%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1997-2015. 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_SUITE).
-include_lib("test_server/include/test_server.hrl").
-include_lib("kernel/include/inet.hrl").
-include_lib("kernel/src/inet_dns.hrl").
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2,
t_gethostbyaddr/0, t_gethostbyaddr/1,
t_getaddr/0, t_getaddr/1,
t_gethostbyname/0, t_gethostbyname/1,
t_gethostbyaddr_v6/0, t_gethostbyaddr_v6/1,
t_getaddr_v6/0, t_getaddr_v6/1,
t_gethostbyname_v6/0, t_gethostbyname_v6/1,
ipv4_to_ipv6/0, ipv4_to_ipv6/1,
host_and_addr/0, host_and_addr/1,
t_gethostnative/1,
gethostnative_parallell/1, cname_loop/1,
gethostnative_soft_restart/0, gethostnative_soft_restart/1,
gethostnative_debug_level/0, gethostnative_debug_level/1,
lookup_bad_search_option/1,
getif/1,
getif_ifr_name_overflow/1,getservbyname_overflow/1, getifaddrs/1,
parse_strict_address/1, simple_netns/1, simple_netns_open/1]).
-export([get_hosts/1, get_ipv6_hosts/1, parse_hosts/1, parse_address/1,
kill_gethost/0, parallell_gethost/0, test_netns/0]).
-export([init_per_testcase/2, end_per_testcase/2]).
suite() -> [{ct_hooks,[ts_install_cth]}].
all() ->
[t_gethostbyaddr, t_gethostbyname, t_getaddr,
t_gethostbyaddr_v6, t_gethostbyname_v6, t_getaddr_v6,
ipv4_to_ipv6, host_and_addr, {group, parse},
t_gethostnative, gethostnative_parallell, cname_loop,
gethostnative_debug_level, gethostnative_soft_restart,
lookup_bad_search_option,
getif, getif_ifr_name_overflow, getservbyname_overflow,
getifaddrs, parse_strict_address, simple_netns, simple_netns_open].
groups() ->
[{parse, [], [parse_hosts, parse_address]}].
%% Required configuaration
required(v4) ->
[{require, test_host_ipv4_only},
{require, test_dummy_host}];
required(v6) ->
[{require, test_host_ipv6_only},
{require, test_dummy_ipv6_host}];
required(hosts) ->
case os:type() of
{OS, _} when OS =:= win32 ->
[{require, hardcoded_hosts},
{require, hardcoded_ipv6_hosts}];
_Else ->
[{require, test_hosts}]
end.
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(lookup_bad_search_option, Config) ->
Db = inet_db,
Key = res_lookup,
%% The bad option can not enter through inet_db:set_lookup/1,
%% but through e.g .inetrc.
Prev = ets:lookup(Db, Key),
ets:delete(Db, Key),
ets:insert(Db, {Key,[lookup_bad_search_option]}),
?t:format("Misconfigured resolver lookup order", []),
Dog = test_server:timetrap(test_server:seconds(60)),
[{Key,Prev},{watchdog,Dog}|Config];
init_per_testcase(_Func, Config) ->
Dog = test_server:timetrap(test_server:seconds(60)),
[{watchdog,Dog}|Config].
end_per_testcase(lookup_bad_search_option, Config) ->
Dog = ?config(watchdog, Config),
test_server:timetrap_cancel(Dog),
Db = inet_db,
Key = res_lookup,
Prev = ?config(Key, Config),
ets:delete(Db, Key),
ets:insert(Db, Prev),
?t:format("Restored resolver lookup order", []);
end_per_testcase(_Func, Config) ->
Dog = ?config(watchdog, Config),
test_server:timetrap_cancel(Dog).
t_gethostbyaddr() ->
required(v4).
t_gethostbyaddr(doc) -> "Test the inet:gethostbyaddr/1 function.";
t_gethostbyaddr(Config) when is_list(Config) ->
?line {Name,FullName,IPStr,{A,B,C,D}=IP,Aliases,_,_} =
ct:get_config(test_host_ipv4_only),
?line Rname = integer_to_list(D) ++ "." ++
integer_to_list(C) ++ "." ++
integer_to_list(B) ++ "." ++
integer_to_list(A) ++ ".in-addr.arpa",
?line {ok,HEnt} = inet:gethostbyaddr(IPStr),
?line {ok,HEnt} = inet:gethostbyaddr(IP),
?line {error,Error} = inet:gethostbyaddr(Name),
?line ok = io:format("Failure reason: ~p: ~s",
[error,inet:format_error(Error)]),
?line HEnt_ = HEnt#hostent{h_addrtype = inet,
h_length = 4,
h_addr_list = [IP]},
?line HEnt_ = HEnt,
case {os:type(),os:version()} of
{{unix,freebsd},{5,0,0}} ->
%% The alias list seems to be buggy in FreeBSD 5.0.0.
?line check_elems([{HEnt#hostent.h_name,[Name,FullName]}]),
io:format("Buggy alias list: ~p", [HEnt#hostent.h_aliases]),
ok;
_ ->
?line check_elems([{HEnt#hostent.h_name,[Name,FullName]},
{HEnt#hostent.h_aliases,[[],Aliases,[Rname]]}])
end,
?line {_DName, _DFullName, DIPStr, DIP, _, _, _} =
ct:get_config(test_dummy_host),
?line {error,nxdomain} = inet:gethostbyaddr(DIPStr),
?line {error,nxdomain} = inet:gethostbyaddr(DIP),
ok.
t_gethostbyaddr_v6() -> required(v6).
t_gethostbyaddr_v6(doc) -> "Test the inet:gethostbyaddr/1 inet6 function.";
t_gethostbyaddr_v6(Config) when is_list(Config) ->
?line {Name6, FullName6, IPStr6, IP6, Aliases6} =
ct:get_config(test_host_ipv6_only),
?line case inet:gethostbyaddr(IPStr6) of
%% Even if IPv6 is not supported, the native resolver may succeed
%% looking up the host. DNS lookup will probably fail.
{error,nxdomain} ->
{skip, "IPv6 test fails! IPv6 not supported on this host!?"};
{ok,HEnt6} ->
?line {ok,HEnt6} = inet:gethostbyaddr(IP6),
?line {error,Error6} = inet:gethostbyaddr(Name6),
?line ok = io:format("Failure reason: ~p: ~s",
[Error6, inet:format_error(Error6)]),
?line HEnt6_ = HEnt6#hostent{h_addrtype = inet6,
h_length = 16,
h_addr_list = [IP6]},
?line HEnt6_ = HEnt6,
?line check_elems([{HEnt6#hostent.h_name,[Name6,FullName6]},
{HEnt6#hostent.h_aliases,[[],Aliases6]}]),
?line {_DName6, _DFullName6, DIPStr6, DIP6, _} =
ct:get_config(test_dummy_ipv6_host),
?line {error,nxdomain} = inet:gethostbyaddr(DIPStr6),
?line {error,nxdomain} = inet:gethostbyaddr(DIP6),
ok
end.
t_gethostbyname() -> required(v4).
t_gethostbyname(doc) -> "Test the inet:gethostbyname/1 function.";
t_gethostbyname(suite) -> [];
t_gethostbyname(Config) when is_list(Config) ->
?line {Name,FullName,IPStr,IP,Aliases,IP_46_Str,_} =
ct:get_config(test_host_ipv4_only),
?line {ok,_} = inet:gethostbyname(IPStr),
?line {ok,HEnt} = inet:gethostbyname(Name),
?line {ok,HEnt} = inet:gethostbyname(list_to_atom(Name)),
?line HEnt_ = HEnt#hostent{h_addrtype = inet,
h_length = 4,
h_addr_list = [IP]},
?line HEnt_ = HEnt,
?line check_elems([{HEnt#hostent.h_name,[Name,FullName]},
{HEnt#hostent.h_aliases,[[],Aliases]}]),
?line {ok,HEntF} = inet:gethostbyname(FullName),
?line HEntF_ = HEntF#hostent{h_name = FullName,
h_addrtype = inet,
h_length = 4,
h_addr_list = [IP]},
?line HEntF_ = HEntF,
?line check_elems([{HEnt#hostent.h_aliases,[[],Aliases]}]),
%%
?line FullNameU = toupper(FullName),
?line {ok,HEntU} = inet:gethostbyname(FullNameU),
?line FullNameU = toupper(HEntU#hostent.h_name),
?line #hostent{
h_addrtype = inet,
h_length = 4,
h_addr_list = [IP]} = HEntU,
?line check_elems(
[{[toupper(H) || H <- HEntU#hostent.h_aliases],
[[],[toupper(A) || A <- Aliases]]}]),
?line {DName, _DFullName, _DIPStr, _DIP, _, _, _} =
ct:get_config(test_dummy_host),
?line {error,nxdomain} = inet:gethostbyname(DName),
?line {error,nxdomain} = inet:gethostbyname(IP_46_Str),
ok.
t_gethostbyname_v6() -> required(v6).
t_gethostbyname_v6(doc) -> "Test the inet:gethostbyname/1 inet6 function.";
t_gethostbyname_v6(suite) -> [];
t_gethostbyname_v6(Config) when is_list(Config) ->
{Name, FullName, IPStr, IP, Aliases} =
ct:get_config(test_host_ipv6_only),
case inet:gethostbyname(Name, inet6) of
{ok,HEnt} ->
{ok,_} = inet:gethostbyname(IPStr, inet6),
{ok,HEnt} = inet:gethostbyname(list_to_atom(Name), inet6),
case HEnt#hostent.h_addr_list of
[IP] -> % IPv6 address
#hostent{h_addrtype = inet6,
h_length = 16} = HEnt,
check_elems(
[{HEnt#hostent.h_name,[Name,FullName]},
{HEnt#hostent.h_aliases,[[],Aliases]}]);
[IP46] -> % IPv4 compatible address
{ok,HEnt4} = inet:gethostbyname(Name, inet),
#hostent{h_addrtype = inet,
h_length = 4,
h_addr_list = [IP4]} = HEnt4,
{ok,IP46} =
inet_parse:ipv6_address(
"::ffff:" ++ inet:ntoa(IP4)),
check_elems(
[{HEnt#hostent.h_name,[Name,FullName]}])
end,
{ok,HEntF} = inet:gethostbyname(FullName, inet6),
case HEntF#hostent.h_addr_list of
[IP] -> % IPv6 address
#hostent{h_name = FullName,
h_addrtype = inet6,
h_length = 16} = HEntF,
check_elems(
[{HEnt#hostent.h_aliases,[[],Aliases]}]);
[IP46F] -> % IPv4 compatible address
{ok,HEnt4F} = inet:gethostbyname(FullName, inet),
#hostent{h_addrtype = inet,
h_length = 4,
h_addr_list = [IP4F]} = HEnt4F,
{ok,IP46F} =
inet_parse:ipv6_address(
"::ffff:" ++ inet:ntoa(IP4F)),
check_elems(
[{HEntF#hostent.h_name,[Name,FullName]}])
end;
_ ->
{skip, "IPv6 is not supported on this host"}
end.
check_elems([{Val,Tests} | Elems]) ->
check_elem(Val, Tests, Tests),
check_elems(Elems);
check_elems([]) -> ok.
check_elem(Val, [Val|_], _) -> ok;
check_elem(Val, [_|Tests], Tests0) ->
check_elem(Val, Tests, Tests0);
check_elem(Val, [], Tests0) ->
?t:fail({no_match,Val,Tests0}).
t_getaddr() -> required(v4).
t_getaddr(doc) -> "Test the inet:getaddr/2 function.";
t_getaddr(suite) -> [];
t_getaddr(Config) when is_list(Config) ->
?line {Name,FullName,IPStr,IP,_,IP_46_Str,IP46} =
ct:get_config(test_host_ipv4_only),
?line {ok,IP} = inet:getaddr(list_to_atom(Name), inet),
?line {ok,IP} = inet:getaddr(Name, inet),
?line {ok,IP} = inet:getaddr(FullName, inet),
?line {ok,IP} = inet:getaddr(IP, inet),
?line {ok,IP} = inet:getaddr(IPStr, inet),
?line {error,nxdomain} = inet:getaddr(IP_46_Str, inet),
?line {error,eafnosupport} = inet:getaddr(IP46, inet),
?line {DName, DFullName, DIPStr, DIP, _, _, _} = ct:get_config(test_dummy_host),
?line {error,nxdomain} = inet:getaddr(DName, inet),
?line {error,nxdomain} = inet:getaddr(DFullName, inet),
?line {ok,DIP} = inet:getaddr(DIPStr, inet),
?line {ok,DIP} = inet:getaddr(DIP, inet),
ok.
t_getaddr_v6() -> required(v4) ++ required(v6).
t_getaddr_v6(doc) -> "Test the inet:getaddr/2 function.";
t_getaddr_v6(suite) -> [];
t_getaddr_v6(Config) when is_list(Config) ->
{Name,FullName,IPStr,IP,_} =
ct:get_config(test_host_ipv6_only),
case inet:getaddr(Name, inet6) of
{ok,Addr} ->
IP = Addr,
{ok,IP} = inet:getaddr(toupper(Name), inet6),
{ok,IP} = inet:getaddr(list_to_atom(Name), inet6),
{ok,IP} = inet:getaddr(list_to_atom(toupper(Name)), inet6),
{ok,IP} = inet:getaddr(FullName, inet6),
{ok,IP} = inet:getaddr(toupper(FullName), inet6),
{ok,IP} = inet:getaddr(IP, inet6),
{ok,IP} = inet:getaddr(IPStr, inet6),
%%
{DName,DFullName,DIPStr,DIP,_} =
ct:get_config(test_dummy_ipv6_host),
{error,nxdomain} = inet:getaddr(DName, inet6),
{error,nxdomain} = inet:getaddr(DFullName, inet6),
{ok,DIP} = inet:getaddr(DIPStr, inet6),
{ok,DIP} = inet:getaddr(DIP, inet6),
ok;
_ ->
{skip, "IPv6 is not supported on this host"}
end.
ipv4_to_ipv6() -> required(v4).
ipv4_to_ipv6(doc) -> "Test if IPv4 address is converted to IPv6 address.";
ipv4_to_ipv6(suite) -> [];
ipv4_to_ipv6(Config) when is_list(Config) ->
%% Test what happens if an IPv4 address is looked up in an IPv6 context.
%% If the native resolver succeeds to look it up, an IPv4 compatible
%% address should be returned. If no IPv6 support on this host, an
%% error should beturned.
?line {_Name,_FullName,IPStr,_IP,Aliases,IP_46_Str,IP_46} =
ct:get_config(test_host_ipv4_only),
?line IP4to6Res =
case inet:getaddr(IPStr, inet6) of
{ok,IP_46} ->
io:format("IPv4->IPv6: success~n"),
true;
E = {error,nxdomain} ->
io:format("IPv4->IPv6: nxdomain~n"),
E;
E = {error,eafnosupport} ->
io:format("IPv6->IPv4: eafnosupport~n"),
E;
Other ->
?line ?t:fail({ipv4_to_ipv6_lookup_failed,Other})
end,
?line case {IP4to6Res,inet:gethostbyname(IPStr, inet6)} of
{true,{ok,HEnt}} ->
?line HEnt_ = HEnt#hostent{h_addrtype = inet6,
h_length = 16,
h_addr_list = [IP_46]},
?line HEnt_ = HEnt,
?line check_elems([{HEnt#hostent.h_name,[IP_46_Str,IPStr]},
{HEnt#hostent.h_aliases,[[],Aliases]}]);
{_,IP4to6Res} -> ok
end,
ok.
host_and_addr() -> required(hosts).
host_and_addr(doc) -> ["Test looking up hosts and addresses. Use 'ypcat hosts' ",
"or the local eqivalent to find all hosts."];
host_and_addr(suite) -> [];
host_and_addr(Config) when is_list(Config) ->
?line Dog = test_server:timetrap(test_server:minutes(5)),
?line lists:foreach(fun try_host/1, get_hosts(Config)),
?line test_server:timetrap_cancel(Dog),
ok.
try_host({Ip0, Host}) ->
?line {ok,Ip} = inet:getaddr(Ip0, inet),
?line {ok,{hostent, _, _, inet, _, Ips1}} = inet:gethostbyaddr(Ip),
?line {ok,{hostent, _, _, inet, _, _Ips2}} = inet:gethostbyname(Host),
?line true = lists:member(Ip, Ips1),
ok.
%% Get all hosts from the system using 'ypcat hosts' or the local
%% equvivalent.
get_hosts(_Config) ->
case os:type() of
{unix, _} ->
List = lists:map(fun(X) ->
atom_to_list(X)++" "
end, ct:get_config(test_hosts)),
Cmd = "ypmatch "++List++" hosts.byname",
HostFile = os:cmd(Cmd),
get_hosts(HostFile, [], [], []);
_ ->
ct:get_config(hardcoded_hosts)
end.
get_ipv6_hosts(_Config) ->
case os:type() of
{unix, _} ->
List = lists:map(fun(X) ->
atom_to_list(X)++" "
end, ct:get_config(ipv6_hosts)),
Cmd = "ypmatch "++List++" ipnodes.byname",
HostFile = os:cmd(Cmd),
get_hosts(HostFile, [], [], []);
_ ->
ct:get_config(hardcoded_ipv6_hosts)
end.
get_hosts([$\t|Rest], Cur, Ip, Result) when Ip /= [] ->
get_hosts(Rest, Cur, Ip, Result);
get_hosts([$\t|Rest], Cur, _Ip, Result) ->
get_hosts(Rest, [], lists:reverse(Cur), Result);
get_hosts([$\r|Rest], Cur, Ip, Result) ->
get_hosts(Rest, Cur, Ip, Result);
get_hosts([$\n|Rest], Cur, Ip, Result) ->
[First|_] = string:tokens(lists:reverse(Cur), " "),
Ips = string:tokens(Ip, ","),
Hosts = [{I, First} || I <- Ips],
get_hosts(Rest, [], [], Hosts++Result);
get_hosts([C|Rest], Cur, Ip, Result) ->
get_hosts(Rest, [C|Cur], Ip, Result);
get_hosts([], _, _, Result) ->
Result.
parse_hosts(Config) when is_list(Config) ->
?line DataDir = ?config(data_dir,Config),
?line HostFile = filename:join(DataDir, "hosts"),
?line inet_parse:hosts(HostFile),
?line HostFileErr1 = filename:join(DataDir, "hosts_err1"),
?line inet_parse:hosts(HostFileErr1),
?line Resolv = filename:join(DataDir,"resolv.conf"),
?line inet_parse:resolv(Resolv),
?line ResolvErr1 = filename:join(DataDir,"resolv.conf.err1"),
?line inet_parse:resolv(ResolvErr1).
parse_address(Config) when is_list(Config) ->
V4Strict =
[{{0,0,0,0},"0.0.0.0"},
{{1,2,3,4},"1.2.3.4"},
{{253,252,251,250},"253.252.251.250"},
{{1,2,255,254},"1.2.255.254"}],
V6Strict =
[{{0,0,0,0,0,0,0,0},"::"},
{{15,0,0,0,0,0,0,2},"f::2"},
{{15,16#f11,0,0,0,0,256,2},"f:f11::0100:2"},
{{0,0,0,0,0,0,0,16#17},"::17"},
{{16#700,0,0,0,0,0,0,0},"0700::"},
{{0,0,0,0,0,0,2,1},"::2:1"},
{{0,0,0,0,0,3,2,1},"::3:2:1"},
{{0,0,0,0,4,3,2,1},"::4:3:2:1"},
{{0,0,0,5,4,3,2,1},"::5:4:3:2:1"},
{{0,0,6,5,4,3,2,1},"::6:5:4:3:2:1"},
{{0,7,6,5,4,3,2,1},"::7:6:5:4:3:2:1"},
{{7,0,0,0,0,0,0,0},"7::"},
{{7,6,0,0,0,0,0,0},"7:6::"},
{{7,6,5,0,0,0,0,0},"7:6:5::"},
{{7,6,5,4,0,0,0,0},"7:6:5:4::"},
{{7,6,5,4,3,0,0,0},"7:6:5:4:3::"},
{{7,6,5,4,3,2,0,0},"7:6:5:4:3:2::"},
{{7,6,5,4,3,2,1,0},"7:6:5:4:3:2:1::"},
{{16#c11,16#c22,16#5c33,16#c440,16#55c0,16#c66c,16#77,16#88},
"c11:0c22:5c33:c440:55c0:c66c:77:0088"},
{{16#c11,0,16#5c33,16#c440,16#55c0,16#c66c,16#77,16#88},
"c11::5c33:c440:55c0:c66c:77:0088"},
{{16#c11,16#c22,0,16#c440,16#55c0,16#c66c,16#77,16#88},
"c11:0c22::c440:55c0:c66c:77:0088"},
{{16#c11,16#c22,16#5c33,0,16#55c0,16#c66c,16#77,16#88},
"c11:0c22:5c33::55c0:c66c:77:0088"},
{{16#c11,16#c22,16#5c33,16#c440,0,16#c66c,16#77,16#88},
"c11:0c22:5c33:c440::c66c:77:0088"},
{{16#c11,16#c22,16#5c33,16#c440,16#55c0,0,16#77,16#88},
"c11:0c22:5c33:c440:55c0::77:0088"},
{{16#c11,16#c22,16#5c33,16#c440,16#55c0,16#c66c,0,16#88},
"c11:0c22:5c33:c440:55c0:c66c::0088"},
{{16#c11,0,0,16#c440,16#55c0,16#c66c,16#77,16#88},
"c11::c440:55c0:c66c:77:0088"},
{{16#c11,16#c22,0,0,16#55c0,16#c66c,16#77,16#88},
"c11:0c22::55c0:c66c:77:0088"},
{{16#c11,16#c22,16#5c33,0,0,16#c66c,16#77,16#88},
"c11:0c22:5c33::c66c:77:0088"},
{{16#c11,16#c22,16#5c33,16#c440,0,0,16#77,16#88},
"c11:0c22:5c33:c440::77:0088"},
{{16#c11,16#c22,16#5c33,16#c440,16#55c0,0,0,16#88},
"c11:0c22:5c33:c440:55c0::0088"},
{{16#c11,0,0,0,16#55c0,16#c66c,16#77,16#88},
"c11::55c0:c66c:77:0088"},
{{16#c11,16#c22,0,0,0,16#c66c,16#77,16#88},
"c11:0c22::c66c:77:0088"},
{{16#c11,16#c22,16#5c33,0,0,0,16#77,16#88},
"c11:0c22:5c33::77:0088"},
{{16#c11,16#c22,16#5c33,16#c440,0,0,0,16#88},
"c11:0c22:5c33:c440::0088"},
{{16#c11,0,0,0,0,16#c66c,16#77,16#88},
"c11::c66c:77:0088"},
{{16#c11,16#c22,0,0,0,0,16#77,16#88},
"c11:0c22::77:0088"},
{{16#c11,16#c22,16#5c33,0,0,0,0,16#88},
"c11:0c22:5c33::0088"},
{{16#c11,0,0,0,0,0,16#77,16#88},
"c11::77:0088"},
{{16#c11,16#c22,0,0,0,0,0,16#88},
"c11:0c22::0088"},
{{0,0,0,0,0,65535,258,65534},"::FFFF:1.2.255.254"},
{{16#ffff,16#ffff,16#ffff,16#ffff,16#ffff,16#ffff,16#ffff,16#ffff},
"ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff"}
|[{{D2,0,0,0,0,P,(D1 bsl 8) bor D2,(D3 bsl 8) bor D4},
erlang:integer_to_list(D2, 16)++"::"++Q++S}
|| {{D1,D2,D3,D4},S} <- V4Strict,
{P,Q} <- [{0,""},{16#17,"17:"},{16#ff0,"0ff0:"}]]],
V4Sloppy =
[{{10,1,16#98,16#76},"10.0x019876"},
{{8#12,1,8#130,8#321},"012.01.054321"},
{{255,255,255,255},"255.255.255.0377"},
{{255,255,255,255},"0Xff.000000000377.0x0000ff.255"},
{{255,255,255,255},"255.255.65535"},
{{255,255,255,255},"255.0xFF.0177777"},
{{255,255,255,255},"255.16777215"},
{{255,255,255,255},"00377.0XFFFFFF"},
{{255,255,255,255},"4294967295"},
{{255,255,255,255},"0xffffffff"},
{{255,255,255,255},"00000000000037777777777"},
{{16#12,16#34,16#56,16#78},"0x12345678"},
{{16#12,16#34,16#56,16#78},"0x12.0x345678"},
{{16#12,16#34,16#56,16#78},"0x12.0X34.0x5678"},
{{16#12,16#34,16#56,16#78},"0x12.0X34.0x56.0X78"},
{{0,0,0,0},"0"},
{{0,0,0,0},"00"},
{{0,0,0,0},"0.0"},
{{0,0,0,0},"00.00.00"},
{{0,0,0,0},"0.00.0.0"},
{{0,0,0,0},"0.0.000000000000.0"}],
V6Sloppy =
[{{0,0,0,0,0,65535,(D1 bsl 8) bor D2,(D3 bsl 8) bor D4},S}
|| {{D1,D2,D3,D4},S} <- V4Strict++V4Sloppy],
V4Err =
["0.256.0.1",
"1.2.3.4.5",
"256.255.65535",
"4294967296",
"0x100000000",
"040000000000",
"1.2.3.-4",
"1.2.-3.4",
"1.-2.3.4",
"-1.2.3.4",
"10.",
"172.16.",
"198.168.0.",
"127.0.0.1."],
V6Err =
[":::",
"f:::2",
"::-1",
"::g",
"f:f11::10100:2",
"::17000",
"10000::",
"::8:7:6:5:4:3:2:1",
"8:7:6:5:4:3:2:1::",
"8:7:6:5:4::3:2:1",
"::1.2.3.4.5",
"::1.2.3.04",
"::1.256.3.4",
"::-5.4.3.2",
"::5.-4.3.2",
"::5.4.-3.2",
"::5.4.3.-2",
"::FFFF:1.2.3.4.5",
"::10.",
"::FFFF:172.16.",
"fe80::198.168.0.",
"fec0::fFfF:127.0.0.1."],
t_parse_address
(parse_ipv6_address,
V6Strict++V6Sloppy++V6Err++V4Err),
t_parse_address
(parse_ipv6strict_address,
V6Strict++V6Err++V4Err++[S || {_,S} <- V6Sloppy]),
t_parse_address
(parse_ipv4_address,
V4Strict++V4Sloppy++V4Err++V6Err++[S || {_,S} <- V6Strict]),
t_parse_address
(parse_ipv4strict_address,
V4Strict++V4Err++V6Err++[S || {_,S} <- V4Sloppy++V6Strict]).
t_parse_address(Func, []) ->
io:format("~p done.~n", [Func]),
ok;
t_parse_address(Func, [{Addr,String}|L]) ->
io:format("~p = ~p.~n", [Addr,String]),
{ok,Addr} = inet:Func(String),
t_parse_address(Func, L);
t_parse_address(Func, [String|L]) ->
io:format("~p.~n", [String]),
{error,einval} = inet:Func(String),
t_parse_address(Func, L).
parse_strict_address(Config) when is_list(Config) ->
{ok, {127,0,0,1}} =
inet:parse_strict_address("127.0.0.1"),
{ok, {3089,3106,23603,50240,21952,50796,119,136}} =
inet:parse_strict_address("c11:0c22:5c33:c440:55c0:c66c:77:0088"),
{ok, {3089,3106,23603,50240,0,0,119,136}} =
inet:parse_strict_address("c11:0c22:5c33:c440::077:0088").
t_gethostnative(suite) ->[];
t_gethostnative(doc) ->[];
t_gethostnative(Config) when is_list(Config) ->
%% this will result in 26 bytes sent which causes problem in Windows
%% if the port-program has not assured stdin to be read in BINARY mode
%% OTP-2555
?line case inet_gethost_native:gethostbyname(
"a23456789012345678901234") of
{error,notfound} ->
?line ok;
{error,no_data} ->
?line ok
end.
gethostnative_parallell(suite) ->
[];
gethostnative_parallell(doc) ->
["Check that the emulator survives crashes in gethost_native"];
gethostnative_parallell(Config) when is_list(Config) ->
?line {ok,Hostname} = inet:gethostname(),
?line {ok,_} = inet:gethostbyname(Hostname),
case whereis(inet_gethost_native) of
Pid when is_pid(Pid) ->
?line do_gethostnative_parallell();
_ ->
?line {skipped, "Not running native gethostbyname"}
end.
do_gethostnative_parallell() ->
?line PA = filename:dirname(code:which(?MODULE)),
?line {ok,Node} = ?t:start_node(gethost_parallell, slave,
[{args, "-pa " ++ PA}]),
?line ok = rpc:call(Node, ?MODULE, parallell_gethost, []),
?line receive after 10000 -> ok end,
?line pong = net_adm:ping(Node),
?line ?t:stop_node(Node),
ok.
parallell_gethost() ->
{ok,Hostname} = inet:gethostname(),
process_flag(trap_exit,true),
parallell_gethost_loop(10, Hostname).
parallell_gethost_loop(0, _) -> ok;
parallell_gethost_loop(N, Hostname) ->
case whereis(inet_gethost_native) of
Pid when is_pid(Pid) ->
true = exit(Pid,kill);
_ ->
ok
end,
L = spawn_gethosters(Hostname, 10),
release_gethosters(L),
collect_gethosters(10),
parallell_gethost_loop(N-1, Hostname).
spawn_gethosters(_, 0) ->
[];
spawn_gethosters(Hostname, N) ->
Collector = self(),
[spawn(fun() ->
receive
go ->
case (catch inet:gethostbyname(Hostname)) of
{ok,_} ->
Collector ! ok;
Else ->
Collector ! {error,Else}
end
end
end) |
spawn_gethosters(Hostname, N-1)].
release_gethosters([]) ->
ok;
release_gethosters([H|T]) ->
H ! go,
release_gethosters(T).
collect_gethosters(0) ->
ok;
collect_gethosters(N) ->
receive
ok ->
collect_gethosters(N-1);
Else ->
{failed, {unexpected, Else}}
after 2000 ->
{failed, {missing, N}}
end.
kill_gethost() ->
kill_gethost(20).
kill_gethost(0) ->
ok;
kill_gethost(N) ->
put(kill_gethost_n,N),
Pid = wait_for_gethost(10),
true = exit(Pid,kill),
wait_for_dead_gethost(10),
kill_gethost(N-1).
wait_for_dead_gethost(0) ->
exit({not_dead,inet_gethost_native});
wait_for_dead_gethost(N) ->
case whereis(inet_gethost_native) of
Pid when is_pid(Pid) ->
receive after 1000 ->
ok
end,
wait_for_dead_gethost(N-1);
undefined ->
ok
end.
wait_for_gethost(0) ->
exit(gethost_not_found);
wait_for_gethost(N) ->
{ok,Hostname} = inet:gethostname(),
case (catch inet:gethostbyname(Hostname)) of
{ok,_} ->
ok;
Otherwise ->
%% This is what I call an exit tuple :)
exit({inet,gethostbyname, returned, Otherwise, 'when',
'N','=',N,'and','hostname','=',Hostname,'and',
kill_gethost_n,'=',get(kill_gethost_n)})
end,
case whereis(inet_gethost_native) of
Pid when is_pid(Pid) ->
Pid;
_ ->
receive
after 1000 ->
ok
end,
wait_for_gethost(N-1)
end.
cname_loop(suite) ->
[];
cname_loop(doc) ->
["Check that the resolver handles a CNAME loop"];
cname_loop(Config) when is_list(Config) ->
%% getbyname (hostent_by_domain)
?line ok = inet_db:add_rr("mydomain.com", in, ?S_CNAME, ttl, "mydomain.com"),
?line {error,nxdomain} = inet_db:getbyname("mydomain.com", ?S_A),
?line ok = inet_db:del_rr("mydomain.com", in, ?S_CNAME, "mydomain.com"),
%% res_hostent_by_domain
RR = #dns_rr{domain = "mydomain.com",
class = in,
type = ?S_CNAME,
data = "mydomain.com"},
Rec = #dns_rec{anlist = [RR]},
?line {error,nxdomain} = inet_db:res_hostent_by_domain("mydomain.com", ?S_A, Rec),
ok.
%% These must be run in the whole suite since they need
%% the host list and require inet_gethost_native to be started.
%%
-record(gethostnative_control, {control_seq,
control_interval=100,
lookup_delay=10,
lookup_count=300,
lookup_processes=20}).
gethostnative_soft_restart() -> required(hosts).
gethostnative_soft_restart(suite) ->
[];
gethostnative_soft_restart(doc) ->
["Check that no name lookups fails during soft restart "
"of inet_gethost_native"];
gethostnative_soft_restart(Config) when is_list(Config) ->
?line gethostnative_control(Config,
#gethostnative_control{
control_seq=[soft_restart]}).
gethostnative_debug_level() -> required(hosts).
gethostnative_debug_level(suite) ->
[];
gethostnative_debug_level(doc) ->
["Check that no name lookups fails during debug level change "
"of inet_gethost_native"];
gethostnative_debug_level(Config) when is_list(Config) ->
?line gethostnative_control(Config,
#gethostnative_control{
control_seq=[{debug_level,1},
{debug_level,0}]}).
gethostnative_control(Config, Optrec) ->
?line case inet_db:res_option(lookup) of
[native] ->
case whereis(inet_gethost_native) of
Pid when is_pid(Pid) ->
?line gethostnative_control_1(Config, Optrec);
_ ->
?line {skipped, "Not running native gethostbyname"}
end;
_ ->
?line {skipped, "Native not only lookup metod"}
end.
gethostnative_control_1(Config,
#gethostnative_control{
control_seq=Seq,
control_interval=Interval,
lookup_delay=Delay,
lookup_count=Cnt,
lookup_processes=N}) ->
?line {ok, Hostname} = inet:gethostname(),
?line {ok, _} = inet:gethostbyname(Hostname),
?line Hosts =
[Hostname|[H || {_,H} <- get_hosts(Config)]
++[H++D || H <- ["www.","www1.","www2.",""],
D <- ["erlang.org","erlang.se"]]
++[H++"cslab.ericsson.net" || H <- ["morgoth.","hades.","styx."]]],
%% Spawn some processes to do parallel lookups while
%% I repeatedly do inet_gethost_native:control/1.
?line TrapExit = process_flag(trap_exit, true),
?line gethostnative_control_2([undefined], Interval, Delay, Cnt, N, Hosts),
?line test_server:format(
"First intermission: now starting control sequence ~w\n",
[Seq]),
?line erlang:display(first_intermission),
?line gethostnative_control_2(Seq, Interval, Delay, Cnt, N, Hosts),
?line erlang:display(second_intermission),
?line test_server:format(
"Second intermission: now stopping control sequence ~w\n",
[Seq]),
?line gethostnative_control_2([undefined], Interval, Delay, Cnt, N, Hosts),
?line true = process_flag(trap_exit, TrapExit),
?line ok.
gethostnative_control_2(Seq, Interval, Delay, Cnt, N, Hosts) ->
?line Tag = make_ref(),
?line Parent = self(),
?line Lookupers =
[spawn_link(
fun () ->
random:seed(),
lookup_loop(Hosts, Delay, Tag, Parent, Cnt, Hosts)
end)
|| _ <- lists:seq(1, N)],
control_loop(Seq, Interval, Tag, Lookupers, Seq),
gethostnative_control_3(Tag, ok).
gethostnative_control_3(Tag, Reason) ->
receive
{Tag,Error} ->
?line gethostnative_control_3(Tag, Error)
after 0 ->
Reason
end.
control_loop([], _Interval, _Tag, [], _Seq) ->
ok;
control_loop([], Interval, Tag, Lookupers, Seq) ->
control_loop(Seq, Interval, Tag, Lookupers, Seq);
control_loop([Op|Ops], Interval, Tag, Lookupers, Seq) ->
control_loop(Ops, Interval, Tag,
control_loop_1(Op, Interval, Tag, Lookupers),
Seq).
control_loop_1(Op, Interval, Tag, Lookupers) ->
?line
receive
{'EXIT',Pid,Reason} ->
?line case Reason of
Tag -> % Done
?line control_loop_1
(Op, Interval, Tag,
lists:delete(Pid, Lookupers));
_ ->
?line io:format("Lookuper ~p died: ~p",
[Pid,Reason]),
?line test_server:fail("Lookuper died")
end
after Interval ->
?line if Op =/= undefined ->
?line ok = inet_gethost_native:control(Op);
true ->
?line ok
end,
?line Lookupers
end.
lookup_loop(_, _Delay, Tag, _Parent, 0, _Hosts) ->
exit(Tag);
lookup_loop([], Delay, Tag, Parent, Cnt, Hosts) ->
lookup_loop(Hosts, Delay, Tag, Parent, Cnt, Hosts);
lookup_loop([H|Hs], Delay, Tag, Parent, Cnt, Hosts) ->
case inet:gethostbyname(H) of
{ok,_Hent} -> ok;
{error,nxdomain} -> ok;
Error ->
?line io:format("Name lookup error for ~p for ~p: ~p",
[self(),H,Error]),
Parent ! {Tag,Error}
end,
receive
after random:uniform(Delay) ->
lookup_loop(Hs, Delay, Tag, Parent, Cnt-1, Hosts)
end.
lookup_bad_search_option(suite) ->
[];
lookup_bad_search_option(doc) ->
["Test lookup with erroneously configured lookup option (OTP-12133)"];
lookup_bad_search_option(Config) when is_list(Config) ->
%% Manipulation of resolver config is done in init_per_testcase
%% and end_per_testcase to ensure cleanup.
{ok,Hostname} = inet:gethostname(),
{ok,_Hent} = inet:gethostbyname(Hostname), % Will hang loop for this bug
ok.
getif(suite) ->
[];
getif(doc) ->
["Tests basic functionality of getiflist, getif, and ifget"];
getif(Config) when is_list(Config) ->
?line case os:type() of
{unix,Osname} ->
?line do_getif(Osname);
{_,_} ->
{skip,"inet:getif/0 probably not supported"}
end.
do_getif(Osname) ->
?line {ok,Hostname} = inet:gethostname(),
?line {ok,Address} = inet:getaddr(Hostname, inet),
?line {ok,Loopback} = inet:getaddr("localhost", inet),
?line {ok,Interfaces} = inet:getiflist(),
?line HWAs =
lists:sort(
lists:foldl(
fun (I, Acc) ->
case inet:ifget(I, [hwaddr]) of
{ok,[{hwaddr,A}]} -> [A|Acc];
{ok,[]} -> Acc
end
end, [], Interfaces)),
?line io:format("HWAs = ~p~n", [HWAs]),
?line (Osname =/= sunos)
andalso ((length(HWAs) > 0) orelse (?t:fail(no_HWAs))),
?line Addresses =
lists:sort(
lists:foldl(
fun (I, Acc) ->
case inet:ifget(I, [addr]) of
{ok,[{addr,A}]} -> [A|Acc];
{ok,[]} -> Acc
end
end, [], Interfaces)),
?line {ok,Getif} = inet:getif(),
?line Addresses = lists:sort([A || {A,_,_} <- Getif]),
?line true = ip_member(Address, Addresses),
?line true = ip_member(Loopback, Addresses),
?line ok.
getif_ifr_name_overflow(doc) ->
"Test long interface names do not overrun buffer";
getif_ifr_name_overflow(Config) when is_list(Config) ->
?line case os:type() of
{unix,Osname} ->
?line do_getif_ifr_name_overflow(Osname);
{_,_} ->
{skip,"inet:ifget/2 probably not supported"}
end.
do_getif_ifr_name_overflow(_) ->
%% emulator should not crash
?line {ok,[]} = inet:ifget(lists:duplicate(128, "x"), [addr]),
ok.
getservbyname_overflow(doc) ->
"Test long service names do not overrun buffer";
getservbyname_overflow(Config) when is_list(Config) ->
%% emulator should not crash
?line {error,einval} = inet:getservbyname(list_to_atom(lists:flatten(lists:duplicate(128, "x"))), tcp),
ok.
getifaddrs(doc) ->
"Test inet:gifaddrs/0";
getifaddrs(Config) when is_list (Config) ->
?line {ok,IfAddrs} = inet:getifaddrs(),
?line ?t:format("IfAddrs = ~p.~n", [IfAddrs]),
?line
case
{os:type(),
[If ||
{If,Opts} <- IfAddrs,
lists:keymember(hwaddr, 1, Opts)]} of
{{unix,sunos},[]} -> ok;
{OT,[]} ->
?t:fail({should_have_hwaddr,OT});
_ -> ok
end,
?line Addrs =
[element(1, A) || A <- ifaddrs(IfAddrs)],
?line ?t:format("Addrs = ~p.~n", [Addrs]),
?line [check_addr(Addr) || Addr <- Addrs],
ok.
check_addr(Addr)
when tuple_size(Addr) =:= 8,
element(1, Addr) band 16#FFC0 =:= 16#FE80 ->
?line ?t:format("Addr: ~p link local; SKIPPED!~n", [Addr]),
ok;
check_addr(Addr) ->
?line ?t:format("Addr: ~p.~n", [Addr]),
?line Ping = "ping",
?line Pong = "pong",
?line {ok,L} = gen_tcp:listen(0, [{ip,Addr},{active,false}]),
?line {ok,P} = inet:port(L),
?line {ok,S1} = gen_tcp:connect(Addr, P, [{active,false}]),
?line {ok,S2} = gen_tcp:accept(L),
?line ok = gen_tcp:send(S2, Ping),
?line {ok,Ping} = gen_tcp:recv(S1, length(Ping)),
?line ok = gen_tcp:send(S1, Pong),
?line ok = gen_tcp:close(S1),
?line {ok,Pong} = gen_tcp:recv(S2, length(Pong)),
?line ok = gen_tcp:close(S2),
?line ok = gen_tcp:close(L),
ok.
-record(ifopts, {name,flags,addrs=[],hwaddr}).
ifaddrs([]) -> [];
ifaddrs([{If,Opts}|IOs]) ->
?line #ifopts{flags=Flags} = Ifopts =
check_ifopts(Opts, #ifopts{name=If}),
?line case Flags =/= undefined andalso lists:member(up, Flags) of
true ->
Ifopts#ifopts.addrs;
false ->
[]
end++ifaddrs(IOs).
check_ifopts([], #ifopts{name=If,flags=Flags,addrs=Raddrs}=Ifopts) ->
Addrs = lists:reverse(Raddrs),
R = Ifopts#ifopts{addrs=Addrs},
?t:format("~p.~n", [R]),
%% See how we did...
if is_list(Flags) -> ok;
true ->
?t:fail({flags_undefined,If})
end,
case lists:member(broadcast, Flags) of
true ->
[case A of
{_,_,_} -> A;
{T,_} when tuple_size(T) =:= 8 -> A;
_ ->
?t:fail({broaddr_missing,If,A})
end || A <- Addrs];
false ->
[case A of {_,_} -> A;
_ ->
?t:fail({should_have_netmask,If,A})
end || A <- Addrs]
end,
R;
check_ifopts([{flags,Flags}|Opts], #ifopts{flags=undefined}=Ifopts) ->
check_ifopts(Opts, Ifopts#ifopts{flags=Flags});
check_ifopts([{flags,Fs}|Opts], #ifopts{flags=Flags}=Ifopts) ->
case Fs of
Flags ->
check_ifopts(Opts, Ifopts#ifopts{});
_ ->
?t:fail({multiple_flags,Fs,Ifopts})
end;
check_ifopts(
[{addr,Addr},{netmask,Netmask},{broadaddr,Broadaddr}|Opts],
#ifopts{addrs=Addrs}=Ifopts) ->
check_ifopts(Opts, Ifopts#ifopts{addrs=[{Addr,Netmask,Broadaddr}|Addrs]});
check_ifopts(
[{addr,Addr},{netmask,Netmask}|Opts],
#ifopts{addrs=Addrs}=Ifopts) ->
check_ifopts(Opts, Ifopts#ifopts{addrs=[{Addr,Netmask}|Addrs]});
check_ifopts([{addr,Addr}|Opts], #ifopts{addrs=Addrs}=Ifopts) ->
check_ifopts(Opts, Ifopts#ifopts{addrs=[{Addr}|Addrs]});
check_ifopts([{hwaddr,Hwaddr}|Opts], #ifopts{hwaddr=undefined}=Ifopts)
when is_list(Hwaddr) ->
check_ifopts(Opts, Ifopts#ifopts{hwaddr=Hwaddr});
check_ifopts([{hwaddr,HwAddr}|_], #ifopts{}=Ifopts) ->
?t:fail({multiple_hwaddrs,HwAddr,Ifopts}).
%% Works just like lists:member/2, except that any {127,_,_,_} tuple
%% matches any other {127,_,_,_}. We do this to handle Linux systems
%% that use (for instance) 127.0.1.1 as the IP address for the hostname.
ip_member({127,_,_,_}, [{127,_,_,_}|_]) -> true;
ip_member(K, [K|_]) -> true;
ip_member(K, [_|T]) -> ip_member(K, T);
ip_member(_, []) -> false.
%% Case fold to upper case according to RFC 4343
%%
toupper([C|Cs]) when is_integer(C) ->
if $a =< C, C =< $z ->
[(C - $a + $A)|toupper(Cs)];
true ->
[C|toupper(Cs)]
end;
toupper([]) ->
[].
simple_netns(Config) when is_list(Config) ->
{ok,U} = gen_udp:open(0),
case inet:setopts(U, [{netns,""}]) of
ok ->
jog_netns_opt(U),
ok = gen_udp:close(U),
%%
{ok,L} = gen_tcp:listen(0, []),
jog_netns_opt(L),
ok = gen_tcp:close(L),
%%
{ok,S} = gen_sctp:open(),
jog_netns_opt(S),
ok = gen_sctp:close(S);
{error,einval} ->
{skip,"setns() not supported"}
end.
jog_netns_opt(S) ->
%% This is just jogging the option mechanics
ok = inet:setopts(S, [{netns,""}]),
{ok,[{netns,""}]} = inet:getopts(S, [netns]),
ok = inet:setopts(S, [{netns,"/proc/self/ns/net"}]),
{ok,[{netns,"/proc/self/ns/net"}]} = inet:getopts(S, [netns]),
ok.
simple_netns_open(Config) when is_list(Config) ->
case gen_udp:open(0, [binary,{netns,"/"},inet]) of
{ok,U} ->
ok = gen_udp:close(U);
{error,E1} when E1 =:= einval; E1 =:= eperm ->
ok
end,
case gen_tcp:listen(0, [binary,{netns,"/"},inet]) of
{ok,T} ->
ok = gen_tcp:close(T);
{error,E2} when E2 =:= einval; E2 =:= eperm ->
ok
end,
try gen_sctp:open(0, [binary,{netns,"/"},inet]) of
{ok,S} ->
ok = gen_sctp:close(S);
{error,E3}
when E3 =:= einval; E3 =:= eperm; E3 =:= eprotonosupport ->
ok
catch
error:badarg ->
%% Some older platforms does not allow netns for sctp
ok
end.
%% Manual test to be run outside test_server in an emulator
%% started by root, in a machine with setns() support...
test_netns() ->
DefaultIF = v1,
DefaultIP = {192,168,1,17},
Namespace = "test",
NamespaceIF = v2,
NamespaceIP = {192,168,1,18},
%%
DefaultIPString = inet_parse:ntoa(DefaultIP),
NamespaceIPString = inet_parse:ntoa(NamespaceIP),
cmd("ip netns add ~s",
[Namespace]),
cmd("ip link add name ~w type veth peer name ~w netns ~s",
[DefaultIF,NamespaceIF,Namespace]),
cmd("ip netns exec ~s ip addr add ~s/30 dev ~w",
[Namespace,NamespaceIPString,NamespaceIF]),
cmd("ip netns exec ~s ip link set ~w up",
[Namespace,NamespaceIF]),
cmd("ip addr add ~s/30 dev ~w",
[DefaultIPString,DefaultIF]),
cmd("ip link set ~w up",
[DefaultIF]),
try test_netns(
{DefaultIF,DefaultIP},
filename:join("/var/run/netns/", Namespace),
{NamespaceIF,NamespaceIP}) of
Result ->
io:put_chars(["#### Test done",io_lib:nl()]),
Result
after
cmd("ip link delete ~w type veth",
[DefaultIF]),
cmd("ip netns delete ~s",
[Namespace])
end.
test_netns({DefaultIF,DefaultIP}, Namespace, {NamespaceIF,NamespaceIP}) ->
{ok,ListenSocket} = gen_tcp:listen(0, [{active,false}]),
{ok,[{addr,DefaultIP}]} = inet:ifget(ListenSocket, DefaultIF, [addr]),
{ok,ListenPort} = inet:port(ListenSocket),
{ok,ConnectSocket} =
gen_tcp:connect(
DefaultIP, ListenPort, [{active,false},{netns,Namespace}], 3000),
{ok,[{addr,NamespaceIP}]} = inet:ifget(ConnectSocket, NamespaceIF, [addr]),
{ok,ConnectPort} = inet:port(ConnectSocket),
{ok,AcceptSocket} = gen_tcp:accept(ListenSocket, 0),
{ok,AcceptPort} = inet:port(AcceptSocket),
{ok,{NamespaceIP,ConnectPort}} = inet:peername(AcceptSocket),
{ok,{DefaultIP,AcceptPort}} = inet:peername(ConnectSocket),
ok = gen_tcp:send(ConnectSocket, "data"),
ok = gen_tcp:close(ConnectSocket),
{ok,"data"} = gen_tcp:recv(AcceptSocket, 4, 1000),
{error,closed} = gen_tcp:recv(AcceptSocket, 1, 1000),
ok = gen_tcp:close(AcceptSocket),
ok = gen_tcp:close(ListenSocket).
cmd(Cmd, Args) ->
cmd(io_lib:format(Cmd, Args)).
%%
cmd(CmdString) ->
io:put_chars(["# ",CmdString,io_lib:nl()]),
io:put_chars([os:cmd(CmdString++" ; echo ' =>' $?")]),
ok.