%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2003-2012. All Rights Reserved.
%%
%% 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%
%%
%%
-module(ei_tmo_SUITE).
-include_lib("common_test/include/ct.hrl").
-include_lib("kernel/include/inet.hrl").
-include("ei_tmo_SUITE_data/ei_tmo_test_cases.hrl").
-export([all/0, suite/0,
init_per_testcase/2, end_per_testcase/2,
framework_check/1, ei_accept_tmo/1, ei_connect_tmo/1, ei_send_tmo/1,
ei_connect_tmo/0,
ei_recv_tmo/1]).
suite() ->
[{ct_hooks,[ts_install_cth]},
{timetrap, {minutes, 1}}].
all() ->
[framework_check, ei_accept_tmo, ei_connect_tmo,
ei_send_tmo, ei_recv_tmo].
init_per_testcase(_Case, Config) ->
% test if platform is vxworks_simso
{_,Host} = split(node()),
Bool = case atom_to_list(Host) of
[$v,$x,$s,$i,$m | _] -> true;
_ -> false
end,
[{vxsim,Bool}|Config].
end_per_testcase(_Case, _Config) ->
ok.
%% Check the framework.
framework_check(Config) when is_list(Config) ->
%%dbg:tracer(),
%%dbg:p(self()),
P = runner:start(?framework_check),
runner:send_term(P,{hello,world}),
{term, {hello,world}} = runner:get_term(P),
runner:recv_eot(P),
ok.
%% Check recv with timeouts.
ei_recv_tmo(Config) when is_list(Config) ->
do_one_recv(Config,c_node_recv_tmo_1),
do_one_recv_failure(Config,c_node_recv_tmo_2),
ok.
do_one_recv(Config,CNode) ->
{_,Host} = split(node()),
P1 = runner:start(?recv_tmo),
runner:send_term(P1,{CNode,
erlang:get_cookie(),
node()}),
{term, X} = runner:get_term(P1, 10000),
true = is_integer(X),
CNode1 = join(CNode,Host),
Term1 = {hej,[hopp,{i,[lingon,"skogen"]}]},
{test,CNode1} ! Term1,
{term, Term1} = runner:get_term(P1, 10000),
runner:recv_eot(P1).
do_one_recv_failure(Config,CNode) ->
P1 = runner:start(?recv_tmo),
runner:send_term(P1,{CNode,
erlang:get_cookie(),
node()}),
{term, X} = runner:get_term(P1, 10000),
true = is_integer(X),
{term, {Ret,ETimedout,ETimedout}} = runner:get_term(P1, 10000),
true = (Ret < 0),
runner:recv_eot(P1).
%% Check send with timeouts.
ei_send_tmo(Config) when is_list(Config) ->
%dbg:tracer(),
%dbg:p(self()),
VxSim = proplists:get_value(vxsim, Config),
register(ei_send_tmo_1,self()),
do_one_send(Config,self(),c_node_send_tmo_1),
do_one_send(Config,ei_send_tmo_1,c_node_send_tmo_2),
do_one_send_failure(Config,self(),cccc1,c_nod_send_tmo_3,VxSim),
do_one_send_failure(Config,ei_send_tmo_1,cccc2,c_nod_send_tmo_4,VxSim),
ok.
do_one_send(Config,From,CNode) ->
{_,Host} = split(node()),
P1 = runner:start(?send_tmo),
runner:send_term(P1,{CNode,
erlang:get_cookie(),
node()}),
{term, X} = runner:get_term(P1, 10000),
true = is_integer(X),
CNode1 = join(CNode,Host),
Term1 = {hej,[hopp,{i,[lingon,"skogen"]}]},
{test,CNode1} ! {From,1,Term1},
ok = receive
Term1 ->
ok
after 2000 ->
error
end,
{term, 0} = runner:get_term(P1, 10000),
runner:recv_eot(P1).
do_one_send_failure(Config,From,FakeName,CName,VxSim) ->
{_,Host} = split(node()),
OurName = join(FakeName,Host),
Node = join(CName,Host),
LSocket = case gen_tcp:listen(0, [{active, false}, {packet,2}]) of
{ok, Socket} ->
Socket;
Else ->
exit(Else)
end,
EpmdSocket = register(OurName, LSocket, 1, 5),
P3 = runner:start(?send_tmo),
Cookie = kaksmula_som_ingen_bryr_sig_om,
runner:send_term(P3,{CName,
Cookie,
OurName}),
SocketB = case gen_tcp:accept(LSocket) of
{ok, Socket1} ->
Socket1;
Else2 ->
exit(Else2)
end,
{hidden,Node,5} = recv_name(SocketB), % See 1)
send_status(SocketB, ok),
MyChallengeB = gen_challenge(),
send_challenge(SocketB, OurName, MyChallengeB, 5),
HisChallengeB = recv_challenge_reply(SocketB,
MyChallengeB,
Cookie),
DigestB = gen_digest(HisChallengeB,Cookie),
send_challenge_ack(SocketB, DigestB),
inet:setopts(SocketB, [{active, false},
{packet, 4}]),
{term, X} = runner:get_term(P3, 10000),
true = is_integer(X),
Message = [112,term_to_binary({6,self(),'',test}),
term_to_binary({From,50000,
{app,["lapp",{sa,["att",du,{slapp,
sitta}]}]}})],
gen_tcp:send(SocketB,Message),
%% At this point the test program starts sending messages (max 50000). Since
%% we're not receiving, eventually the send buffer fills up. Then no more
%% sending is possible and select() times out. The number of messages sent
%% before this happens is returned in Iters. The timeout value for get_term/2
%% must be large enough so there's time for the select() to time out and
%% the test program to return the error tuple (below).
Res0 = if VxSim == false ->
{term,{Res,ETO,Iters,ETO}} = runner:get_term(P3, 20000),
Res;
true -> % relax the test for vxsim
case runner:get_term(P3, 20000) of
{term,{Res,ETO,Iters,ETO}} ->
Res;
{term,{Res,_,Iters,_ETO}} -> % EIO?
Res
end
end,
runner:recv_eot(P3),
true = ((Res0 < 0) and (Iters > 0)),
gen_tcp:close(SocketB),
gen_tcp:close(EpmdSocket),
ok.
%% Check accept with timeouts.
ei_connect_tmo() -> [{require, test_host_not_reachable}].
ei_connect_tmo(Config) when is_list(Config) ->
%dbg:tracer(),
%dbg:p(self()),
VxSim = proplists:get_value(vxsim, Config),
DummyNode = make_and_check_dummy(),
P = runner:start(?connect_tmo),
runner:send_term(P,{c_nod_connect_tmo_1,
kaksmula_som_ingen_bryr_sig_om,
DummyNode}),
ETimedout =
if VxSim == false ->
{term,{-3,ETO,ETO}} = runner:get_term(P, 10000),
ETO;
true -> % relax the test for vxsim
case runner:get_term(P, 10000) of
{term,{-3,ETO,ETO}} ->
ETO;
{term,{-1,_,ETO}} -> % EHOSTUNREACH = ok
ETO
end
end,
runner:recv_eot(P),
P2 = runner:start(?connect_tmo),
runner:send_term(P2,{c_nod_connect_tmo_2,
erlang:get_cookie(),
node()}),
{term, X} = runner:get_term(P2, 10000),
runner:recv_eot(P2),
true = is_integer(X),
%% Aborted handshake test...
{_,Host} = split(node()),
OurName = join(cccc,Host),
Node = join(c_nod_connect_tmo_3,Host),
LSocket = case gen_tcp:listen(0, [{active, false}, {packet,2}]) of
{ok, Socket} ->
Socket;
Else ->
exit(Else)
end,
EpmdSocket = register(OurName, LSocket, 1, 5),
P3 = runner:start(?connect_tmo),
Cookie = kaksmula_som_ingen_bryr_sig_om,
runner:send_term(P3,{c_nod_connect_tmo_3,
Cookie,
OurName}),
SocketB = case gen_tcp:accept(LSocket) of
{ok, Socket1} ->
Socket1;
Else2 ->
exit(Else2)
end,
{hidden,Node,5} = recv_name(SocketB), % See 1)
send_status(SocketB, ok),
MyChallengeB = gen_challenge(),
send_challenge(SocketB, OurName, MyChallengeB, 5),
_HisChallengeB = recv_challenge_reply(SocketB,
MyChallengeB,
Cookie),
{term,{-1,ETimedout,ETimedout}} = runner:get_term(P3, 10000),
runner:recv_eot(P3),
gen_tcp:close(SocketB),
gen_tcp:close(EpmdSocket),
ok.
%% Check accept with timeouts.
ei_accept_tmo(Config) when is_list(Config) ->
%%dbg:tracer(),
%%dbg:p(self()),
P = runner:start(?accept_tmo),
runner:send_term(P,{c_nod_som_ingen_kontaktar_1,
kaksmula_som_ingen_bryr_sig_om}),
{term,{-1,ETimedout,ETimedout}} = runner:get_term(P, 10000),
runner:recv_eot(P),
P2 = runner:start(?accept_tmo),
runner:send_term(P2,{c_nod_som_vi_kontaktar_1,
erlang:get_cookie()}),
receive after 1000 -> ok end,
CNode1 = make_node(c_nod_som_vi_kontaktar_1),
{ignored,CNode1} ! tjenare,
{term, X} = runner:get_term(P2, 10000),
runner:recv_eot(P2),
true = is_integer(X),
P3 = runner:start(?accept_tmo),
runner:send_term(P3,{c_nod_som_vi_kontaktar_2,
erlang:get_cookie()}),
receive after 1000 -> ok end,
CNode2 = make_node(c_nod_som_vi_kontaktar_2),
{NA,NB} = split(CNode2),
{_,Host} = split(node()),
OurName = join(ccc,Host),
{port,PortNo,_} = erl_epmd:port_please(NA,NB),
{ok, SocketA} = gen_tcp:connect(atom_to_list(NB),PortNo,
[{active,false},
{packet,2}]),
send_name(SocketA,OurName,5),
ok = recv_status(SocketA),
{hidden,_Node,5,HisChallengeA} = recv_challenge(SocketA), % See 1)
_OurChallengeA = gen_challenge(),
_OurDigestA = gen_digest(HisChallengeA, erlang:get_cookie()),
%% Dont do the last two steps of the connection setup...
%% send_challenge_reply(SocketA, OurChallengeA, OurDigestA),
%% ok = recv_challenge_ack(SocketA, OurChallengeA, erlang:get_cookie()),
{term, {-1,ETimedout,ETimedout}} = runner:get_term(P3, 10000),
runner:recv_eot(P3),
gen_tcp:close(SocketA),
ok.
make_node(X) ->
list_to_atom(atom_to_list(X) ++ "@" ++
hd(tl(string:tokens(atom_to_list(node()),"@")))).
make_and_check_dummy() ->
% First check that the host has an ip and is *not* reachable
HostNotReachable = ct:get_config(test_host_not_reachable),
case gen_tcp:connect(HostNotReachable, 23, [{active,false}],5000) of
{error,timeout} -> ok;
{error,ehostunreach} -> ok
end,
list_to_atom("dummy@"++HostNotReachable).
%%
%% Stolen from the erl_distribution_wb_test in kernel
%% To be able to do partial handshakes...
%%
-define(to_port(Socket, Data),
case inet_tcp:send(Socket, Data) of
{error, closed} ->
self() ! {tcp_closed, Socket},
{error, closed};
R ->
R
end).
-define(DFLAG_PUBLISHED,1).
-define(DFLAG_ATOM_CACHE,2).
-define(DFLAG_EXTENDED_REFERENCES,4).
-define(DFLAG_EXTENDED_PIDS_PORTS,16#100).
-define(DFLAG_NEW_FLOATS,16#800).
-define(DFLAG_DIST_MONITOR,8).
%% From R9 and forward extended references is compulsory
%% From 14 and forward new float is compulsory
-define(COMPULSORY_DFLAGS, (?DFLAG_EXTENDED_REFERENCES bor ?DFLAG_EXTENDED_PIDS_PORTS bor ?DFLAG_NEW_FLOATS)).
-define(shutdown(X), exit(X)).
-define(int16(X), [((X) bsr 8) band 16#ff, (X) band 16#ff]).
-define(int32(X),
[((X) bsr 24) band 16#ff, ((X) bsr 16) band 16#ff,
((X) bsr 8) band 16#ff, (X) band 16#ff]).
-define(i16(X1,X0),
(?u16(X1,X0) -
(if (X1) > 127 -> 16#10000; true -> 0 end))).
-define(u16(X1,X0),
(((X1) bsl 8) bor (X0))).
-define(u32(X3,X2,X1,X0),
(((X3) bsl 24) bor ((X2) bsl 16) bor ((X1) bsl 8) bor (X0))).
%%
%% Handshake utilities
%%
%%
%% MD5 hashing
%%
%% This is no proper random number, but that is not really important in
%% this test
gen_challenge() ->
{_,_,N} = os:timestamp(),
N.
%% Generate a message digest from Challenge number and Cookie
gen_digest(Challenge, Cookie) when is_integer(Challenge), is_atom(Cookie) ->
C0 = erlang:md5_init(),
C1 = erlang:md5_update(C0, atom_to_list(Cookie)),
C2 = erlang:md5_update(C1, integer_to_list(Challenge)),
binary_to_list(erlang:md5_final(C2)).
%%
%% The differrent stages of the MD5 handshake
%%
send_status(Socket, Stat) ->
case gen_tcp:send(Socket, [$s | atom_to_list(Stat)]) of
{error, _} -> ?shutdown(could_not_send_status);
_ -> true
end.
recv_status(Socket) ->
case gen_tcp:recv(Socket, 0) of
{ok, [$s|StrStat]} ->
list_to_atom(StrStat);
Bad ->
exit(Bad)
end.
send_challenge(Socket, Node, Challenge, Version) ->
send_challenge(Socket, Node, Challenge, Version, ?COMPULSORY_DFLAGS).
send_challenge(Socket, Node, Challenge, Version, Flags) ->
{ok, {{_Ip1,_Ip2,_Ip3,_Ip4}, _}} = inet:sockname(Socket),
?to_port(Socket, [$n,?int16(Version),?int32(Flags),
?int32(Challenge), atom_to_list(Node)]).
recv_challenge(Socket) ->
case gen_tcp:recv(Socket, 0) of
{ok,[$n,V1,V0,Fl1,Fl2,Fl3,Fl4,CA3,CA2,CA1,CA0 | Ns]} ->
Flags = ?u32(Fl1,Fl2,Fl3,Fl4),
Type = case Flags band ?DFLAG_PUBLISHED of
0 ->
hidden;
_ ->
normal
end,
Node =list_to_atom(Ns),
Version = ?u16(V1,V0),
Challenge = ?u32(CA3,CA2,CA1,CA0),
{Type,Node,Version,Challenge};
_ ->
?shutdown(no_node)
end.
%send_challenge_reply(Socket, Challenge, Digest) ->
% ?to_port(Socket, [$r,?int32(Challenge),Digest]).
recv_challenge_reply(Socket, ChallengeA, Cookie) ->
case gen_tcp:recv(Socket, 0) of
{ok,[$r,CB3,CB2,CB1,CB0 | SumB]} when length(SumB) == 16 ->
SumA = gen_digest(ChallengeA, Cookie),
ChallengeB = ?u32(CB3,CB2,CB1,CB0),
if SumB == SumA ->
ChallengeB;
true ->
?shutdown(bad_challenge_reply)
end;
_ ->
?shutdown(no_node)
end.
send_challenge_ack(Socket, Digest) ->
?to_port(Socket, [$a,Digest]).
%recv_challenge_ack(Socket, ChallengeB, CookieA) ->
% case gen_tcp:recv(Socket, 0) of
% {ok,[$a | SumB]} when length(SumB) == 16 ->
% SumA = gen_digest(ChallengeB, CookieA),
% if SumB == SumA ->
% ok;
% true ->
% ?shutdown(bad_challenge_ack)
% end;
% _ ->
% ?shutdown(bad_challenge_ack)
% end.
send_name(Socket, MyNode0, Version) ->
send_name(Socket, MyNode0, Version, ?COMPULSORY_DFLAGS).
send_name(Socket, MyNode0, Version, Flags) ->
MyNode = atom_to_list(MyNode0),
?to_port(Socket, [$n,?int16(Version),?int32(Flags)] ++
MyNode).
%%
%% recv_name is common for both old and new handshake.
%%
recv_name(Socket) ->
case gen_tcp:recv(Socket, 0) of
{ok,Data} ->
get_name(Data);
Res ->
?shutdown({no_node,Res})
end.
get_name([$m,VersionA,VersionB,_Ip1,_Ip2,_Ip3,_Ip4|OtherNode]) ->
{normal, list_to_atom(OtherNode), ?u16(VersionA,VersionB)};
get_name([$h,VersionA,VersionB,_Ip1,_Ip2,_Ip3,_Ip4|OtherNode]) ->
{hidden, list_to_atom(OtherNode), ?u16(VersionA,VersionB)};
get_name([$n,VersionA, VersionB, Flag1, Flag2, Flag3, Flag4 | OtherNode]) ->
Type = case ?u32(Flag1, Flag2, Flag3, Flag4) band ?DFLAG_PUBLISHED of
0 -> hidden;
_ -> normal
end,
{Type, list_to_atom(OtherNode),
?u16(VersionA,VersionB)};
get_name(Data) ->
?shutdown(Data).
%%
%% tell_name is for old handshake
%%
%tell_name(Socket, MyNode0, Version) ->
% MyNode = atom_to_list(MyNode0),
% {ok, {{Ip1,Ip2,Ip3,Ip4}, _}} = inet:sockname(Socket),
% ?to_port(Socket, [$h,?int16(Version),Ip1,Ip2,Ip3,Ip4] ++ MyNode).
%%
%% The communication with EPMD follows
%%
do_register_node(NodeName, TcpPort, VLow, VHigh) ->
case gen_tcp:connect({127,0,0,1}, get_epmd_port(), []) of
{ok, Socket} ->
{N0,_} = split(NodeName),
Name = atom_to_list(N0),
Extra = "",
Elen = length(Extra),
Len = 1+2+1+1+2+2+2+length(Name)+2+Elen,
gen_tcp:send(Socket, [?int16(Len), $x,
?int16(TcpPort),
$M,
0,
?int16(VHigh),
?int16(VLow),
?int16(length(Name)),
Name,
?int16(Elen),
Extra]),
case wait_for_reg_reply(Socket, []) of
{error, epmd_close} ->
exit(epmd_broken);
Other ->
Other
end;
Error ->
Error
end.
wait_for_reg_reply(Socket, SoFar) ->
receive
{tcp, Socket, Data0} ->
case SoFar ++ Data0 of
[$y, Result, A, B] ->
case Result of
0 ->
{alive, Socket, ?u16(A, B)};
_ ->
{error, duplicate_name}
end;
Data when length(Data) < 4 ->
wait_for_reg_reply(Socket, Data);
Garbage ->
{error, {garbage_from_epmd, Garbage}}
end;
{tcp_closed, Socket} ->
{error, epmd_close}
after 10000 ->
gen_tcp:close(Socket),
{error, no_reg_reply_from_epmd}
end.
register(NodeName, ListenSocket, VLow, VHigh) ->
{ok,{_,TcpPort}} = inet:sockname(ListenSocket),
case do_register_node(NodeName, TcpPort, VLow, VHigh) of
{alive, Socket, _Creation} ->
Socket;
Other ->
exit(Other)
end.
%%
%% Utilities
%%
%% Split a nodename
split([$@|T],A) ->
{lists:reverse(A),T};
split([H|T],A) ->
split(T,[H|A]).
split(Atom) ->
{A,B} = split(atom_to_list(Atom),[]),
{list_to_atom(A),list_to_atom(B)}.
%% Build a nodename
join(Name,Host) ->
list_to_atom(atom_to_list(Name) ++ "@" ++ atom_to_list(Host)).
get_epmd_port() ->
case init:get_argument(epmd_port) of
{ok, [[PortStr|_]|_]} when is_list(PortStr) ->
list_to_integer(PortStr);
error ->
4369 % Default epmd port
end.