%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1998-2013. 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%
%%
%
% test the behavior of gen_udp. Testing udp is really a very unfunny task,
% because udp is not deterministic.
%
-module(gen_udp_SUITE).
-include_lib("test_server/include/test_server.hrl").
-define(default_timeout, ?t:minutes(1)).
% XXX - we should pick a port that we _know_ is closed. That's pretty hard.
-define(CLOSED_PORT, 6666).
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2]).
-export([init_per_testcase/2, end_per_testcase/2]).
-export([send_to_closed/1, active_n/1,
buffer_size/1, binary_passive_recv/1, bad_address/1,
read_packets/1, open_fd/1, connect/1, implicit_inet6/1]).
suite() -> [{ct_hooks,[ts_install_cth]}].
all() ->
[send_to_closed, buffer_size, binary_passive_recv,
bad_address, read_packets, open_fd, connect,
implicit_inet6, active_n].
groups() ->
[].
init_per_suite(Config) ->
Config.
end_per_suite(_Config) ->
ok.
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
init_per_testcase(_Case, Config) ->
?line Dog=test_server:timetrap(?default_timeout),
[{watchdog, Dog}|Config].
end_per_testcase(_Case, Config) ->
Dog=?config(watchdog, Config),
test_server:timetrap_cancel(Dog),
ok.
%%-------------------------------------------------------------
%% Send two packets to a closed port (on some systems this causes the socket
%% to be closed).
send_to_closed(doc) ->
["Tests core functionality."];
send_to_closed(suite) ->
[];
send_to_closed(Config) when is_list(Config) ->
?line {ok, Sock} = gen_udp:open(0),
?line ok = gen_udp:send(Sock, {127,0,0,1}, ?CLOSED_PORT, "foo"),
timer:sleep(2),
?line ok = gen_udp:send(Sock, {127,0,0,1}, ?CLOSED_PORT, "foo"),
?line ok = gen_udp:close(Sock),
ok.
%%-------------------------------------------------------------
%% Test that the UDP socket buffer sizes are settable
buffer_size(suite) ->
[];
buffer_size(doc) ->
["Test UDP buffer size setting."];
buffer_size(Config) when is_list(Config) ->
?line Len = 256,
?line Bin = list_to_binary(lists:seq(0, Len-1)),
?line M = 8192 div Len,
?line Spec0 =
[{opt,M},{safe,M-3},{long,M+1},
{opt,2*M},{safe,2*M-3},{long,2*M+1},
{opt,4*M},{safe,4*M-3},{long,4*M+1}],
?line Spec =
[case Tag of
opt ->
[{recbuf,Val*Len},{sndbuf,(Val + 2)*Len}];
safe ->
{list_to_binary(lists:duplicate(Val, Bin)),
[correct]};
long ->
{list_to_binary(lists:duplicate(Val, Bin)),
[truncated,emsgsize,timeout]}
end || {Tag,Val} <- Spec0],
%%
?line {ok, ClientSocket} = gen_udp:open(0, [binary]),
?line {ok, ClientPort} = inet:port(ClientSocket),
?line Client = self(),
?line ClientIP = {127,0,0,1},
?line ServerIP = {127,0,0,1},
?line Server =
spawn_link(
fun () ->
{ok, ServerSocket} = gen_udp:open(0, [binary]),
{ok, ServerPort} = inet:port(ServerSocket),
Client ! {self(),port,ServerPort},
buffer_size_server(Client, ClientIP, ClientPort,
ServerSocket, 1, Spec),
ok = gen_udp:close(ServerSocket)
end),
?line Mref = erlang:monitor(process, Server),
?line receive
{Server,port,ServerPort} ->
?line buffer_size_client(Server, ServerIP, ServerPort,
ClientSocket, 1, Spec)
end,
?line ok = gen_udp:close(ClientSocket),
?line receive
{'DOWN',Mref,_,_,normal} ->
?line ok
end.
buffer_size_client(_, _, _, _, _, []) ->
?line ok;
buffer_size_client(Server, IP, Port,
Socket, Cnt, [Opts|T]) when is_list(Opts) ->
?line io:format("buffer_size_client Cnt=~w setopts ~p.~n", [Cnt,Opts]),
?line ok = inet:setopts(Socket, Opts),
?line Server ! {self(),setopts,Cnt},
?line receive {Server,setopts,Cnt} -> ok end,
?line buffer_size_client(Server, IP, Port, Socket, Cnt+1, T);
buffer_size_client(Server, IP, Port,
Socket, Cnt, [{B,Replies}|T]=Opts) when is_binary(B) ->
?line io:format(
"buffer_size_client Cnt=~w send size ~w expecting ~p.~n",
[Cnt,size(B),Replies]),
?line ok = gen_udp:send(Socket, IP, Port, <<Cnt,B/binary>>),
?line receive
{Server,Cnt,Reply} ->
?line Tag =
if
is_tuple(Reply) ->
element(1, Reply);
is_atom(Reply) ->
Reply
end,
?line case lists:member(Tag, Replies) of
true -> ok;
false ->
?line
?t:fail({reply_mismatch,Cnt,Reply,Replies,
byte_size(B),
inet:getopts(Socket,
[sndbuf,recbuf])})
end,
?line buffer_size_client(Server, IP, Port, Socket, Cnt+1, T)
after 1313 ->
?line buffer_size_client(Server, IP, Port, Socket, Cnt, Opts)
end.
buffer_size_server(_, _, _, _, _, []) ->
ok;
buffer_size_server(Client, IP, Port,
Socket, Cnt, [Opts|T]) when is_list(Opts) ->
receive {Client,setopts,Cnt} -> ok end,
?line io:format("buffer_size_server Cnt=~w setopts ~p.~n", [Cnt,Opts]),
ok = inet:setopts(Socket, Opts),
Client ! {self(),setopts,Cnt},
buffer_size_server(Client, IP, Port, Socket, Cnt+1, T);
buffer_size_server(Client, IP, Port,
Socket, Cnt, [{B,_}|T]) when is_binary(B) ->
?line io:format(
"buffer_size_server Cnt=~w expecting size ~w.~n",
[Cnt,size(B)]),
Client !
{self(),Cnt,
case buffer_size_server_recv(Socket, IP, Port, Cnt) of
D when is_binary(D) ->
SizeD = byte_size(D),
?line io:format(
"buffer_size_server Cnt=~w received size ~w.~n",
[Cnt,SizeD]),
case B of
D ->
correct;
<<D:SizeD/binary,_/binary>> ->
truncated;
_ ->
{unexpected,D}
end;
Error ->
?line io:format(
"buffer_size_server Cnt=~w received error ~w.~n",
[Cnt,Error]),
Error
end},
buffer_size_server(Client, IP, Port, Socket, Cnt+1, T).
buffer_size_server_recv(Socket, IP, Port, Cnt) ->
receive
{udp,Socket,IP,Port,<<Cnt,B/binary>>} ->
B;
{udp,Socket,IP,Port,<<_/binary>>} ->
buffer_size_server_recv(Socket, IP, Port, Cnt);
{udp_error,Socket,Error} ->
Error
after 5000 ->
{timeout,flush()}
end.
%%-------------------------------------------------------------
%% OTP-3823 gen_udp:recv does not return address in binary mode
%%
binary_passive_recv(suite) ->
[];
binary_passive_recv(doc) ->
["OTP-3823 gen_udp:recv does not return address in binary mode"];
binary_passive_recv(Config) when is_list(Config) ->
?line D1 = "The quick brown fox jumps over a lazy dog",
?line D2 = list_to_binary(D1),
?line D3 = ["The quick", <<" brown ">>, "fox jumps ", <<"over ">>,
<<>>, $a, [[], " lazy ", <<"dog">>]],
?line D2 = iolist_to_binary(D3),
?line B = D2,
?line {ok, R} = gen_udp:open(0, [binary, {active, false}]),
?line {ok, RP} = inet:port(R),
?line {ok, S} = gen_udp:open(0),
?line {ok, SP} = inet:port(S),
?line ok = gen_udp:send(S, localhost, RP, D1),
?line {ok, {{127, 0, 0, 1}, SP, B}} = gen_udp:recv(R, byte_size(B)+1),
?line ok = gen_udp:send(S, localhost, RP, D2),
?line {ok, {{127, 0, 0, 1}, SP, B}} = gen_udp:recv(R, byte_size(B)+1),
?line ok = gen_udp:send(S, localhost, RP, D3),
?line {ok, {{127, 0, 0, 1}, SP, B}} = gen_udp:recv(R, byte_size(B)+1),
?line ok = gen_udp:close(S),
?line ok = gen_udp:close(R),
ok.
%%-------------------------------------------------------------
%% OTP-3836 inet_udp crashes when IP-address is larger than 255.
bad_address(suite) ->
[];
bad_address(doc) ->
["OTP-3836 inet_udp crashes when IP-address is larger than 255."];
bad_address(Config) when is_list(Config) ->
?line {ok, R} = gen_udp:open(0),
?line {ok, RP} = inet:port(R),
?line {ok, S} = gen_udp:open(0),
?line {ok, _SP} = inet:port(S),
?line {'EXIT', badarg} =
(catch gen_udp:send(S, {127,0,0,1,0}, RP, "void")),
?line {'EXIT', badarg} =
(catch gen_udp:send(S, {127,0,0,256}, RP, "void")),
?line ok = gen_udp:close(S),
?line ok = gen_udp:close(R),
ok.
%%-------------------------------------------------------------
%% OTP-6249 UDP option for number of packet reads
%%
%% Starts a slave node that on command sends a bunch of messages
%% to our UDP port. The receiving process just receives and
%% ignores the incoming messages, but counts them.
%% A tracing process traces the receiving process for
%% 'receive' and scheduling events. From the trace,
%% message contents is verified; and, how many messages
%% are received per in/out scheduling, which should be
%% the same as the read_packets parameter.
%%
%% What happens on the SMP emulator remains to be seen...
%%
read_packets(doc) ->
["OTP-6249 UDP option for number of packet reads."];
read_packets(Config) when is_list(Config) ->
case erlang:system_info(smp_support) of
false ->
read_packets_1();
true ->
%% We would need some new sort of tracing to test this
%% option reliably in an SMP emulator.
{skip,"SMP emulator"}
end.
read_packets_1() ->
?line N1 = 5,
?line N2 = 7,
?line {ok,R} = gen_udp:open(0, [{read_packets,N1}]),
?line {ok,RP} = inet:port(R),
?line {ok,Node} = start_node(gen_udp_SUITE_read_packets),
?line Die = make_ref(),
?line Loop = erlang:spawn_link(fun () -> infinite_loop(Die) end),
%%
?line Msgs1 = [erlang:integer_to_list(M) || M <- lists:seq(1, N1*3)],
?line [V1|_] = read_packets_test(R, RP, Msgs1, Node),
?line {ok,[{read_packets,N1}]} = inet:getopts(R, [read_packets]),
%%
?line ok = inet:setopts(R, [{read_packets,N2}]),
?line Msgs2 = [erlang:integer_to_list(M) || M <- lists:seq(1, N2*3)],
?line [V2|_] = read_packets_test(R, RP, Msgs2, Node),
?line {ok,[{read_packets,N2}]} = inet:getopts(R, [read_packets]),
%%
?line stop_node(Node),
?line Mref = erlang:monitor(process, Loop),
?line Loop ! Die,
?line receive
{'DOWN',Mref,_,_, normal} ->
case {V1,V2} of
{N1,N2} ->
ok;
_ when V1 =/= N1, V2 =/= N2 ->
ok
end
end.
infinite_loop(Die) ->
receive
Die ->
ok
after
0 ->
infinite_loop(Die)
end.
read_packets_test(R, RP, Msgs, Node) ->
Len = length(Msgs),
Receiver = self(),
Tracer =
spawn_link(
fun () ->
receive
{Receiver,get_trace} ->
Receiver ! {self(),{trace,flush()}}
end
end),
Sender =
spawn_opt(
Node,
fun () ->
{ok,S} = gen_udp:open(0),
{ok,SP} = inet:port(S),
Receiver ! {self(),{port,SP}},
receive
{Receiver,go} ->
read_packets_send(S, RP, Msgs)
end
end,
[link,{priority,high}]),
receive
{Sender,{port,SP}} ->
erlang:trace(self(), true,
[running,'receive',{tracer,Tracer}]),
erlang:yield(),
Sender ! {Receiver,go},
read_packets_recv(Len),
erlang:trace(self(), false, [all]),
Tracer ! {Receiver,get_trace},
receive
{Tracer,{trace,Trace}} ->
read_packets_verify(R, SP, Msgs, Trace)
end
end.
read_packets_send(S, RP, [Msg|Msgs]) ->
ok = gen_udp:send(S, localhost, RP, Msg),
read_packets_send(S, RP, Msgs);
read_packets_send(_S, _RP, []) ->
ok.
read_packets_recv(0) ->
ok;
read_packets_recv(N) ->
receive
_ ->
read_packets_recv(N - 1)
after 5000 ->
timeout
end.
read_packets_verify(R, SP, Msg, Trace) ->
lists:reverse(
lists:sort(read_packets_verify(R, SP, Msg, Trace, 0))).
read_packets_verify(R, SP, Msgs, [{trace,Self,OutIn,_}|Trace], M)
when Self =:= self(), OutIn =:= out;
Self =:= self(), OutIn =:= in ->
push(M, read_packets_verify(R, SP, Msgs, Trace, 0));
read_packets_verify(R, SP, [Msg|Msgs],
[{trace,Self,'receive',{udp,R,{127,0,0,1},SP,Msg}}
|Trace], M)
when Self =:= self() ->
read_packets_verify(R, SP, Msgs, Trace, M+1);
read_packets_verify(_R, _SP, [], [], M) ->
push(M, []);
read_packets_verify(_R, _SP, Msgs, Trace, M) ->
?t:fail({read_packets_verify,mismatch,Msgs,Trace,M}).
push(0, Vs) ->
Vs;
push(V, Vs) ->
[V|Vs].
flush() ->
receive
X ->
[X|flush()]
after 200 ->
[]
end.
open_fd(suite) ->
[];
open_fd(doc) ->
["Test that the 'fd' option works"];
open_fd(Config) when is_list(Config) ->
Msg = "Det gör ont när knoppar brista. Varför skulle annars våren tveka?",
Addr = {127,0,0,1},
{ok,S1} = gen_udp:open(0),
{ok,P2} = inet:port(S1),
{ok,FD} = prim_inet:getfd(S1),
{error,einval} = gen_udp:open(0, [inet6, {fd,FD}]),
{ok,S2} = gen_udp:open(0, [{fd,FD}]),
{ok,S3} = gen_udp:open(0),
{ok,P3} = inet:port(S3),
ok = gen_udp:send(S3, Addr, P2, Msg),
receive
{udp,S2,Addr,P3,Msg} ->
ok = gen_udp:send(S2,Addr,P3,Msg),
receive
{udp,S3,Addr,P2,Msg} ->
ok
after 1000 ->
?t:fail(io_lib:format("~w", [flush()]))
end
after 1000 ->
?t:fail(io_lib:format("~w", [flush()]))
end.
active_n(Config) when is_list(Config) ->
N = 3,
S1 = ok(gen_udp:open(0, [{active,N}])),
[{active,N}] = ok(inet:getopts(S1, [active])),
ok = inet:setopts(S1, [{active,-N}]),
receive
{udp_passive, S1} -> ok
after
5000 ->
exit({error,udp_passive_failure})
end,
[{active,false}] = ok(inet:getopts(S1, [active])),
ok = inet:setopts(S1, [{active,0}]),
receive
{udp_passive, S1} -> ok
after
5000 ->
exit({error,udp_passive_failure})
end,
ok = inet:setopts(S1, [{active,32767}]),
{error,einval} = inet:setopts(S1, [{active,1}]),
{error,einval} = inet:setopts(S1, [{active,-32769}]),
ok = inet:setopts(S1, [{active,-32768}]),
receive
{udp_passive, S1} -> ok
after
5000 ->
exit({error,udp_passive_failure})
end,
[{active,false}] = ok(inet:getopts(S1, [active])),
ok = inet:setopts(S1, [{active,N}]),
ok = inet:setopts(S1, [{active,true}]),
[{active,true}] = ok(inet:getopts(S1, [active])),
receive
_ -> exit({error,active_n})
after
0 ->
ok
end,
ok = inet:setopts(S1, [{active,N}]),
ok = inet:setopts(S1, [{active,once}]),
[{active,once}] = ok(inet:getopts(S1, [active])),
receive
_ -> exit({error,active_n})
after
0 ->
ok
end,
{error,einval} = inet:setopts(S1, [{active,32768}]),
ok = inet:setopts(S1, [{active,false}]),
[{active,false}] = ok(inet:getopts(S1, [active])),
S1Port = ok(inet:port(S1)),
S2 = ok(gen_udp:open(0, [{active,N}])),
S2Port = ok(inet:port(S2)),
[{active,N}] = ok(inet:getopts(S2, [active])),
ok = inet:setopts(S1, [{active,N}]),
[{active,N}] = ok(inet:getopts(S1, [active])),
lists:foreach(
fun(I) ->
Msg = "message "++integer_to_list(I),
ok = gen_udp:send(S2, "localhost", S1Port, Msg),
receive
{udp,S1,_,S2Port,Msg} ->
ok = gen_udp:send(S1, "localhost", S2Port, Msg)
after
5000 ->
exit({error,timeout})
end,
receive
{udp,S2,_,S1Port,Msg} ->
ok
after
5000 ->
exit({error,timeout})
end
end, lists:seq(1,N)),
receive
{udp_passive,S1} ->
[{active,false}] = ok(inet:getopts(S1, [active]))
after
5000 ->
exit({error,udp_passive})
end,
receive
{udp_passive,S2} ->
[{active,false}] = ok(inet:getopts(S2, [active]))
after
5000 ->
exit({error,udp_passive})
end,
S3 = ok(gen_udp:open(0, [{active,0}])),
receive
{udp_passive,S3} ->
[{active,false}] = ok(inet:getopts(S3, [active]))
after
5000 ->
exit({error,udp_passive})
end,
ok = gen_udp:close(S3),
ok = gen_udp:close(S2),
ok = gen_udp:close(S1),
ok.
%
% Utils
%
start_node(Name) ->
Pa = filename:dirname(code:which(?MODULE)),
?t:start_node(Name, slave, [{args, "-pa " ++ Pa}]).
stop_node(Node) ->
?t:stop_node(Node).
connect(suite) ->
[];
connect(doc) ->
["Test that connect/3 has effect"];
connect(Config) when is_list(Config) ->
?line Addr = {127,0,0,1},
?line {ok,S1} = gen_udp:open(0),
?line {ok,P1} = inet:port(S1),
?line {ok,S2} = gen_udp:open(0),
?line ok = inet:setopts(S2, [{active,false}]),
?line ok = gen_udp:close(S1),
?line ok = gen_udp:connect(S2, Addr, P1),
?line ok = gen_udp:send(S2, <<16#deadbeef:32>>),
?line ok = case gen_udp:recv(S2, 0, 5) of
{error,econnrefused} -> ok;
{error,econnreset} -> ok;
Other -> Other
end,
ok.
implicit_inet6(Config) when is_list(Config) ->
?line Host = ok(inet:gethostname()),
?line
case inet:getaddr(Host, inet6) of
{ok,Addr} ->
?line implicit_inet6(Host, Addr);
{error,Reason} ->
{skip,
"Can not look up IPv6 address: "
++atom_to_list(Reason)}
end.
implicit_inet6(Host, Addr) ->
?line Active = {active,false},
?line
case gen_udp:open(0, [inet6,Active]) of
{ok,S1} ->
?line Loopback = {0,0,0,0,0,0,0,1},
?line io:format("~s ~p~n", ["::1",Loopback]),
?line implicit_inet6(S1, Active, Loopback),
?line ok = gen_udp:close(S1),
%%
?line Localhost = "localhost",
?line Localaddr = ok(inet:getaddr(Localhost, inet6)),
?line io:format("~s ~p~n", [Localhost,Localaddr]),
?line S2 = ok(gen_udp:open(0, [{ip,Localaddr},Active])),
?line implicit_inet6(S2, Active, Localaddr),
?line ok = gen_udp:close(S2),
%%
?line io:format("~s ~p~n", [Host,Addr]),
?line S3 = ok(gen_udp:open(0, [{ifaddr,Addr},Active])),
?line implicit_inet6(S3, Active, Addr),
?line ok = gen_udp:close(S3);
_ ->
{skip,"IPv6 not supported"}
end.
implicit_inet6(S1, Active, Addr) ->
?line P1 = ok(inet:port(S1)),
?line S2 = ok(gen_udp:open(0, [inet6,Active])),
?line P2 = ok(inet:port(S2)),
?line ok = gen_udp:connect(S2, Addr, P1),
?line ok = gen_udp:connect(S1, Addr, P2),
?line {Addr,P2} = ok(inet:peername(S1)),
?line {Addr,P1} = ok(inet:peername(S2)),
?line {Addr,P1} = ok(inet:sockname(S1)),
?line {Addr,P2} = ok(inet:sockname(S2)),
?line ok = gen_udp:send(S1, Addr, P2, "ping"),
?line {Addr,P1,"ping"} = ok(gen_udp:recv(S2, 1024, 1000)),
?line ok = gen_udp:send(S2, Addr, P1, "pong"),
?line {Addr,P2,"pong"} = ok(gen_udp:recv(S1, 1024)),
?line ok = gen_udp:close(S2).
ok({ok,V}) -> V.