%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1999-2018. 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(monitor_SUITE).
-include_lib("common_test/include/ct.hrl").
-include_lib("eunit/include/eunit.hrl").
-export([all/0, suite/0, groups/0,
case_1/1, case_1a/1, case_2/1, case_2a/1, mon_e_1/1, demon_e_1/1, demon_1/1,
demon_2/1, demon_3/1, demonitor_flush/1,
local_remove_monitor/1, remote_remove_monitor/1, mon_1/1, mon_2/1,
large_exit/1, list_cleanup/1, mixer/1, named_down/1, otp_5827/1,
monitor_time_offset/1]).
-export([y2/1, g/1, g0/0, g1/0, large_exit_sub/1]).
suite() ->
[{ct_hooks,[ts_install_cth]},
{timetrap, {minutes, 15}}].
all() ->
[case_1, case_1a, case_2, case_2a, mon_e_1, demon_e_1,
demon_1, mon_1, mon_2, demon_2, demon_3,
demonitor_flush, {group, remove_monitor}, large_exit,
list_cleanup, mixer, named_down, otp_5827,
monitor_time_offset].
groups() ->
[{remove_monitor, [],
[local_remove_monitor, remote_remove_monitor]}].
%% A monitors B, B kills A and then exits (yielded core dump)
case_1(Config) when is_list(Config) ->
process_flag(trap_exit, true),
spawn_link(?MODULE, g0, []),
receive _ -> ok end,
ok.
%% A monitors B, B kills A and then exits (yielded core dump)
case_1a(Config) when is_list(Config) ->
process_flag(trap_exit, true),
spawn_link(?MODULE, g1, []),
receive _ -> ok end,
ok.
g0() ->
B = spawn(?MODULE, g, [self()]),
erlang:monitor(process, B),
B ! ok,
receive ok -> ok end,
ok.
g1() ->
{B,_} = spawn_monitor(?MODULE, g, [self()]),
B ! ok,
receive ok -> ok end,
ok.
g(Parent) ->
receive ok -> ok end,
exit(Parent, foo),
ok.
%% A monitors B, B demonitors A (yielded core dump)
case_2(Config) when is_list(Config) ->
B = spawn(?MODULE, y2, [self()]),
R = erlang:monitor(process, B),
B ! R,
receive
true -> ok;
Other ->
ct:fail({rec, Other})
end,
expect_down(R, B, normal),
ok.
%% A monitors B, B demonitors A (yielded core dump)
case_2a(Config) when is_list(Config) ->
{B,R} = spawn_monitor(?MODULE, y2, [self()]),
B ! R,
receive
true -> ok;
Other ->
ct:fail({rec, Other})
end,
expect_down(R, B, normal),
ok.
y2(Parent) ->
R = receive T -> T end,
Parent ! (catch erlang:demonitor(R)),
ok.
expect_down(Ref, P) ->
receive
{'DOWN', Ref, process, P, Reason} ->
Reason;
Other ->
ct:fail({rec, Other})
end.
expect_down(Ref, P, Reason) ->
receive
{'DOWN', Ref, process, P, Reason} ->
ok;
Other ->
ct:fail({rec, Other})
end.
expect_no_msg() ->
receive
Msg ->
ct:fail({msg, Msg})
after 0 ->
ok
end.
%%% Error cases for monitor/2
mon_e_1(Config) when is_list(Config) ->
{ok, N} = test_server:start_node(hej, slave, []),
mon_error(plutt, self()),
mon_error(process, [bingo]),
mon_error(process, {rex, N, junk}),
mon_error(process, 1),
true = test_server:stop_node(N),
ok.
%%% We would also like to have a test case that tries to monitor something
%%% on an R5 node, but this isn't possible to do systematically.
%%%
%%% Likewise against an R6 node, which is not capable of monitoring
%%% by name, which gives a badarg on the R7 node at the call to
%%% erlang:monitor(process, {Name, Node}). This has been tested
%%% manually at least once.
mon_error(Type, Item) ->
case catch erlang:monitor(Type, Item) of
{'EXIT', _} ->
ok;
Other ->
ct:fail({err, Other})
end.
%%% Error cases for demonitor/1
demon_e_1(Config) when is_list(Config) ->
{ok, N} = test_server:start_node(hej, slave, []),
demon_error(plutt, badarg),
demon_error(1, badarg),
%% Demonitor with ref created at other node
R1 = rpc:call(N, erlang, make_ref, []),
demon_error(R1, badarg),
%% Demonitor with ref created at wrong monitor link end
P0 = self(),
P2 = spawn(
fun() ->
P0 ! {self(), ref, erlang:monitor(process,P0)},
receive {P0, stop} -> ok end
end ),
receive
{P2, ref, R2} ->
true = erlang:demonitor(R2),
P2 ! {self(), stop};
Other2 ->
ct:fail({rec, Other2})
end,
true = test_server:stop_node(N),
ok.
demon_error(Ref, Reason) ->
case catch erlang:demonitor(Ref) of
{'EXIT', {Reason, _}} ->
ok;
Other ->
ct:fail({err, Other})
end.
%%% No-op cases for demonitor/1
demon_1(Config) when is_list(Config) ->
true = erlang:demonitor(make_ref()),
ok.
%%% Cases for demonitor/1
demon_2(Config) when is_list(Config) ->
R1 = erlang:monitor(process, self()),
true = erlang:demonitor(R1),
%% Extra demonitor
true = erlang:demonitor(R1),
expect_no_msg(),
%% Normal 'DOWN'
P2 = spawn(timer, sleep, [1]),
R2 = erlang:monitor(process, P2),
case expect_down(R2, P2) of
normal -> ok;
noproc -> ok;
BadReason -> ct:fail({bad_reason, BadReason})
end,
%% OTP-5772
% %% 'DOWN' before demonitor
% P3 = spawn(timer, sleep, [100000]),
% R3 = erlang:monitor(process, P3),
% exit(P3, frop),
% erlang:demonitor(R3),
% expect_down(R3, P3, frop),
%% Demonitor before 'DOWN'
P4 = spawn(timer, sleep, [100000]),
R4 = erlang:monitor(process, P4),
erlang:demonitor(R4),
exit(P4, frop),
expect_no_msg(),
ok.
%% Distributed case for demonitor/1 (OTP-3499)
demon_3(Config) when is_list(Config) ->
{ok, N} = test_server:start_node(hej, slave, []),
%% 'DOWN' before demonitor
P2 = spawn(N, timer, sleep, [100000]),
R2 = erlang:monitor(process, P2),
true = test_server:stop_node(N),
true = erlang:demonitor(R2),
expect_down(R2, P2, noconnection),
{ok, N2} = test_server:start_node(hej, slave, []),
%% Demonitor before 'DOWN'
P3 = spawn(N2, timer, sleep, [100000]),
R3 = erlang:monitor(process, P3),
true = erlang:demonitor(R3),
true = test_server:stop_node(N2),
expect_no_msg(),
ok.
demonitor_flush(Config) when is_list(Config) ->
{'EXIT', {badarg, _}} = (catch erlang:demonitor(make_ref(), flush)),
{'EXIT', {badarg, _}} = (catch erlang:demonitor(make_ref(), [flus])),
{'EXIT', {badarg, _}} = (catch erlang:demonitor(x, [flush])),
{ok, N} = test_server:start_node(demonitor_flush, slave, []),
ok = demonitor_flush_test(N),
true = test_server:stop_node(N),
ok = demonitor_flush_test(node()).
demonitor_flush_test(Node) ->
P = spawn(Node, timer, sleep, [100000]),
M1 = erlang:monitor(process, P),
M2 = erlang:monitor(process, P),
M3 = erlang:monitor(process, P),
M4 = erlang:monitor(process, P),
true = erlang:demonitor(M1, [flush, flush]),
exit(P, bang),
receive {'DOWN', M2, process, P, bang} -> ok end,
receive after 100 -> ok end,
true = erlang:demonitor(M3, [flush]),
true = erlang:demonitor(M4, []),
receive {'DOWN', M4, process, P, bang} -> ok end,
receive
{'DOWN', M, _, _, _} =DM when M == M1,
M == M3 ->
ct:fail({unexpected_down_message, DM})
after 100 ->
ok
end.
-define(RM_MON_GROUPS, 100).
-define(RM_MON_GPROCS, 100).
local_remove_monitor(Config) when is_list(Config) ->
Gs = generate(fun () -> start_remove_monitor_group(node()) end,
?RM_MON_GROUPS),
{True, False} = lists:foldl(fun (G, {T, F}) ->
receive
{rm_mon_res, G, {GT, GF}} ->
{T+GT, F+GF}
end
end,
{0, 0},
Gs),
erlang:display({local_remove_monitor, True, False}),
{comment,
"True = "++integer_to_list(True)++"; False = "++integer_to_list(False)}.
remote_remove_monitor(Config) when is_list(Config) ->
{ok, N} = test_server:start_node(demonitor_flush, slave, []),
Gs = generate(fun () -> start_remove_monitor_group(node()) end,
?RM_MON_GROUPS),
{True, False} = lists:foldl(fun (G, {T, F}) ->
receive
{rm_mon_res, G, {GT, GF}} ->
{T+GT, F+GF}
end
end,
{0, 0},
Gs),
erlang:display({remote_remove_monitor, True, False}),
true = test_server:stop_node(N),
{comment,
"True = "++integer_to_list(True)++"; False = "++integer_to_list(False)}.
start_remove_monitor_group(Node) ->
Master = self(),
spawn_link(
fun () ->
Ms = generate(fun () ->
P = spawn(Node, fun () -> ok end),
erlang:monitor(process, P)
end, ?RM_MON_GPROCS),
Res = lists:foldl(fun (M, {T, F}) ->
case erlang:demonitor(M, [info]) of
true ->
receive
{'DOWN', M, _, _, _} ->
exit(down_msg_found)
after 0 ->
ok
end,
{T+1, F};
false ->
receive
{'DOWN', M, _, _, _} ->
ok
after 0 ->
exit(no_down_msg_found)
end,
{T, F+1}
end
end,
{0,0},
Ms),
Master ! {rm_mon_res, self(), Res}
end).
%%% Cases for monitor/2
mon_1(Config) when is_list(Config) ->
%% Normal case
P2 = spawn(timer, sleep, [1]),
R2 = erlang:monitor(process, P2),
case expect_down(R2, P2) of
normal -> ok;
noproc -> ok;
BadReason -> ct:fail({bad_reason, BadReason})
end,
{P2A,R2A} = spawn_monitor(timer, sleep, [1]),
expect_down(R2A, P2A, normal),
%% 'DOWN' with other reason
P3 = spawn(timer, sleep, [100000]),
R3 = erlang:monitor(process, P3),
exit(P3, frop),
expect_down(R3, P3, frop),
{P3A,R3A} = spawn_monitor(timer, sleep, [100000]),
exit(P3A, frop),
expect_down(R3A, P3A, frop),
%% Monitor fails because process is dead
R4 = erlang:monitor(process, P3),
expect_down(R4, P3, noproc),
%% Normal case (named process)
P5 = start_jeeves(jeeves),
R5 = erlang:monitor(process, jeeves),
tell_jeeves(P5, stop),
expect_down(R5, {jeeves, node()}, normal),
%% 'DOWN' with other reason and node explicit activation
P6 = start_jeeves(jeeves),
R6 = erlang:monitor(process, {jeeves, node()}),
tell_jeeves(P6, {exit, frop}),
expect_down(R6, {jeeves, node()}, frop),
%% Monitor (named process) fails because process is dead
R7 = erlang:monitor(process, {jeeves, node()}),
expect_down(R7, {jeeves, node()}, noproc),
ok.
%% Distributed cases for monitor/2
mon_2(Config) when is_list(Config) ->
{ok, N1} = test_server:start_node(hej1, slave, []),
%% Normal case
P2 = spawn(N1, timer, sleep, [4000]),
R2 = erlang:monitor(process, P2),
expect_down(R2, P2, normal),
%% 'DOWN' with other reason
P3 = spawn(N1, timer, sleep, [100000]),
R3 = erlang:monitor(process, P3),
exit(P3, frop),
expect_down(R3, P3, frop),
%% Monitor fails because process is dead
R4 = erlang:monitor(process, P3),
expect_down(R4, P3, noproc),
%% Other node goes down
P5 = spawn(N1, timer, sleep, [100000]),
R5 = erlang:monitor(process, P5),
true = test_server:stop_node(N1),
expect_down(R5, P5, noconnection),
%% Monitor fails because other node is dead
P6 = spawn(N1, timer, sleep, [100000]),
R6 = erlang:monitor(process, P6),
R6_Reason = expect_down(R6, P6),
true = (R6_Reason == noconnection) orelse (R6_Reason == noproc),
%% Start a new node that can load code in this module
PA = filename:dirname(code:which(?MODULE)),
{ok, N2} = test_server:start_node
(hej2, slave, [{args, "-pa " ++ PA}]),
%% Normal case (named process)
P7 = start_jeeves({jeeves, N2}),
R7 = erlang:monitor(process, {jeeves, N2}),
tell_jeeves(P7, stop),
expect_down(R7, {jeeves, N2}, normal),
%% 'DOWN' with other reason (named process)
P8 = start_jeeves({jeeves, N2}),
R8 = erlang:monitor(process, {jeeves, N2}),
tell_jeeves(P8, {exit, frop}),
expect_down(R8, {jeeves, N2}, frop),
%% Monitor (named process) fails because process is dead
R9 = erlang:monitor(process, {jeeves, N2}),
expect_down(R9, {jeeves, N2}, noproc),
%% Other node goes down (named process)
_P10 = start_jeeves({jeeves, N2}),
R10 = erlang:monitor(process, {jeeves, N2}),
true = test_server:stop_node(N2),
expect_down(R10, {jeeves, N2}, noconnection),
%% Monitor (named process) fails because other node is dead
R11 = erlang:monitor(process, {jeeves, N2}),
expect_down(R11, {jeeves, N2}, noconnection),
ok.
%%% Large exit reason. Crashed first attempt to release R5B.
large_exit(Config) when is_list(Config) ->
f(100),
ok.
f(0) ->
ok;
f(N) ->
f(),
f(N-1).
f() ->
S0 = {big, tuple, with, [list, 4563784278]},
S = {S0, term_to_binary(S0)},
P = spawn(?MODULE, large_exit_sub, [S]),
R = erlang:monitor(process, P),
P ! hej,
receive
{'DOWN', R, process, P, X} ->
io:format(" -> ~p~n", [X]),
if
X == S ->
ok;
true ->
ct:fail({X, S})
end;
Other ->
io:format(" -> ~p~n", [Other]),
exit({answer, Other})
end.
large_exit_sub(S) ->
receive _X -> ok end,
exit(S).
%%% Testing of monitor link list cleanup
%%% by using erlang:process_info(self(), monitors)
%%% and erlang:process_info(self(), monitored_by)
list_cleanup(Config) when is_list(Config) ->
P0 = self(),
M = node(),
PA = filename:dirname(code:which(?MODULE)),
true = register(master_bertie, self()),
%% Normal local case, monitor and demonitor
P1 = start_jeeves(jeeves),
{[], []} = monitors(),
expect_jeeves(P1, monitors, {monitors, {[], []}}),
R1a = erlang:monitor(process, P1),
{[{process, P1}], []} = monitors(),
expect_jeeves(P1, monitors, {monitors, {[], [P0]}}),
true = erlang:demonitor(R1a),
expect_no_msg(),
{[], []} = monitors(),
expect_jeeves(P1, monitors, {monitors, {[], []}}),
%% Remonitor named and try again, now exiting the monitored process
R1b = erlang:monitor(process, jeeves),
{[{process, {jeeves, M}}], []} = monitors(),
expect_jeeves(P1, monitors, {monitors, {[], [P0]}}),
tell_jeeves(P1, stop),
expect_down(R1b, {jeeves, node()}, normal),
{[], []} = monitors(),
%% Slightly weird local case - the monitoring process crashes
P2 = start_jeeves(jeeves),
{[], []} = monitors(),
expect_jeeves(P2, monitors, {monitors, {[], []}}),
{monitor_process, _R2} =
ask_jeeves(P2, {monitor_process, master_bertie}),
{[], [P2]} = monitors(),
expect_jeeves(P2, monitors,
{monitors, {[{process, {master_bertie, node()}}], []}}),
tell_jeeves(P2, {exit, frop}),
timer:sleep(2000),
{[], []} = monitors(),
%% Start a new node that can load code in this module
{ok, J} = test_server:start_node
(jeeves, slave, [{args, "-pa " ++ PA}]),
%% Normal remote case, monitor and demonitor
P3 = start_jeeves({jeeves, J}),
{[], []} = monitors(),
expect_jeeves(P3, monitors, {monitors, {[], []}}),
R3a = erlang:monitor(process, P3),
{[{process, P3}], []} = monitors(),
expect_jeeves(P3, monitors, {monitors, {[], [P0]}}),
true = erlang:demonitor(R3a),
expect_no_msg(),
{[], []} = monitors(),
expect_jeeves(P3, monitors, {monitors, {[], []}}),
%% Remonitor named and try again, now exiting the monitored process
R3b = erlang:monitor(process, {jeeves, J}),
{[{process, {jeeves, J}}], []} = monitors(),
expect_jeeves(P3, monitors, {monitors, {[], [P0]}}),
tell_jeeves(P3, stop),
expect_down(R3b, {jeeves, J}, normal),
{[], []} = monitors(),
%% Slightly weird remote case - the monitoring process crashes
P4 = start_jeeves({jeeves, J}),
{[], []} = monitors(),
expect_jeeves(P4, monitors, {monitors, {[], []}}),
{monitor_process, _R4} =
ask_jeeves(P4, {monitor_process, {master_bertie, M}}),
{[], [P4]} = monitors(),
expect_jeeves(P4, monitors,
{monitors, {[{process, {master_bertie, M}}], []}} ),
tell_jeeves(P4, {exit, frop}),
timer:sleep(2000),
{[], []} = monitors(),
%% Now, the monitoring remote node crashes
P5 = start_jeeves({jeeves, J}),
{[], []} = monitors(),
expect_jeeves(P5, monitors, {monitors, {[], []}}),
{monitor_process, _R5} =
ask_jeeves(P5, {monitor_process, P0}),
{[], [P5]} = monitors(),
expect_jeeves(P5, monitors,
{monitors, {[{process, P0}], []}} ),
test_server:stop_node(J),
timer:sleep(4000),
{[], []} = monitors(),
true = unregister(master_bertie),
ok.
%%% Mixed internal and external monitors
mixer(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
NN = [j0,j1,j2],
NL0 = [begin
{ok, J} = test_server:start_node(X,slave,[{args, "-pa " ++ PA}]),
J
end || X <- NN],
NL1 = lists:duplicate(2,node()) ++ NL0,
Perm = perm(NL1),
lists:foreach(
fun(NL) ->
Js = [start_jeeves({[],M}) || M <- (NL ++ NL)],
[ask_jeeves(P,{monitor_process,self()}) || P <- Js],
{monitored_by,MB} = process_info(self(),monitored_by),
MBL = lists:sort(MB),
JsL = lists:sort(Js),
MBL = JsL,
{monitors,[]} = process_info(self(),monitors),
[tell_jeeves(P,{exit,flaff}) || P <- Js],
wait_for_m([],[],200)
end,
Perm),
lists:foreach(
fun(NL) ->
Js = [start_jeeves({[],M}) || M <- (NL ++ NL)],
Rs = [begin
{monitor_process,Ref} = ask_jeeves(P,{monitor_process,self()}),
{P,Ref}
end || P <- Js],
{monitored_by,MB} = process_info(self(),monitored_by),
MBL = lists:sort(MB),
JsL = lists:sort(Js),
MBL = JsL,
{monitors,[]} = process_info(self(),monitors),
[ask_jeeves(P,{demonitor,Ref}) || {P,Ref} <- Rs],
wait_for_m([],[],200),
[tell_jeeves(P,{exit,flaff}) || P <- Js]
end,
Perm),
lists:foreach(
fun(NL) ->
Js = [start_jeeves({[],M}) || M <- (NL ++ NL)],
[ask_jeeves(P,{monitor_process,self()}) || P <- Js],
[erlang:monitor(process,P) || P <- Js],
{monitored_by,MB} = process_info(self(),monitored_by),
MBL = lists:sort(MB),
JsL = lists:sort(Js),
MBL = JsL,
{monitors,M} = process_info(self(),monitors),
ML = lists:sort([P||{process,P} <- M]),
ML = JsL,
[begin
tell_jeeves(P,{exit,flaff}),
receive {'DOWN',_,process,P,_} -> ok end
end || P <- Js],
wait_for_m([],[],200)
end,
Perm),
lists:foreach(
fun(NL) ->
Js = [start_jeeves({[],M}) || M <- (NL ++ NL)],
Rs = [begin
{monitor_process,Ref} = ask_jeeves(P,{monitor_process,self()}),
{P,Ref}
end || P <- Js],
R2s = [{P,erlang:monitor(process,P)} || P <- Js],
{monitored_by,MB} = process_info(self(),monitored_by),
MBL = lists:sort(MB),
JsL = lists:sort(Js),
MBL = JsL,
{monitors,M} = process_info(self(),monitors),
ML = lists:sort([P||{process,P} <- M]),
ML = JsL,
[ask_jeeves(P,{demonitor,Ref}) || {P,Ref} <- Rs],
wait_for_m(lists:sort(M),[],200),
[erlang:demonitor(Ref) || {_P,Ref} <- R2s],
wait_for_m([],[],200),
[tell_jeeves(P,{exit,flaff}) || P <- Js]
end,
Perm),
[test_server:stop_node(K) || K <- NL0],
ok.
%% Test that DOWN message for a named monitor isn't
%% delivered until name has been unregistered
named_down(Config) when is_list(Config) ->
Name = list_to_atom(atom_to_list(?MODULE)
++ "-named_down-"
++ integer_to_list(erlang:system_time(second))
++ "-" ++ integer_to_list(erlang:unique_integer([positive]))),
Prio = process_flag(priority,high),
%% Spawn a bunch of high prio cpu bound processes to prevent
%% normal prio processes from terminating during the next
%% 500 ms...
Self = self(),
spawn_opt(fun () ->
WFun = fun
(F, hej) -> F(F, hopp);
(F, hopp) -> F(F, hej)
end,
NoSchedulers = erlang:system_info(schedulers_online),
lists:foreach(fun (_) ->
spawn_opt(fun () ->
WFun(WFun,
hej)
end,
[{priority,high},
link])
end,
lists:seq(1, NoSchedulers)),
receive after 500 -> ok end,
unlink(Self),
exit(bang)
end,
[{priority,high}, link]),
NamedProc = spawn_link(fun () ->
receive after infinity -> ok end
end),
?assertEqual(true, register(Name, NamedProc)),
unlink(NamedProc),
Mon = erlang:monitor(process, Name),
exit(NamedProc, bang),
receive {'DOWN',Mon, _, _, bang} -> ok
after 3000 -> ?assert(false) end,
?assertEqual(true, register(Name, self())),
?assertEqual(true, unregister(Name)),
process_flag(priority,Prio),
ok.
otp_5827(Config) when is_list(Config) ->
%% Make a pid with the same nodename but with another creation
[CreEnd | RPTail]
= lists:reverse(binary_to_list(term_to_binary(self()))),
NewCreEnd = case CreEnd of
0 -> 1;
1 -> 2;
_ -> CreEnd - 1
end,
OtherCreationPid
= binary_to_term(list_to_binary(lists:reverse([NewCreEnd | RPTail]))),
%% If the bug is present erlang:monitor(process, OtherCreationPid)
%% will hang...
Parent = self(),
Ok = make_ref(),
spawn(fun () ->
Mon = erlang:monitor(process, OtherCreationPid),
% Should get the DOWN message right away
receive
{'DOWN', Mon, process, OtherCreationPid, noproc} ->
Parent ! Ok
end
end),
receive
Ok ->
ok
after 1000 ->
ct:fail("erlang:monitor/2 hangs")
end.
monitor_time_offset(Config) when is_list(Config) ->
{ok, Node} = start_node(Config, "+C single_time_warp"),
Me = self(),
PMs = lists:map(fun (_) ->
Pid = spawn(Node,
fun () ->
check_monitor_time_offset(Me)
end),
{Pid, erlang:monitor(process, Pid)}
end,
lists:seq(1, 100)),
lists:foreach(fun ({P, _M}) ->
P ! check_no_change_message
end, PMs),
lists:foreach(fun ({P, M}) ->
receive
{no_change_message_received, P} ->
ok;
{'DOWN', M, process, P, Reason} ->
ct:fail(Reason)
end
end, PMs),
preliminary = rpc:call(Node, erlang, system_flag, [time_offset, finalize]),
lists:foreach(fun ({P, M}) ->
receive
{change_messages_received, P} ->
erlang:demonitor(M, [flush]);
{'DOWN', M, process, P, Reason} ->
ct:fail(Reason)
end
end, PMs),
stop_node(Node),
ok.
check_monitor_time_offset(Leader) ->
Mon1 = erlang:monitor(time_offset, clock_service),
Mon2 = erlang:monitor(time_offset, clock_service),
Mon3 = erlang:monitor(time_offset, clock_service),
Mon4 = erlang:monitor(time_offset, clock_service),
erlang:demonitor(Mon2, [flush]),
Mon5 = erlang:monitor(time_offset, clock_service),
Mon6 = erlang:monitor(time_offset, clock_service),
Mon7 = erlang:monitor(time_offset, clock_service),
receive check_no_change_message -> ok end,
receive
{'CHANGE', _, time_offset, clock_service, _} ->
exit(unexpected_change_message_received)
after 0 ->
Leader ! {no_change_message_received, self()}
end,
receive after 100 -> ok end,
erlang:demonitor(Mon4, [flush]),
receive
{'CHANGE', Mon3, time_offset, clock_service, _} ->
ok
end,
receive
{'CHANGE', Mon6, time_offset, clock_service, _} ->
ok
end,
erlang:demonitor(Mon5, [flush]),
receive
{'CHANGE', Mon7, time_offset, clock_service, _} ->
ok
end,
receive
{'CHANGE', Mon1, time_offset, clock_service, _} ->
ok
end,
receive
{'CHANGE', _, time_offset, clock_service, _} ->
exit(unexpected_change_message_received)
after 1000 ->
ok
end,
Leader ! {change_messages_received, self()}.
%%
%% ...
%%
wait_for_m(_,_,0) ->
exit(monitor_wait_timeout);
wait_for_m(Monitors, MonitoredBy, N) ->
{monitors,M0} = process_info(self(),monitors),
{monitored_by,MB0} = process_info(self(),monitored_by),
case lists:sort(M0) of
Monitors ->
case lists:sort(MB0) of
MonitoredBy ->
ok;
_ ->
receive after 100 -> ok end,
wait_for_m(Monitors,MonitoredBy,N-1)
end;
_ ->
receive after 100 -> ok end,
wait_for_m(Monitors,MonitoredBy,N-1)
end.
% All permutations of a list...
perm([]) ->
[];
perm([X]) ->
[[X]];
perm(List) ->
perm([],List,[]).
perm(_,[],Acc) ->
Acc;
perm(Pre,[El|Post],Acc) ->
Res = [[El|X] || X <- perm(Pre ++ Post)],
perm(Pre ++ [El], Post, Res ++ Acc).
%%% Our butler for named process monitor tests
jeeves(Parent, Name, Ref)
when is_pid(Parent), (is_atom(Name) or (Name =:= [])), is_reference(Ref) ->
%%io:format("monitor_SUITE:jeeves(~p, ~p)~n", [Parent, Name]),
case Name of
Atom when is_atom(Atom) ->
register(Name, self());
[] ->
ok
end,
Parent ! {self(), Ref},
jeeves_loop(Parent).
jeeves_loop(Parent) ->
receive
{Parent, monitors} ->
Parent ! {self(), {monitors, monitors()}},
jeeves_loop(Parent);
{Parent, {monitor_process, P}} ->
Parent ! {self(), {monitor_process,
catch erlang:monitor(process, P) }},
jeeves_loop(Parent);
{Parent, {demonitor, Ref}} ->
Parent ! {self(), {demonitor, catch erlang:demonitor(Ref)}},
jeeves_loop(Parent);
{Parent, stop} ->
ok;
{Parent, {exit, Reason}} ->
exit(Reason);
Other ->
io:format("~p:jeeves_loop received ~p~n", [?MODULE, Other])
end.
start_jeeves({Name, Node})
when (is_atom(Name) or (Name =:= [])), is_atom(Node) ->
Parent = self(),
Ref = make_ref(),
Pid = spawn(Node, fun() -> jeeves(Parent, Name, Ref) end),
receive
{Pid, Ref} ->
ok;
Other ->
ct:fail({rec, Other})
end,
Pid;
start_jeeves(Name) when is_atom(Name) ->
start_jeeves({Name, node()}).
tell_jeeves(Pid, What) when is_pid(Pid) ->
Pid ! {self(), What}.
ask_jeeves(Pid, Request) when is_pid(Pid) ->
Pid ! {self(), Request},
receive
{Pid, Response} ->
Response;
Other ->
ct:fail({rec, Other})
end.
expect_jeeves(Pid, Request, Response) when is_pid(Pid) ->
Pid ! {self(), Request},
receive
{Pid, Response} ->
ok;
Other ->
ct:fail({rec, Other})
end.
monitors() ->
monitors(self()).
monitors(Pid) when is_pid(Pid) ->
{monitors, Monitors} = process_info(self(), monitors),
{monitored_by, MonitoredBy} = process_info(self(), monitored_by),
{Monitors, MonitoredBy}.
generate(_Fun, 0) ->
[];
generate(Fun, N) ->
[Fun() | generate(Fun, N-1)].
start_node(Config, Args) ->
TestCase = proplists:get_value(testcase, Config),
PA = filename:dirname(code:which(?MODULE)),
ESTime = erlang:monotonic_time(1) + erlang:time_offset(1),
Unique = erlang:unique_integer([positive]),
Name = list_to_atom(atom_to_list(?MODULE)
++ "-"
++ atom_to_list(TestCase)
++ "-"
++ integer_to_list(ESTime)
++ "-"
++ integer_to_list(Unique)),
test_server:start_node(Name,
slave,
[{args, "-pa " ++ PA ++ " " ++ Args}]).
stop_node(Node) ->
test_server:stop_node(Node).