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-rw-r--r--erts/preloaded/src/prim_inet.erl557
1 files changed, 387 insertions, 170 deletions
diff --git a/erts/preloaded/src/prim_inet.erl b/erts/preloaded/src/prim_inet.erl
index fb1269cf91..560810d222 100644
--- a/erts/preloaded/src/prim_inet.erl
+++ b/erts/preloaded/src/prim_inet.erl
@@ -1,18 +1,19 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 2000-2013. All Rights Reserved.
+%% Copyright Ericsson AB 2000-2016. 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.
+%% Licensed under the Apache License, Version 2.0 (the "License");
+%% you may not use this file except in compliance with the License.
+%% You may obtain a copy of the License at
+%%
+%% http://www.apache.org/licenses/LICENSE-2.0
+%%
+%% Unless required by applicable law or agreed to in writing, software
+%% distributed under the License is distributed on an "AS IS" BASIS,
+%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+%% See the License for the specific language governing permissions and
+%% limitations under the License.
%%
%% %CopyrightEnd%
%%
@@ -25,7 +26,7 @@
%% Primitive inet_drv interface
--export([open/3, fdopen/4, close/1]).
+-export([open/3, open/4, fdopen/4, fdopen/5, close/1]).
-export([bind/3, listen/1, listen/2, peeloff/2]).
-export([connect/3, connect/4, async_connect/4]).
-export([accept/1, accept/2, async_accept/2]).
@@ -41,8 +42,8 @@
getifaddrs/1, getiflist/1, ifget/3, ifset/3,
gethostname/1]).
-export([getservbyname/3, getservbyport/3]).
--export([peername/1, setpeername/2]).
--export([sockname/1, setsockname/2]).
+-export([peername/1, setpeername/2, peernames/1, peernames/2]).
+-export([sockname/1, setsockname/2, socknames/1, socknames/2]).
-export([attach/1, detach/1]).
-include("inet_sctp.hrl").
@@ -64,22 +65,38 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
open(Protocol, Family, Type) ->
- open(Protocol, Family, Type, ?INET_REQ_OPEN, []).
+ open(Protocol, Family, Type, [], ?INET_REQ_OPEN, []).
+
+open(Protocol, Family, Type, Opts) ->
+ open(Protocol, Family, Type, Opts, ?INET_REQ_OPEN, []).
+
+%% FDOPEN(tcp|udp|sctp, inet|inet6|local, stream|dgram|seqpacket, integer())
fdopen(Protocol, Family, Type, Fd) when is_integer(Fd) ->
- open(Protocol, Family, Type, ?INET_REQ_FDOPEN, ?int32(Fd)).
+ fdopen(Protocol, Family, Type, Fd, true).
+
+fdopen(Protocol, Family, Type, Fd, Bound)
+ when is_integer(Fd), is_boolean(Bound) ->
+ open(Protocol, Family, Type, [], ?INET_REQ_FDOPEN,
+ [?int32(Fd), enc_value_2(bool, Bound)]).
-open(Protocol, Family, Type, Req, Data) ->
+open(Protocol, Family, Type, Opts, Req, Data) ->
Drv = protocol2drv(Protocol),
AF = enc_family(Family),
T = enc_type(Type),
try erlang:open_port({spawn_driver,Drv}, [binary]) of
S ->
- case ctl_cmd(S, Req, [AF,T,Data]) of
- {ok,_} -> {ok,S};
- {error,_}=Error ->
+ case setopts(S, Opts) of
+ ok ->
+ case ctl_cmd(S, Req, [AF,T,Data]) of
+ {ok,_} -> {ok,S};
+ {error,_}=E1 ->
+ close(S),
+ E1
+ end;
+ {error,_}=E2 ->
close(S),
- Error
+ E2
end
catch
%% The only (?) way to get here is to try to open
@@ -89,8 +106,9 @@ open(Protocol, Family, Type, Req, Data) ->
error:system_limit -> {error, system_limit}
end.
-enc_family(inet) -> ?INET_AF_INET;
-enc_family(inet6) -> ?INET_AF_INET6.
+enc_family(inet) -> ?INET_AF_INET;
+enc_family(inet6) -> ?INET_AF_INET6;
+enc_family(local) -> ?INET_AF_LOCAL.
enc_type(stream) -> ?INET_TYPE_STREAM;
enc_type(dgram) -> ?INET_TYPE_DGRAM;
@@ -113,37 +131,18 @@ drv2protocol(_) -> undefined.
%% TODO: shutdown equivalent for SCTP
%%
shutdown(S, read) when is_port(S) ->
- shutdown_2(S, 0);
+ shutdown_1(S, 0);
shutdown(S, write) when is_port(S) ->
shutdown_1(S, 1);
shutdown(S, read_write) when is_port(S) ->
shutdown_1(S, 2).
shutdown_1(S, How) ->
- case subscribe(S, [subs_empty_out_q]) of
- {ok,[{subs_empty_out_q,N}]} when N > 0 ->
- shutdown_pend_loop(S, N); %% wait for pending output to be sent
- _Other -> ok
- end,
- shutdown_2(S, How).
-
-shutdown_2(S, How) ->
case ctl_cmd(S, ?TCP_REQ_SHUTDOWN, [How]) of
{ok, []} -> ok;
{error,_}=Error -> Error
end.
-shutdown_pend_loop(S, N0) ->
- receive
- {empty_out_q,S} -> ok
- after ?INET_CLOSE_TIMEOUT ->
- case getstat(S, [send_pend]) of
- {ok,[{send_pend,N0}]} -> ok;
- {ok,[{send_pend,N}]} -> shutdown_pend_loop(S, N);
- _ -> ok
- end
- end.
-
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
%% CLOSE(insock()) -> ok
@@ -151,11 +150,16 @@ shutdown_pend_loop(S, N0) ->
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
close(S) when is_port(S) ->
- case subscribe(S, [subs_empty_out_q]) of
- {ok, [{subs_empty_out_q,N}]} when N > 0 ->
- close_pend_loop(S, N); %% wait for pending output to be sent
+ case getopt(S, linger) of
+ {ok,{true,0}} ->
+ close_port(S);
_ ->
- close_port(S)
+ case subscribe(S, [subs_empty_out_q]) of
+ {ok, [{subs_empty_out_q,N}]} when N > 0 ->
+ close_pend_loop(S, N); %% wait for pending output to be sent
+ _ ->
+ close_port(S)
+ end
end.
close_pend_loop(S, N) ->
@@ -177,32 +181,8 @@ close_pend_loop(S, N) ->
end.
close_port(S) ->
- case erlang:process_info(self(), trap_exit) of
- {trap_exit,true} ->
- %% Ensure exit message and consume it
- link(S),
- %% This is still not a perfect solution.
- %%
- %% The problem is to close the port and consume any exit
- %% message while not knowing if this process traps exit
- %% nor if this process has a link to the port. Here we
- %% just knows that this process traps exit.
- %%
- %% If we right here get killed for some reason that exit
- %% signal will propagate to the port and onwards to anyone
- %% that is linked to the port. E.g when we close a socket
- %% that is not ours.
- %%
- %% The problem can be solved with lists:member on our link
- %% list but we deem that as potentially too expensive. We
- %% need an is_linked/1 function or guard, or we need
- %% a port_close function that can atomically unlink...
- catch erlang:port_close(S),
- receive {'EXIT',S,_} -> ok end;
- {trap_exit,false} ->
- catch erlang:port_close(S),
- ok
- end.
+ catch erlang:port_close(S),
+ receive {'EXIT',S,_} -> ok after 0 -> ok end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
@@ -212,41 +192,52 @@ close_port(S) ->
%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-bind(S,IP,Port) when is_port(S), is_integer(Port), Port >= 0, Port =< 65535 ->
- case ctl_cmd(S,?INET_REQ_BIND,enc_value(set, addr, {IP,Port})) of
- {ok, [P1,P0]} -> {ok, ?u16(P1, P0)};
- {error,_}=Error -> Error
- end;
-
%% Multi-homed "bind": sctp_bindx(). The Op is 'add' or 'remove'.
%% If no addrs are specified, it just does nothing.
%% Function returns {ok, S} on success, unlike TCP/UDP "bind":
-bind(S, Op, Addrs) when is_port(S), is_list(Addrs) ->
- case Op of
- add ->
- bindx(S, 1, Addrs);
- remove ->
- bindx(S, 0, Addrs);
- _ -> {error, einval}
+bind(S, add, Addrs) when is_port(S), is_list(Addrs) ->
+ bindx(S, 1, Addrs);
+bind(S, remove, Addrs) when is_port(S), is_list(Addrs) ->
+ bindx(S, 0, Addrs);
+bind(S, Addr, _) when is_port(S), tuple_size(Addr) =:= 2 ->
+ case type_value(set, addr, Addr) of
+ true ->
+ case ctl_cmd(S,?INET_REQ_BIND,enc_value(set, addr, Addr)) of
+ {ok, [P1,P0]} -> {ok, ?u16(P1, P0)};
+ {error, _} = Error -> Error
+ end;
+ false ->
+ {error, einval}
end;
-bind(_, _, _) -> {error, einval}.
+bind(S, IP, Port) ->
+ bind(S, {IP, Port}, 0).
bindx(S, AddFlag, Addrs) ->
case getprotocol(S) of
sctp ->
- %% Really multi-homed "bindx". Stringified args:
- %% [AddFlag, (AddrBytes see enc_value_2(addr,X))+]:
- Args =
- [?int8(AddFlag)|
- [enc_value(set, addr, {IP,Port}) ||
- {IP, Port} <- Addrs]],
- case ctl_cmd(S, ?SCTP_REQ_BINDX, Args) of
- {ok,_} -> {ok, S};
- {error,_}=Error -> Error
+ case bindx_check_addrs(Addrs) of
+ true ->
+ %% Really multi-homed "bindx". Stringified args:
+ %% [AddFlag, (AddrBytes see enc_value_2(addr,X))+]:
+ Args =
+ [?int8(AddFlag)|
+ [enc_value(set, addr, Addr) || Addr <- Addrs]],
+ case ctl_cmd(S, ?SCTP_REQ_BINDX, Args) of
+ {ok, _} -> {ok, S};
+ {error, _}=Error -> Error
+ end;
+ false ->
+ {error, einval}
end;
- _ -> {error, einval}
+ _ ->
+ {error, einval}
end.
+bindx_check_addrs([Addr|Addrs]) ->
+ type_value(set, addr, Addr) andalso bindx_check_addrs(Addrs);
+bindx_check_addrs([]) ->
+ true.
+
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
%% CONNECT(insock(), IP, Port [,Timeout]) -> ok | {error, Reason}
@@ -255,7 +246,7 @@ bindx(S, AddFlag, Addrs) ->
%% if timeout is given:
%% timeout < 0 -> infinity
%% 0 -> immediate connect (mostly works for loopback)
-%% > 0 -> wait for timout ms if not connected then
+%% > 0 -> wait for timeout ms if not connected then
%% return {error, timeout}
%%
%% ASYNC_CONNECT(insock(), IP, Port, Timeout) -> {ok, S, Ref} | {error, Reason}
@@ -265,14 +256,24 @@ bindx(S, AddFlag, Addrs) ->
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% For TCP, UDP or SCTP sockets.
%%
-connect(S, IP, Port) -> connect0(S, IP, Port, -1).
-connect(S, IP, Port, infinity) -> connect0(S, IP, Port, -1);
-connect(S, IP, Port, Time) -> connect0(S, IP, Port, Time).
+connect(S, IP, Port) ->
+ connect(S, IP, Port, infinity).
+%%
+connect(S, Addr, _, Time) when is_port(S), tuple_size(Addr) =:= 2 ->
+ case type_value(set, addr, Addr) of
+ true when Time =:= infinity ->
+ connect0(S, Addr, -1);
+ true when is_integer(Time) ->
+ connect0(S, Addr, Time);
+ false ->
+ {error, einval}
+ end;
+connect(S, IP, Port, Time) ->
+ connect(S, {IP, Port}, 0, Time).
-connect0(S, IP, Port, Time) when is_port(S), Port > 0, Port =< 65535,
- is_integer(Time) ->
- case async_connect(S, IP, Port, Time) of
+connect0(S, Addr, Time) ->
+ case async_connect0(S, Addr, Time) of
{ok, S, Ref} ->
receive
{inet_async, S, Ref, Status} ->
@@ -281,11 +282,27 @@ connect0(S, IP, Port, Time) when is_port(S), Port > 0, Port =< 65535,
Error -> Error
end.
+
+async_connect(S, Addr, _, Time) when is_port(S), tuple_size(Addr) =:= 2 ->
+ case type_value(set, addr, Addr) of
+ true when Time =:= infinity ->
+ async_connect0(S, Addr, -1);
+ true when is_integer(Time) ->
+ async_connect0(S, Addr, Time);
+ false ->
+ {error, einval}
+ end;
+%%
async_connect(S, IP, Port, Time) ->
- case ctl_cmd(S, ?INET_REQ_CONNECT,
- [enc_time(Time),?int16(Port),ip_to_bytes(IP)]) of
+ async_connect(S, {IP, Port}, 0, Time).
+
+async_connect0(S, Addr, Time) ->
+ case ctl_cmd(
+ S, ?INET_REQ_CONNECT,
+ [enc_time(Time),enc_value(set, addr, Addr)])
+ of
{ok, [R1,R0]} -> {ok, S, ?u16(R1,R0)};
- {error,_}=Error -> Error
+ {error, _}=Error -> Error
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@@ -296,7 +313,7 @@ async_connect(S, IP, Port, Time) ->
%% if timeout is given:
%% timeout < 0 -> infinity
%% 0 -> immediate accept (poll)
-%% > 0 -> wait for timout ms for accept if no accept then
+%% > 0 -> wait for timeout ms for accept if no accept then
%% return {error, timeout}
%%
%% ASYNC_ACCEPT(insock(), Timeout)
@@ -423,20 +440,34 @@ send(S, Data) ->
%% "sendto" is for UDP. IP and Port are set by the caller to 0 if the socket
%% is known to be connected.
-sendto(S, IP, Port, Data) when is_port(S), Port >= 0, Port =< 65535 ->
- ?DBG_FORMAT("prim_inet:sendto(~p, ~p, ~p, ~p)~n", [S,IP,Port,Data]),
- try erlang:port_command(S, [?int16(Port),ip_to_bytes(IP),Data]) of
- true ->
- receive
- {inet_reply,S,Reply} ->
- ?DBG_FORMAT("prim_inet:sendto() -> ~p~n", [Reply]),
- Reply
- end
- catch
- error:_ ->
- ?DBG_FORMAT("prim_inet:sendto() -> {error,einval}~n", []),
- {error,einval}
- end.
+sendto(S, Addr, _, Data) when is_port(S), tuple_size(Addr) =:= 2 ->
+ case type_value(set, addr, Addr) of
+ true ->
+ ?DBG_FORMAT("prim_inet:sendto(~p, ~p, ~p)~n", [S,Addr,Data]),
+ try
+ erlang:port_command(S, [enc_value(set, addr, Addr),Data])
+ of
+ true ->
+ receive
+ {inet_reply,S,Reply} ->
+ ?DBG_FORMAT(
+ "prim_inet:sendto() -> ~p~n", [Reply]),
+ Reply
+ end
+ catch
+ error:_ ->
+ ?DBG_FORMAT(
+ "prim_inet:sendto() -> {error,einval}~n", []),
+ {error,einval}
+ end;
+ false ->
+ ?DBG_FORMAT(
+ "prim_inet:sendto() -> {error,einval}~n", []),
+ {error,einval}
+ end;
+sendto(S, IP, Port, Data) ->
+ sendto(S, {IP, Port}, 0, Data).
+
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
@@ -507,29 +538,37 @@ async_recv(S, Length, Time) ->
%% oriented: preserved here only for API compatibility.
%%
recvfrom(S, Length) ->
- recvfrom0(S, Length, -1).
+ recvfrom(S, Length, infinity).
-recvfrom(S, Length, infinity) ->
+recvfrom(S, Length, infinity) when is_port(S) ->
recvfrom0(S, Length, -1);
-recvfrom(S, Length, Time) when is_integer(Time), Time < 16#ffffffff ->
- recvfrom0(S, Length, Time);
-recvfrom(_, _, _) -> {error,einval}.
+recvfrom(S, Length, Time) when is_port(S) ->
+ if
+ is_integer(Time), 0 =< Time, Time < 16#ffffffff ->
+ recvfrom0(S, Length, Time);
+ true ->
+ {error, einval}
+ end.
recvfrom0(S, Length, Time)
- when is_port(S), is_integer(Length), Length >= 0, Length =< 16#ffffffff ->
+ when is_integer(Length), 0 =< Length, Length =< 16#ffffffff ->
case ctl_cmd(S, ?PACKET_REQ_RECV,[enc_time(Time),?int32(Length)]) of
{ok,[R1,R0]} ->
Ref = ?u16(R1,R0),
receive
% Success, UDP:
- {inet_async, S, Ref, {ok, [F,P1,P0 | AddrData]}} ->
- {IP,Data} = get_ip(F, AddrData),
- {ok, {IP, ?u16(P1,P0), Data}};
+ {inet_async, S, Ref, {ok, [F | AddrData]}} ->
+ case get_addr(F, AddrData) of
+ {{Family, _} = Addr, Data} when is_atom(Family) ->
+ {ok, {Addr, 0, Data}};
+ {{IP, Port}, Data} ->
+ {ok, {IP, Port, Data}}
+ end;
% Success, SCTP:
{inet_async, S, Ref, {ok, {[F,P1,P0 | Addr], AncData, DE}}} ->
- {IP, _} = get_ip(F, Addr),
- {ok, {IP, ?u16(P1,P0), AncData, DE}};
+ {IP, _} = get_ip(F, Addr),
+ {ok, {IP, ?u16(P1, P0), AncData, DE}};
% Back-end error:
{inet_async, S, Ref, Error={error, _}} ->
@@ -548,21 +587,56 @@ recvfrom0(_, _, _) -> {error,einval}.
peername(S) when is_port(S) ->
case ctl_cmd(S, ?INET_REQ_PEER, []) of
- {ok, [F, P1,P0 | Addr]} ->
- {IP, _} = get_ip(F, Addr),
- {ok, { IP, ?u16(P1, P0) }};
- {error,_}=Error -> Error
+ {ok, [F | Addr]} ->
+ {A, _} = get_addr(F, Addr),
+ {ok, A};
+ {error, _} = Error -> Error
end.
-setpeername(S, {IP,Port}) when is_port(S) ->
- case ctl_cmd(S, ?INET_REQ_SETPEER, [?int16(Port),ip_to_bytes(IP)]) of
- {ok,[]} -> ok;
- {error,_}=Error -> Error
- end;
setpeername(S, undefined) when is_port(S) ->
case ctl_cmd(S, ?INET_REQ_SETPEER, []) of
- {ok,[]} -> ok;
- {error,_}=Error -> Error
+ {ok, []} -> ok;
+ {error, _} = Error -> Error
+ end;
+setpeername(S, Addr) when is_port(S) ->
+ case type_value(set, addr, Addr) of
+ true ->
+ case ctl_cmd(S, ?INET_REQ_SETPEER, enc_value(set, addr, Addr)) of
+ {ok, []} -> ok;
+ {error, _} = Error -> Error
+ end;
+ false ->
+ {error, einval}
+ end.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%%
+%% PEERNAMES(insock()) -> {ok, [{IP, Port}, ...]} | {error, Reason}
+%%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+peernames(S) when is_port(S) ->
+ peernames(S, undefined).
+
+peernames(S, #sctp_assoc_change{assoc_id=AssocId}) when is_port(S) ->
+ peernames(S, AssocId);
+peernames(S, AssocId)
+ when is_port(S), is_integer(AssocId);
+ is_port(S), AssocId =:= undefined ->
+ Q = get,
+ Type = [[sctp_assoc_id,0]],
+ case type_value(Q, Type, AssocId) of
+ true ->
+ case ctl_cmd
+ (S, ?INET_REQ_GETPADDRS,
+ enc_value(Q, Type, AssocId)) of
+ {ok,Addrs} ->
+ {ok,get_addrs(Addrs)};
+ Error ->
+ Error
+ end;
+ false ->
+ {error,einval}
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@@ -573,21 +647,58 @@ setpeername(S, undefined) when is_port(S) ->
sockname(S) when is_port(S) ->
case ctl_cmd(S, ?INET_REQ_NAME, []) of
- {ok, [F, P1, P0 | Addr]} ->
- {IP, _} = get_ip(F, Addr),
- {ok, { IP, ?u16(P1, P0) }};
- {error,_}=Error -> Error
+ {ok, [F | Addr]} ->
+ {A, _} = get_addr(F, Addr),
+ {ok, A};
+ {error, _} = Error -> Error
end.
-setsockname(S, {IP,Port}) when is_port(S) ->
- case ctl_cmd(S, ?INET_REQ_SETNAME, [?int16(Port),ip_to_bytes(IP)]) of
- {ok,[]} -> ok;
- {error,_}=Error -> Error
- end;
setsockname(S, undefined) when is_port(S) ->
case ctl_cmd(S, ?INET_REQ_SETNAME, []) of
- {ok,[]} -> ok;
- {error,_}=Error -> Error
+ {ok, []} -> ok;
+ {error, _} = Error -> Error
+ end;
+setsockname(S, Addr) when is_port(S) ->
+ case type_value(set, addr, Addr) of
+ true ->
+ case
+ ctl_cmd(S, ?INET_REQ_SETNAME, enc_value(set, addr, Addr))
+ of
+ {ok, []} -> ok;
+ {error, _} = Error -> Error
+ end;
+ false ->
+ {error, einval}
+ end.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%%
+%% SOCKNAMES(insock()) -> {ok, [{IP, Port}, ...]} | {error, Reason}
+%%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+socknames(S) when is_port(S) ->
+ socknames(S, undefined).
+
+socknames(S, #sctp_assoc_change{assoc_id=AssocId}) when is_port(S) ->
+ socknames(S, AssocId);
+socknames(S, AssocId)
+ when is_port(S), is_integer(AssocId);
+ is_port(S), AssocId =:= undefined ->
+ Q = get,
+ Type = [[sctp_assoc_id,0]],
+ case type_value(Q, Type, AssocId) of
+ true ->
+ case ctl_cmd
+ (S, ?INET_REQ_GETLADDRS,
+ enc_value(Q, Type, AssocId)) of
+ {ok,Addrs} ->
+ {ok,get_addrs(Addrs)};
+ Error ->
+ Error
+ end;
+ false ->
+ {error,einval}
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@@ -1108,6 +1219,9 @@ enc_opt(send_timeout_close) -> ?INET_LOPT_TCP_SEND_TIMEOUT_CLOSE;
enc_opt(delay_send) -> ?INET_LOPT_TCP_DELAY_SEND;
enc_opt(packet_size) -> ?INET_LOPT_PACKET_SIZE;
enc_opt(read_packets) -> ?INET_LOPT_READ_PACKETS;
+enc_opt(netns) -> ?INET_LOPT_NETNS;
+enc_opt(show_econnreset) -> ?INET_LOPT_TCP_SHOW_ECONNRESET;
+enc_opt(line_delimiter) -> ?INET_LOPT_LINE_DELIM;
enc_opt(raw) -> ?INET_OPT_RAW;
% Names of SCTP opts:
enc_opt(sctp_rtoinfo) -> ?SCTP_OPT_RTOINFO;
@@ -1164,6 +1278,9 @@ dec_opt(?INET_LOPT_TCP_SEND_TIMEOUT_CLOSE) -> send_timeout_close;
dec_opt(?INET_LOPT_TCP_DELAY_SEND) -> delay_send;
dec_opt(?INET_LOPT_PACKET_SIZE) -> packet_size;
dec_opt(?INET_LOPT_READ_PACKETS) -> read_packets;
+dec_opt(?INET_LOPT_NETNS) -> netns;
+dec_opt(?INET_LOPT_TCP_SHOW_ECONNRESET) -> show_econnreset;
+dec_opt(?INET_LOPT_LINE_DELIM) -> line_delimiter;
dec_opt(?INET_OPT_RAW) -> raw;
dec_opt(I) when is_integer(I) -> undefined.
@@ -1226,7 +1343,8 @@ type_opt_1(buffer) -> int;
type_opt_1(active) ->
{enum,[{false, ?INET_PASSIVE},
{true, ?INET_ACTIVE},
- {once, ?INET_ONCE}]};
+ {once, ?INET_ONCE},
+ {multi, ?INET_MULTI}]};
type_opt_1(packet) ->
{enum,[{0, ?TCP_PB_RAW},
{1, ?TCP_PB_1},
@@ -1245,6 +1363,7 @@ type_opt_1(packet) ->
{httph_bin,?TCP_PB_HTTPH_BIN},
{ssl, ?TCP_PB_SSL_TLS}, % obsolete
{ssl_tls, ?TCP_PB_SSL_TLS}]};
+type_opt_1(line_delimiter) -> int;
type_opt_1(mode) ->
{enum,[{list, ?INET_MODE_LIST},
{binary, ?INET_MODE_BINARY}]};
@@ -1261,6 +1380,8 @@ type_opt_1(send_timeout_close) -> bool;
type_opt_1(delay_send) -> bool;
type_opt_1(packet_size) -> uint;
type_opt_1(read_packets) -> uint;
+type_opt_1(netns) -> binary;
+type_opt_1(show_econnreset) -> bool;
%%
%% SCTP options (to be set). If the type is a record type, the corresponding
%% record signature is returned, otherwise, an "elementary" type tag
@@ -1449,14 +1570,49 @@ type_value_2(uint8, X) when X band 16#ff =:= X -> true;
type_value_2(time, infinity) -> true;
type_value_2(time, X) when is_integer(X), X >= 0 -> true;
type_value_2(ip,{A,B,C,D}) when ?ip(A,B,C,D) -> true;
+%%
type_value_2(addr, {any,Port}) ->
type_value_2(uint16, Port);
type_value_2(addr, {loopback,Port}) ->
type_value_2(uint16, Port);
-type_value_2(addr, {{A,B,C,D},Port}) when ?ip(A,B,C,D) ->
+type_value_2(addr, {IP,_} = Addr) when tuple_size(IP) =:= 4 ->
+ type_value_2(addr, {inet,Addr});
+type_value_2(addr, {IP,_} = Addr) when tuple_size(IP) =:= 8 ->
+ type_value_2(addr, {inet6,Addr});
+type_value_2(addr, {Local,_}) when is_list(Local); is_binary(Local) ->
+ type_value_2(addr, {local,Local});
+%%
+type_value_2(addr, {Family,{Tag,Port}})
+ when (Family =:= inet orelse Family =:= inet6) andalso
+ (Tag =:= any orelse Tag =:= loopback) ->
type_value_2(uint16, Port);
-type_value_2(addr, {{A,B,C,D,E,F,G,H},Port}) when ?ip6(A,B,C,D,E,F,G,H) ->
+type_value_2(addr, {inet,{{A,B,C,D},Port}})
+ when ?ip(A,B,C,D) ->
type_value_2(uint16, Port);
+type_value_2(addr, {inet6,{{A,B,C,D,E,F,G,H},Port}})
+ when ?ip6(A,B,C,D,E,F,G,H) ->
+ type_value_2(uint16, Port);
+type_value_2(addr, {local,Addr}) ->
+ if
+ is_binary(Addr) ->
+ byte_size(Addr) =< 255;
+ true ->
+ try
+ %% We either get a badarg from byte_size
+ %% or from characters_to_binary
+ byte_size(
+ unicode:characters_to_binary(
+ Addr, file:native_name_encoding()))
+ of
+ N when N =< 255 ->
+ true;
+ _ ->
+ false
+ catch error:badarg ->
+ false
+ end
+ end;
+%%
type_value_2(ether,[X1,X2,X3,X4,X5,X6])
when ?ether(X1,X2,X3,X4,X5,X6) -> true;
type_value_2({enum,List}, Enum) ->
@@ -1487,9 +1643,12 @@ type_value_2({bitenumlist,List,_}, EnumList) ->
Ls when is_list(Ls) -> true;
false -> false
end;
-type_value_2(binary,Bin) when is_binary(Bin) -> true;
-type_value_2(binary_or_uint,Bin) when is_binary(Bin) -> true;
-type_value_2(binary_or_uint,Int) when is_integer(Int), Int >= 0 -> true;
+type_value_2(binary,Bin)
+ when is_binary(Bin), byte_size(Bin) < (1 bsl 32) -> true;
+type_value_2(binary_or_uint,Bin)
+ when is_binary(Bin), byte_size(Bin) < (1 bsl 32) -> true;
+type_value_2(binary_or_uint,Int)
+ when is_integer(Int), Int >= 0 -> true;
%% Type-checking of SCTP options
type_value_2(sctp_assoc_id, X)
when X band 16#ffffffff =:= X -> true;
@@ -1561,6 +1720,7 @@ enc_value_2(time, Val) -> ?int32(Val);
enc_value_2(ip,{A,B,C,D}) -> [A,B,C,D];
enc_value_2(ip, any) -> [0,0,0,0];
enc_value_2(ip, loopback) -> [127,0,0,1];
+%%
enc_value_2(addr, {any,Port}) ->
[?INET_AF_ANY|?int16(Port)];
enc_value_2(addr, {loopback,Port}) ->
@@ -1569,6 +1729,35 @@ enc_value_2(addr, {IP,Port}) when tuple_size(IP) =:= 4 ->
[?INET_AF_INET,?int16(Port)|ip4_to_bytes(IP)];
enc_value_2(addr, {IP,Port}) when tuple_size(IP) =:= 8 ->
[?INET_AF_INET6,?int16(Port)|ip6_to_bytes(IP)];
+enc_value_2(addr, {File,_}) when is_list(File); is_binary(File) ->
+ [?INET_AF_LOCAL,iolist_size(File)|File];
+%%
+enc_value_2(addr, {inet,{any,Port}}) ->
+ [?INET_AF_INET,?int16(Port),0,0,0,0];
+enc_value_2(addr, {inet,{loopback,Port}}) ->
+ [?INET_AF_INET,?int16(Port),127,0,0,1];
+enc_value_2(addr, {inet,{IP,Port}}) ->
+ [?INET_AF_INET,?int16(Port)|ip4_to_bytes(IP)];
+enc_value_2(addr, {inet6,{any,Port}}) ->
+ [?INET_AF_INET6,?int16(Port),0,0,0,0,0,0,0,0];
+enc_value_2(addr, {inet6,{loopback,Port}}) ->
+ [?INET_AF_INET6,?int16(Port),0,0,0,0,0,0,0,1];
+enc_value_2(addr, {inet6,{IP,Port}}) ->
+ [?INET_AF_INET6,?int16(Port)|ip6_to_bytes(IP)];
+enc_value_2(addr, {local,Addr}) ->
+ %% A binary is passed as is, but anything else will be
+ %% regarded as a filename and therefore encoded according to
+ %% the current system filename encoding mode.
+ Bin =
+ if
+ is_binary(Addr) ->
+ Addr;
+ true ->
+ unicode:characters_to_binary(
+ Addr, file:native_name_encoding())
+ end,
+ [?INET_AF_LOCAL,byte_size(Bin),Bin];
+%%
enc_value_2(ether, [_,_,_,_,_,_]=Xs) -> Xs;
enc_value_2(sockaddr, any) ->
[?INET_AF_ANY];
@@ -1701,11 +1890,14 @@ encode_opt_val(Opts) ->
Reason -> {error,Reason}
end.
+%% {active, once} and {active, N} are specially optimized because they will
+%% be used for every packet or every N packets, not only once when
+%% initializing the socket. Measurements show that this optimization is
+%% worthwhile.
enc_opt_val([{active,once}|Opts], Acc) ->
- %% Specially optimized because {active,once} will be used for
- %% every packet, not only once when initializing the socket.
- %% Measurements show that this optimization is worthwhile.
enc_opt_val(Opts, [<<?INET_LOPT_ACTIVE:8,?INET_ONCE:32>>|Acc]);
+enc_opt_val([{active,N}|Opts], Acc) when is_integer(N), N < 32768, N >= -32768 ->
+ enc_opt_val(Opts, [<<?INET_LOPT_ACTIVE:8,?INET_MULTI:32,N:16>>|Acc]);
enc_opt_val([{raw,P,O,B}|Opts], Acc) ->
enc_opt_val(Opts, Acc, raw, {P,O,B});
enc_opt_val([{Opt,Val}|Opts], Acc) ->
@@ -1795,6 +1987,14 @@ dec_opt_val([]) -> [].
dec_opt_val(Buf, raw, Type) ->
{{P,O,B},T} = dec_value(Type, Buf),
[{raw,P,O,B}|dec_opt_val(T)];
+dec_opt_val(Buf, active, Type) ->
+ case dec_value(Type, Buf) of
+ {multi,[M0,M1|T]} ->
+ <<N:16>> = list_to_binary([M0,M1]),
+ [{active,N}|dec_opt_val(T)];
+ {Val,T} ->
+ [{active,Val}|dec_opt_val(T)]
+ end;
dec_opt_val(Buf, Opt, Type) ->
{Val,T} = dec_value(Type, Buf),
[{Opt,Val}|dec_opt_val(T)].
@@ -2188,9 +2388,6 @@ utf8_to_characters(Bs, U, 0) ->
utf8_to_characters([B|Bs], U, N) when ((B band 16#3F) bor 16#80) =:= B ->
utf8_to_characters(Bs, (U bsl 6) bor (B band 16#3F), N-1).
-ip_to_bytes(IP) when tuple_size(IP) =:= 4 -> ip4_to_bytes(IP);
-ip_to_bytes(IP) when tuple_size(IP) =:= 8 -> ip6_to_bytes(IP).
-
ip4_to_bytes({A,B,C,D}) ->
[A band 16#ff, B band 16#ff, C band 16#ff, D band 16#ff].
@@ -2198,14 +2395,34 @@ ip6_to_bytes({A,B,C,D,E,F,G,H}) ->
[?int16(A), ?int16(B), ?int16(C), ?int16(D),
?int16(E), ?int16(F), ?int16(G), ?int16(H)].
-get_ip(?INET_AF_INET, Addr) -> get_ip4(Addr);
-get_ip(?INET_AF_INET6, Addr) -> get_ip6(Addr).
+get_addrs([]) ->
+ [];
+get_addrs([F|Addrs]) ->
+ {Addr,Rest} = get_addr(F, Addrs),
+ [Addr|get_addrs(Rest)].
+
+get_addr(?INET_AF_LOCAL, [0]) ->
+ {{local,<<>>},[]};
+get_addr(?INET_AF_LOCAL, [N|Addr]) ->
+ {A,Rest} = lists:split(N, Addr),
+ {{local,iolist_to_binary(A)},Rest};
+get_addr(?INET_AF_UNDEFINED, Rest) ->
+ {{undefined,0},Rest};
+get_addr(Family, [P1,P0|Addr]) ->
+ {IP,Rest} = get_ip(Family, Addr),
+ {{IP,?u16(P1, P0)},Rest}.
+
+get_ip(?INET_AF_INET, Addr) ->
+ get_ip4(Addr);
+get_ip(?INET_AF_INET6, Addr) ->
+ get_ip6(Addr).
get_ip4([A,B,C,D | T]) -> {{A,B,C,D},T}.
get_ip6([X1,X2,X3,X4,X5,X6,X7,X8,X9,X10,X11,X12,X13,X14,X15,X16 | T]) ->
{ { ?u16(X1,X2),?u16(X3,X4),?u16(X5,X6),?u16(X7,X8),
- ?u16(X9,X10),?u16(X11,X12),?u16(X13,X14),?u16(X15,X16)}, T}.
+ ?u16(X9,X10),?u16(X11,X12),?u16(X13,X14),?u16(X15,X16)},
+ T }.
%% Control command