),
    main_loop(State#state{port=NewPort});

handle_message({timeout, Pid, RID}, State) ->
    case pick_client(State,RID,Pid) of
	false ->
	    false;
	{more, {P,R,_}} ->
	    P ! {R,{error,timeout}};
	{last, {LP,LR,_}} ->
	    LP ! {LR, {error,timeout}},
	    %% Remove the whole request structure...
	    pick_request(State, RID),
	    %% Also cancel the request to the port program...
	    (catch port_command(State#state.port, 
				<<RID:32,?OP_CANCEL_REQUEST>>))
    end,
    main_loop(State);

handle_message({system, From, Req}, State) ->
	    sys:handle_system_msg(Req, From, State#state.parent, ?MODULE, [], 
				  State);

handle_message(_, State) -> % Stray messages from dying ports etc.
    main_loop(State).


do_handle_call(R,Client0,State,RData) ->
    Req = find_request(State,R),
    Timeout = State#state.timeout,
    {P,Ref} = Client0,
    TR = ?SEND_AFTER(Timeout,self(),{timeout, P, Req#request.rid}),
    Client = {P,Ref,TR},
    case Req#request.clients of
	[] ->
	    RealRData = [<<(Req#request.rid):32>>|RData],
	    (catch port_command(State#state.port, RealRData)),
	    ets:insert(State#state.requests,Req#request{clients = [Client]});
	Tail ->
	    ets:insert(State#state.requests,Req#request{clients = [Client | Tail]})
    end,
    State.

find_request(State, R = {Op, Proto, Data}) ->
    case ets:lookup(State#state.req_index,R) of
	[{R, Rid}] ->
	    [Ret] = ets:lookup(State#state.requests,Rid),
	    Ret;
	[] ->
	    NRid = get_rid(),
	    Req = #request{rid = NRid, op = Op, proto = Proto, rdata = Data},
	    ets:insert(State#state.requests, Req),
	    ets:insert(State#state.req_index,{R,NRid}),
	    put(num_requests,get(num_requests) + 1),
	    Req
    end.
    
pick_request(State, RID) ->
    case ets:lookup(State#state.requests, RID) of
	[] ->
	    false;
	[#request{rid = RID, op = Op, proto = Proto, rdata = Data}=R] ->
	    ets:delete(State#state.requests,RID),
	    ets:delete(State#state.req_index,{Op,Proto,Data}),
	    put(num_requests,get(num_requests) - 1),
	    R
    end.

pick_client(State,RID,Clid) ->
    case ets:lookup(State#state.requests, RID) of
	[] ->
	    false;
	[R] ->
	    case R#request.clients of
		[SoleClient] ->
		    {last, SoleClient}; % Note, not removed, the caller 
					% should cleanup request data
		CList ->
		    case lists:keysearch(Clid,1,CList) of
			{value, Client} ->
			    NCList = lists:keydelete(Clid,1,CList),
			    ets:insert(State#state.requests, 
				       R#request{clients = NCList}),
			    {more, Client};
			false ->
			    false
		    end
	    end
    end.

get_rid () ->
    New = (get(rid) + 1) rem 16#7FFFFFF,
    put(rid,New),
    New.


foreach(Fun,Table) ->
    foreach(Fun,Table,ets:first(Table)).

foreach(_Fun,_Table,'$end_of_table') ->
    ok;
foreach(Fun,Table,Key) ->
    [Object] = ets:lookup(Table,Key),
    Fun(Object),
    foreach(Fun,Table,ets:next(Table,Key)).

restart_port(#state{port = Port, requests = Requests}) ->
    (catch port_close(Port)),
    NewPort = do_open_port(get_poolsize(), get_extra_args()),
    foreach(fun(#request{rid = Rid, op = Op, proto = Proto, rdata = Rdata}) ->
		    case Op of 
			?OP_GETHOSTBYNAME ->
			    port_command(NewPort,[<<Rid:32,?OP_GETHOSTBYNAME:8,
						  Proto:8>>,
						  Rdata,0]);
			?OP_GETHOSTBYADDR ->
			    port_command(NewPort,
					 <<Rid:32,?OP_GETHOSTBYADDR:8, Proto:8,
					 Rdata/binary>>)
		    end
	    end,
	    Requests),
    NewPort.
			    
    

do_open_port(Poolsize, ExtraArgs) ->
    try 
	open_port({spawn, 
		   ?PORT_PROGRAM++" "++integer_to_list(Poolsize)++" "++
		   ExtraArgs},
		  [{packet,4},eof,binary,overlapped_io])
    catch
	error:_ ->
	    open_port({spawn, 
		       ?PORT_PROGRAM++" "++integer_to_list(Poolsize)++
		       " "++ExtraArgs},
		      [{packet,4},eof,binary])
    end.

get_extra_args() ->
    FirstPart = case application:get_env(kernel, gethost_prioritize) of
		    {ok, false} ->
			" -ng";
		    _ ->
			""
		end,
    case application:get_env(kernel, gethost_extra_args) of
	{ok, L} when is_list(L) ->
	    FirstPart++" "++L;
	_ ->
	    FirstPart++""
    end.

get_poolsize() ->
    case application:get_env(kernel, gethost_poolsize) of
	{ok,I} when is_integer(I) ->
	    I;
	_ ->
	    ?DEFAULT_POOLSIZE
    end.

%%------------------------------------------------------------------
%% System messages callbacks
%%------------------------------------------------------------------

system_continue(_Parent, _, State) ->
    main_loop(State).

system_terminate(Reason, _Parent, _, _State) ->
    exit(Reason).

-spec system_code_change(state(), module(), term(), term()) -> {'ok', state()}.
system_code_change(State, _Module, _OldVsn, _Extra) ->
    {ok, State}. %% Nothing to do in this version.


%%-----------------------------------------------------------------------
%% Client API
%%-----------------------------------------------------------------------

gethostbyname(Name) ->
    gethostbyname(Name, inet).

gethostbyname(Name, inet) when is_list(Name) ->
    getit(?OP_GETHOSTBYNAME, ?PROTO_IPV4, Name, Name);
gethostbyname(Name, inet6) when is_list(Name) ->
    getit(?OP_GETHOSTBYNAME, ?PROTO_IPV6, Name, Name);
gethostbyname(Name, Type) when is_atom(Name) ->
    gethostbyname(atom_to_list(Name), Type);
gethostbyname(_, _)  ->
    {error, formerr}.

gethostbyaddr({A,B,C,D}=Addr)
  when ?VALID_V4(A), ?VALID_V4(B), ?VALID_V4(C), ?VALID_V4(D) ->
    getit(?OP_GETHOSTBYADDR, ?PROTO_IPV4, <<A,B,C,D>>, Addr);
gethostbyaddr({A,B,C,D,E,F,G,H}=Addr)
  when ?VALID_V6(A), ?VALID_V6(B), ?VALID_V6(C), ?VALID_V6(D),
       ?VALID_V6(E), ?VALID_V6(F), ?VALID_V6(G), ?VALID_V6(H) ->
    getit
      (?OP_GETHOSTBYADDR, ?PROTO_IPV6,
       <<A:16,B:16,C:16,D:16,E:16,F:16,G:16,H:16>>, Addr);
gethostbyaddr(Addr) when is_list(Addr) ->
    case inet_parse:address(Addr) of
        {ok, IP} -> gethostbyaddr(IP);
        _Error -> {error, formerr}
    end;
gethostbyaddr(Addr) when is_atom(Addr) ->
    gethostbyaddr(atom_to_list(Addr));
gethostbyaddr(_) -> {error, formerr}.

control({debug_level, Level}) when is_integer(Level) ->
    getit(?OP_CONTROL, ?SETOPT_DEBUG_LEVEL, <<Level:32>>, undefined);
control(soft_restart) ->
    getit(restart_port, undefined);
control(_) -> {error, formerr}.

getit(Op, Proto, Data, DefaultName) ->
    getit({Op, Proto, Data}, DefaultName).

getit(Req, DefaultName) ->
    Pid = ensure_started(),
    Ref = make_ref(),
    Pid ! {{self(),Ref}, Req},
    receive
	{Ref, {ok,BinHostent}} ->
	    parse_address(BinHostent, DefaultName);
	{Ref, Result} ->
	    Result
    after 5000 ->
	    Ref2 = erlang:monitor(process,Pid),
	    Res2 = receive
		       {Ref, {ok,BinHostent}} ->
			   parse_address(BinHostent, DefaultName);
		       {Ref, Result} ->
			   Result;
		       {'DOWN', Ref2, process, 
			Pid, Reason} ->
			   {error, Reason}
		   end,
	    catch erlang:demonitor(Ref2),
	    receive {'DOWN',Ref2,_,_,_} -> ok after 0 -> ok end,
	    Res2
    end.

do_start(Sup, C) ->
    {Child,_,_,_,_,_} = C,
    case supervisor:start_child(Sup,C) of
	{ok,_} ->
	    ok;
	{error, {already_started, Pid}} when is_pid(Pid) ->
	    ok;
	{error, {{already_started, Pid}, _Child}} when is_pid(Pid) ->
	    ok;
	{error, already_present} ->
	    supervisor:delete_child(Sup, Child),
	    do_start(Sup, C)
    end.

ensure_started() ->
    case whereis(?MODULE) of
	undefined -> 
	    C = {?PROCNAME_SUP, {?MODULE, start_link, []}, temporary, 
		 1000, worker, [?MODULE]},
	    case whereis(kernel_safe_sup) of
		undefined ->
		    case whereis(net_sup) of
			undefined ->
			    %% Icky fallback, run once without supervisor
			    start_raw();
			_ ->
			    do_start(net_sup,C),
			    case whereis(?MODULE) of
				undefined ->
				    exit({could_not_start_server, ?MODULE});
				Pid0 ->
				    Pid0
			    end
		    end;
		_ ->
		    do_start(kernel_safe_sup,C),
		    case whereis(?MODULE) of
			undefined ->
			    exit({could_not_start_server, ?MODULE});
			Pid1 ->
			    Pid1
		    end
	    end;
	Pid -> 
	    Pid
    end.

parse_address(BinHostent, DefaultName) ->
    case catch 
	begin
	    case BinHostent of
		<<?UNIT_ERROR, Errstring/binary>> -> 
		    {error, list_to_atom(listify(Errstring))};
		<<?UNIT_IPV4, Naddr:32, T0/binary>> ->
		    {T1, Addresses} = pick_addresses_v4(Naddr, T0),
		    {Name, Names} =
			expand_default_name(pick_names(T1), DefaultName),
		    {ok, #hostent{h_addr_list = Addresses, h_addrtype = inet,
				  h_aliases = Names, h_length = ?UNIT_IPV4, 
				  h_name = Name}};
		<<?UNIT_IPV6, Naddr:32, T0/binary>> ->
		    {T1, Addresses} = pick_addresses_v6(Naddr, T0),
		    {Name, Names} =
			expand_default_name(pick_names(T1), DefaultName),
		    {ok, #hostent{h_addr_list = Addresses, h_addrtype = inet6,
				  h_aliases = Names, h_length = ?UNIT_IPV6, 
				  h_name = Name}};
		_Else ->
		    {error, {internal_error, {malformed_response, BinHostent}}}
	    end
	end of
	{'EXIT', Reason} ->
	    Reason;
	Normal ->
	    Normal
    end.

expand_default_name([], DefaultName) when is_list(DefaultName) ->
    {DefaultName, []};
expand_default_name([], DefaultName) when is_tuple(DefaultName) ->
    {inet_parse:ntoa(DefaultName), []};
expand_default_name([Name|Names], DefaultName)
  when is_list(DefaultName); is_tuple(DefaultName) ->
    {Name, Names}.

listify(Bin) ->
    N = byte_size(Bin) - 1,
    <<Bin2:N/binary, Ch>> = Bin,
    case Ch of
	0 ->
	    listify(Bin2);
	_ ->
	    binary_to_list(Bin)
    end.
    
pick_addresses_v4(0,Tail) ->
    {Tail,[]};
pick_addresses_v4(N,<<A,B,C,D,Tail/binary>>) ->
    {NTail, OList} = pick_addresses_v4(N-1,Tail),
    {NTail, [{A,B,C,D} | OList]}.

pick_addresses_v6(0,Tail) ->
    {Tail,[]};
pick_addresses_v6(Num,<<A:16,B:16,C:16,D:16,E:16,F:16,G:16,H:16,
		  Tail/binary>>) ->
    {NTail, OList} = pick_addresses_v6(Num-1,Tail),
    {NTail, [{A,B,C,D,E,F,G,H} | OList]}.

ndx(Ch,Bin) ->
    ndx(Ch,0,byte_size(Bin),Bin).

ndx(_,N,N,_) ->
    undefined;
ndx(Ch,I,N,Bin) ->
    case Bin of
	<<_:I/binary,Ch,_/binary>> ->
	    I;
	_ ->
	    ndx(Ch,I+1,N,Bin)
    end.

pick_names(<<Length:32,Namelist/binary>>) ->
    pick_names(Length,Namelist).

pick_names(0,<<>>) ->
    [];
pick_names(0,_) ->
    exit({error,format_error});
pick_names(_N,<<>>) ->
    exit({error,format_error});
pick_names(N,Bin) ->
    Ndx = ndx(0,Bin),
    <<Str:Ndx/binary,0,Rest/binary>> = Bin,
    [binary_to_list(Str)|pick_names(N-1,Rest)].