%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1997-2013. 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(process_SUITE).
%% Tests processes, trapping exit messages and the BIFs:
%% exit/1
%% exit/2
%% process_info/1,2
%% register/2 (partially)
-include_lib("common_test/include/ct.hrl").
-define(heap_binary_size, 64).
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2, spawn_with_binaries/1,
t_exit_1/1, t_exit_2_other/1, t_exit_2_other_normal/1,
self_exit/1, normal_suicide_exit/1, abnormal_suicide_exit/1,
t_exit_2_catch/1, trap_exit_badarg/1, trap_exit_badarg_in_bif/1,
exit_and_timeout/1, exit_twice/1,
t_process_info/1, process_info_other/1, process_info_other_msg/1,
process_info_other_dist_msg/1,
process_info_2_list/1, process_info_lock_reschedule/1,
process_info_lock_reschedule2/1,
process_info_lock_reschedule3/1,
process_info_garbage_collection/1,
bump_reductions/1, low_prio/1, binary_owner/1, yield/1, yield2/1,
process_status_exiting/1,
otp_4725/1, bad_register/1, garbage_collect/1, otp_6237/1,
process_info_messages/1, process_flag_badarg/1, process_flag_heap_size/1,
spawn_opt_heap_size/1,
processes_large_tab/1, processes_default_tab/1, processes_small_tab/1,
processes_this_tab/1, processes_apply_trap/1,
processes_last_call_trap/1, processes_gc_trap/1,
processes_term_proc_list/1,
otp_7738_waiting/1, otp_7738_suspended/1,
otp_7738_resume/1,
garb_other_running/1,
no_priority_inversion/1,
no_priority_inversion2/1,
system_task_blast/1,
system_task_on_suspended/1,
gc_request_when_gc_disabled/1,
gc_request_blast_when_gc_disabled/1]).
-export([prio_server/2, prio_client/2]).
-export([init_per_testcase/2, end_per_testcase/2]).
-export([hangaround/2, processes_bif_test/0, do_processes/1,
processes_term_proc_list_test/1]).
suite() ->
[{ct_hooks,[ts_install_cth]},
{timetrap, {minutes, 9}}].
all() ->
[spawn_with_binaries, t_exit_1, {group, t_exit_2},
trap_exit_badarg, trap_exit_badarg_in_bif,
t_process_info, process_info_other, process_info_other_msg,
process_info_other_dist_msg, process_info_2_list,
process_info_lock_reschedule,
process_info_lock_reschedule2,
process_info_lock_reschedule3,
process_info_garbage_collection,
process_status_exiting,
bump_reductions, low_prio, yield, yield2, otp_4725,
bad_register, garbage_collect, process_info_messages,
process_flag_badarg, process_flag_heap_size,
spawn_opt_heap_size, otp_6237, {group, processes_bif},
{group, otp_7738}, garb_other_running,
{group, system_task}].
groups() ->
[{t_exit_2, [],
[t_exit_2_other, t_exit_2_other_normal, self_exit,
normal_suicide_exit, abnormal_suicide_exit,
t_exit_2_catch, exit_and_timeout, exit_twice]},
{processes_bif, [],
[processes_large_tab, processes_default_tab,
processes_small_tab, processes_this_tab,
processes_last_call_trap, processes_apply_trap,
processes_gc_trap, processes_term_proc_list]},
{otp_7738, [],
[otp_7738_waiting, otp_7738_suspended,
otp_7738_resume]},
{system_task, [],
[no_priority_inversion, no_priority_inversion2,
system_task_blast, system_task_on_suspended,
gc_request_when_gc_disabled, gc_request_blast_when_gc_disabled]}].
init_per_suite(Config) ->
A0 = case application:start(sasl) of
ok -> [sasl];
_ -> []
end,
A = case application:start(os_mon) of
ok -> [os_mon|A0];
_ -> A0
end,
[{started_apps, A}|Config].
end_per_suite(Config) ->
As = ?config(started_apps, Config),
lists:foreach(fun (A) -> application:stop(A) end, As),
catch erts_debug:set_internal_state(available_internal_state, false),
Config.
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
init_per_testcase(Func, Config) when is_atom(Func), is_list(Config) ->
[{testcase, Func}|Config].
end_per_testcase(Func, Config) when is_atom(Func), is_list(Config) ->
ok.
fun_spawn(Fun) ->
spawn_link(erlang, apply, [Fun, []]).
%% Tests that binaries as arguments to spawn/3 doesn't leak
%% (unclear if this test case will actually prove anything on
%% a modern computer with lots of memory).
spawn_with_binaries(Config) when is_list(Config) ->
L = lists:duplicate(2048, 42),
TwoMeg = lists:duplicate(1024, L),
Fun = fun() -> spawn(?MODULE, binary_owner, [list_to_binary(TwoMeg)]),
receive after 1 -> ok end end,
Iter = case test_server:purify_is_running() of
true -> 10;
false -> 150
end,
test_server:do_times(Iter, Fun),
ok.
binary_owner(Bin) when is_binary(Bin) ->
ok.
%% Tests exit/1 with a big message.
t_exit_1(Config) when is_list(Config) ->
ct:timetrap({seconds, 20}),
start_spawner(),
process_flag(trap_exit, true),
test_server:do_times(10, fun t_exit_1/0),
stop_spawner(),
ok.
t_exit_1() ->
Pid = fun_spawn(fun() -> exit(kb_128()) end),
Garbage = kb_128(),
receive
{'EXIT', Pid, Garbage} -> ok
end.
%% Tests exit/2 with a lot of data in the exit message.
t_exit_2_other(Config) when is_list(Config) ->
ct:timetrap({seconds, 20}),
start_spawner(),
process_flag(trap_exit, true),
test_server:do_times(10, fun t_exit_2_other/0),
stop_spawner(),
ok.
t_exit_2_other() ->
Pid = fun_spawn(fun() -> receive x -> ok end end),
Garbage = kb_128(),
exit(Pid, Garbage),
receive
{'EXIT', Pid, Garbage} -> ok
end.
%% Tests that exit(Pid, normal) does not kill another process.;
t_exit_2_other_normal(Config) when is_list(Config) ->
ct:timetrap({seconds, 20}),
process_flag(trap_exit, true),
Pid = fun_spawn(fun() -> receive x -> ok end end),
exit(Pid, normal),
receive
{'EXIT', Pid, Reason} ->
ct:fail({process_died, Reason})
after 1000 ->
ok
end,
case process_info(Pid) of
undefined ->
ct:fail(process_died_on_normal);
List when is_list(List) ->
ok
end,
exit(Pid, kill),
ok.
%% Tests that we can trap an exit message sent with exit/2 from
%% the same process.
self_exit(Config) when is_list(Config) ->
ct:timetrap({seconds, 10}),
start_spawner(),
process_flag(trap_exit, true),
test_server:do_times(200, fun self_exit/0),
stop_spawner(),
ok.
self_exit() ->
Garbage = eight_kb(),
P = self(),
true = exit(P, Garbage),
receive
{'EXIT', P, Garbage} -> ok
end.
%% Tests exit(self(), normal) is equivalent to exit(normal) for a process
%% that doesn't trap exits.
normal_suicide_exit(Config) when is_list(Config) ->
process_flag(trap_exit, true),
Pid = fun_spawn(fun() -> exit(self(), normal) end),
receive
{'EXIT', Pid, normal} -> ok;
Other -> ct:fail({bad_message, Other})
end.
%% Tests exit(self(), Term) is equivalent to exit(Term) for a process
%% that doesn't trap exits.";
abnormal_suicide_exit(Config) when is_list(Config) ->
Garbage = eight_kb(),
process_flag(trap_exit, true),
Pid = fun_spawn(fun() -> exit(self(), Garbage) end),
receive
{'EXIT', Pid, Garbage} -> ok;
Other -> ct:fail({bad_message, Other})
end.
%% Tests that exit(self(), die) cannot be catched.
t_exit_2_catch(Config) when is_list(Config) ->
process_flag(trap_exit, true),
Pid = fun_spawn(fun() -> catch exit(self(), die) end),
receive
{'EXIT', Pid, normal} ->
ct:fail(catch_worked);
{'EXIT', Pid, die} ->
ok;
Other ->
ct:fail({bad_message, Other})
end.
%% Tests trapping of an 'EXIT' message generated by a bad argument to
%% the abs/1 bif. The 'EXIT' message will intentionally be very big.
trap_exit_badarg(Config) when is_list(Config) ->
ct:timetrap({seconds, 10}),
start_spawner(),
process_flag(trap_exit, true),
test_server:do_times(10, fun trap_exit_badarg/0),
stop_spawner(),
ok.
trap_exit_badarg() ->
Pid = fun_spawn(fun() -> bad_guy(kb_128()) end),
Garbage = kb_128(),
receive
{'EXIT',Pid,{badarg,[{erlang,abs,[Garbage],Loc1},
{?MODULE,bad_guy,1,Loc2}|_]}}
when is_list(Loc1), is_list(Loc2) ->
ok;
Other ->
ok = io:format("Bad EXIT message: ~P", [Other, 30]),
ct:fail(bad_exit_message)
end.
bad_guy(Arg) ->
abs(Arg).
kb_128() ->
Eight = eight_kb(),
{big_binary(),
Eight, Eight, Eight, Eight, Eight, Eight, Eight, Eight,
big_binary(),
Eight, Eight, Eight, Eight, Eight, Eight, Eight, Eight,
big_binary()}.
eight_kb() ->
B64 = lists:seq(1, 64),
B512 = {<<1>>,B64,<<2,3>>,B64,make_unaligned_sub_binary(<<4,5,6,7,8,9>>),
B64,make_sub_binary([1,2,3,4,5,6]),
B64,make_sub_binary(lists:seq(1, ?heap_binary_size+1)),
B64,B64,B64,B64,big_binary()},
lists:duplicate(8, {B512,B512}).
big_binary() ->
big_binary(10, [42]).
big_binary(0, Acc) ->
list_to_binary(Acc);
big_binary(N, Acc) ->
big_binary(N-1, [Acc|Acc]).
%% Test receiving an EXIT message when spawning a BIF with bad arguments.
trap_exit_badarg_in_bif(Config) when is_list(Config) ->
ct:timetrap({seconds, 10}),
process_flag(trap_exit, true),
test_server:do_times(10, fun trap_exit_badarg_bif/0),
ok.
trap_exit_badarg_bif() ->
Pid = spawn_link(erlang, node, [1]),
receive
{'EXIT', Pid, {badarg, _}} ->
ok;
Other ->
ct:fail({unexpected, Other})
end.
%% The following sequences of events have crasched Beam.
%%
%% 1) An exit is sent to a process which is currently not running.
%% The exit reason will (on purpose) overwrite the message queue
%% pointer.
%% 2) Before the process is scheduled in, it receives a timeout (from
%% a 'receive after').
%% 3) The process will crash the next time it executes 'receive'.
exit_and_timeout(Config) when is_list(Config) ->
ct:timetrap({seconds, 20}),
process_flag(trap_exit, true),
Parent = self(),
Low = fun_spawn(fun() -> eat_low(Parent) end),
High = fun_spawn(fun() -> eat_high(Low) end),
eat_wait_for(Low, High),
ok.
eat_wait_for(Low, High) ->
receive
{'EXIT', Low, {you, are, dead}} ->
ok;
{'EXIT', High, normal} ->
eat_wait_for(Low, High);
Other ->
ct:fail({bad_message, Other})
end.
eat_low(_Parent) ->
receive
after 2500 ->
ok
end,
receive
Any ->
io:format("Received: ~p\n", [Any])
after 1000 ->
ok
end.
eat_high(Low) ->
process_flag(priority, high),
receive after 1000 -> ok end,
exit(Low, {you, are, dead}),
loop(erlang:monotonic_time() + erlang:convert_time_unit(5,seconds,native)).
%% Busy loop for 5 seconds.
loop(StopTime) ->
case StopTime >= erlang:monotonic_time() of
true -> ok;
false -> loop(StopTime)
end.
%% Tries to send two different exit messages to a process.
%% (The second one should be ignored.)
exit_twice(Config) when is_list(Config) ->
ct:timetrap({seconds, 20}),
process_flag(trap_exit, true),
Low = fun_spawn(fun etwice_low/0),
High = fun_spawn(fun() -> etwice_high(Low) end),
etwice_wait_for(Low, High),
ok.
etwice_wait_for(Low, High) ->
receive
{'EXIT', Low, first} ->
ok;
{'EXIT', Low, Other} ->
ct:fail({wrong_exit_reason, Other});
{'EXIT', High, normal} ->
etwice_wait_for(Low, High);
Other ->
ct:fail({bad_message, Other})
end.
etwice_low() ->
etwice_low().
etwice_high(Low) ->
process_flag(priority, high),
exit(Low, first),
exit(Low, second).
%% Tests the process_info/2 BIF.
t_process_info(Config) when is_list(Config) ->
[] = process_info(self(), registered_name),
register(my_name, self()),
{registered_name, my_name} = process_info(self(), registered_name),
{status, running} = process_info(self(), status),
{min_heap_size, 233} = process_info(self(), min_heap_size),
{min_bin_vheap_size,46422} = process_info(self(), min_bin_vheap_size),
{current_function,{?MODULE,t_process_info,1}} =
process_info(self(), current_function),
{current_function,{?MODULE,t_process_info,1}} =
apply(erlang, process_info, [self(),current_function]),
%% current_location and current_stacktrace
{Line1,Res1} = {?LINE,process_info(self(), current_location)},
verify_loc(Line1, Res1),
{Line2,Res2} = {?LINE,apply(erlang, process_info,
[self(),current_location])},
verify_loc(Line2, Res2),
pi_stacktrace([{?MODULE,t_process_info,1,?LINE}]),
Gleader = group_leader(),
{group_leader, Gleader} = process_info(self(), group_leader),
{'EXIT',{badarg,_Info}} = (catch process_info('not_a_pid')),
ok.
pi_stacktrace(Expected0) ->
{Line,Res} = {?LINE,erlang:process_info(self(), current_stacktrace)},
{current_stacktrace,Stack} = Res,
Expected = [{?MODULE,pi_stacktrace,1,Line}|Expected0],
pi_stacktrace_1(Stack, Expected).
pi_stacktrace_1([{M,F,A,Loc}|Stk], [{M,F,A,Line}|Exp]) ->
case Loc of
[] ->
%% No location info for some reason (+L, native code).
io:format("Missing location information for ~w:~w/~w",
[M,F,A]),
ok;
[_|_] ->
Line = proplists:get_value(line, Loc),
File = proplists:get_value(file, Loc),
File = ?MODULE_STRING ++ ".erl"
end,
pi_stacktrace_1(Stk, Exp);
pi_stacktrace_1([_|_], []) -> ok.
verify_loc(Line, {current_location,{?MODULE,t_process_info=F,1=A,Loc}}) ->
case Loc of
[] ->
%% No location info for some reason (+L, native code).
io:format("Missing location information for ~w:~w/~w",
[?MODULE,F,A]),
ok;
[_|_] ->
Line = proplists:get_value(line, Loc),
File = proplists:get_value(file, Loc),
File = ?MODULE_STRING ++ ".erl"
end.
process_info_other(Config) when is_list(Config) ->
Self = self(),
Pid = spawn_link(fun() -> process_info_looper(Self) end),
receive after 1 -> ok end,
pio_current_location(10000, Pid, 0, 0),
pio_current_stacktrace().
pio_current_location(0, _, Pi, Looper) ->
io:format("~w call(s) to erlang:process_info/2", [Pi]),
io:format("~w call(s) to ~w:process_info_looper/1", [Looper,?MODULE]);
pio_current_location(N, Pid, Pi, Looper) ->
erlang:yield(),
{current_location,Where} = process_info(Pid, current_location),
case Where of
{erlang,process_info,2,[]} ->
pio_current_location(N-1, Pid, Pi+1, Looper);
{?MODULE,process_info_looper,1,Loc} when is_list(Loc) ->
pio_current_location(N-1, Pid, Pi, Looper+1)
end.
pio_current_stacktrace() ->
L = [begin
{current_stacktrace,Stk} = process_info(P, current_stacktrace),
{P,Stk}
end || P <- processes()],
[erlang:garbage_collect(P) || {P,_} <- L],
erlang:garbage_collect(),
[verify_stacktrace(Stk) || {_,Stk} <- L],
ok.
verify_stacktrace([{M,F,A,Loc}|T])
when is_atom(M),
is_atom(F),
is_integer(A),
is_list(Loc) ->
verify_stacktrace(T);
verify_stacktrace([]) -> ok.
process_info_looper(Parent) ->
process_info(Parent, current_location),
process_info_looper(Parent).
%% Tests the process_info/1 BIF on another process with messages.
process_info_other_msg(Config) when is_list(Config) ->
Self = self(),
Pid = spawn_link(fun() -> other_process(Self) end),
receive
{go_ahead,Pid} -> ok
end,
Own = {my,own,message},
{messages,[Own]} = process_info(Pid, messages),
Garbage = kb_128(),
MsgA = {a,Garbage},
MsgB = {b,Garbage},
MsgC = {c,Garbage},
MsgD = {d,Garbage},
MsgE = {e,Garbage},
Pid ! MsgA,
{messages,[Own,MsgA]} = process_info(Pid, messages),
Pid ! MsgB,
{messages,[Own,MsgA,MsgB]} = process_info(Pid, messages),
Pid ! MsgC,
{messages,[Own,MsgA,MsgB,MsgC]} = process_info(Pid, messages),
Pid ! MsgD,
{messages,[Own,MsgA,MsgB,MsgC,MsgD]} = process_info(Pid, messages),
Pid ! MsgE,
{messages,[Own,MsgA,MsgB,MsgC,MsgD,MsgE]=All} = process_info(Pid, messages),
{memory,BytesOther} = process_info(Pid, memory),
{memory,BytesSelf} = process_info(self(), memory),
io:format("Memory ~p: ~p\n", [Pid,BytesOther]),
io:format("Memory ~p (self): ~p\n", [self(),BytesSelf]),
[Own,MsgA,MsgB,MsgC,MsgD,MsgE] = All,
Pid ! {self(),empty},
receive
empty -> ok
end,
{messages,[]} = process_info(Pid, messages),
{min_heap_size, 233} = process_info(Pid, min_heap_size),
{min_bin_vheap_size, 46422} = process_info(Pid, min_bin_vheap_size),
Pid ! stop,
ok.
process_info_other_dist_msg(Config) when is_list(Config) ->
%%
%% Check that process_info can handle messages that have not been
%% decoded yet.
%%
{ok, Node} = start_node(Config),
Self = self(),
Pid = spawn_link(fun() -> other_process(Self) end),
receive {go_ahead,Pid} -> ok end,
Own = {my,own,message},
{messages,[Own]} = process_info(Pid, messages),
Garbage = kb_128(),
MsgA = {a,self(),Garbage},
MsgB = {b,self(),Garbage},
MsgC = {c,self(),Garbage},
MsgD = {d,self(),Garbage},
MsgE = {e,self(),Garbage},
%% We don't want the other process to decode messages itself
%% therefore we suspend it.
true = erlang:suspend_process(Pid),
spawn_link(Node, fun () ->
Pid ! MsgA,
Pid ! MsgB,
Pid ! MsgC,
Self ! check_abc
end),
receive check_abc -> ok end,
[{status,suspended},
{messages,[Own,MsgA,MsgB,MsgC]},
{status,suspended}]= process_info(Pid, [status,messages,status]),
spawn_link(Node, fun () ->
Pid ! MsgD,
Pid ! MsgE,
Self ! check_de
end),
receive check_de -> ok end,
{messages,[Own,MsgA,MsgB,MsgC,MsgD,MsgE]=All} = process_info(Pid, messages),
true = erlang:resume_process(Pid),
Pid ! {self(), get_all_messages},
receive
{all_messages, AllMsgs} ->
All = AllMsgs
end,
{messages,[]} = process_info(Pid, messages),
Pid ! stop,
stop_node(Node),
ok.
other_process(Parent) ->
self() ! {my,own,message},
Parent ! {go_ahead,self()},
other_process_1().
other_process_1() ->
receive
{Parent,get_all_messages} ->
Parent ! {all_messages, get_all_messages()},
other_process_1();
{Parent,empty} ->
receive_all(),
Parent ! empty,
other_process_1();
stop -> ok
end.
get_all_messages() ->
get_all_messages([]).
get_all_messages(Msgs) ->
receive
Msg ->
get_all_messages([Msg|Msgs])
after 0 ->
lists:reverse(Msgs)
end.
receive_all() ->
receive
_ -> receive_all()
after 0 -> ok
end.
chk_pi_order([],[]) ->
ok;
chk_pi_order([{Arg, _}| Values], [Arg|Args]) ->
chk_pi_order(Values, Args).
process_info_2_list(doc) ->
[];
process_info_2_list(suite) ->
[];
process_info_2_list(Config) when is_list(Config) ->
Proc = spawn(fun () -> receive after infinity -> ok end end),
register(process_SUITE_process_info_2_list1, self()),
register(process_SUITE_process_info_2_list2, Proc),
erts_debug:set_internal_state(available_internal_state,true),
AllArgs = erts_debug:get_internal_state(process_info_args),
A1 = lists:sort(AllArgs) ++ [status] ++ lists:reverse(AllArgs),
%% Verify that argument is accepted as single atom
lists:foreach(fun (A) ->
{A, _} = process_info(Proc, A),
{A, _} = process_info(self(), A)
end, A1),
%% Verify that order is preserved
ok = chk_pi_order(process_info(self(), A1), A1),
ok = chk_pi_order(process_info(Proc, A1), A1),
%% Small arg list
A2 = [status, stack_size, trap_exit, priority],
[{status, _}, {stack_size, _}, {trap_exit, _}, {priority, _}]
= process_info(Proc, A2),
[{status, _}, {stack_size, _}, {trap_exit, _}, {priority, _}]
= process_info(self(), A2),
%% Huge arg list (note values are shared)
A3 = lists:duplicate(5000,backtrace),
V3 = process_info(Proc, A3),
5000 = length(V3),
lists:foreach(fun ({backtrace, _}) -> ok end, V3),
ok.
process_info_lock_reschedule(doc) ->
[];
process_info_lock_reschedule(suite) ->
[];
process_info_lock_reschedule(Config) when is_list(Config) ->
%% We need a process that is running and an item that requires
%% process_info to take the main process lock.
Target1 = spawn_link(fun tok_loop/0),
Name1 = process_info_lock_reschedule_running,
register(Name1, Target1),
Target2 = spawn_link(fun () -> receive after infinity -> ok end end),
Name2 = process_info_lock_reschedule_waiting,
register(Name2, Target2),
PI = fun(_) ->
erlang:yield(),
[{registered_name, Name1}] = process_info(Target1, [registered_name]),
[{registered_name, Name2}] = process_info(Target2, [registered_name]),
erlang:yield(),
{registered_name, Name1} = process_info(Target1, registered_name),
{registered_name, Name2} = process_info(Target2, registered_name),
erlang:yield(),
[{registered_name, Name1}| _] = process_info(Target1),
[{registered_name, Name2}| _] = process_info(Target2)
end,
lists:foreach(PI, lists:seq(1,1000)),
%% Make sure Target1 still is willing to "tok loop"
case process_info(Target1, status) of
{status, OkStatus} when OkStatus == runnable;
OkStatus == running;
OkStatus == garbage_collecting ->
unlink(Target1),
unlink(Target2),
exit(Target1, bang),
exit(Target2, bang),
OkStatus;
{status, BadStatus} ->
ct:fail(BadStatus)
end.
pi_loop(_Name, _Pid, 0) ->
ok;
pi_loop(Name, Pid, N) ->
{registered_name, Name} = process_info(Pid, registered_name),
pi_loop(Name, Pid, N-1).
process_info_lock_reschedule2(doc) ->
[];
process_info_lock_reschedule2(suite) ->
[];
process_info_lock_reschedule2(Config) when is_list(Config) ->
Parent = self(),
Fun = fun () ->
receive {go, Name, Pid} -> ok end,
pi_loop(Name, Pid, 10000),
Parent ! {done, self()},
receive after infinity -> ok end
end,
P1 = spawn_link(Fun),
N1 = process_info_lock_reschedule2_1,
true = register(N1, P1),
P2 = spawn_link(Fun),
N2 = process_info_lock_reschedule2_2,
true = register(N2, P2),
P3 = spawn_link(Fun),
N3 = process_info_lock_reschedule2_3,
true = register(N3, P3),
P4 = spawn_link(Fun),
N4 = process_info_lock_reschedule2_4,
true = register(N4, P4),
P5 = spawn_link(Fun),
N5 = process_info_lock_reschedule2_5,
true = register(N5, P5),
P6 = spawn_link(Fun),
N6 = process_info_lock_reschedule2_6,
true = register(N6, P6),
P1 ! {go, N2, P2},
P2 ! {go, N1, P1},
P3 ! {go, N1, P1},
P4 ! {go, N1, P1},
P5 ! {go, N6, P6},
P6 ! {go, N5, P5},
receive {done, P1} -> ok end,
receive {done, P2} -> ok end,
receive {done, P3} -> ok end,
receive {done, P4} -> ok end,
receive {done, P5} -> ok end,
receive {done, P6} -> ok end,
unlink(P1), exit(P1, bang),
unlink(P2), exit(P2, bang),
unlink(P3), exit(P3, bang),
unlink(P4), exit(P4, bang),
unlink(P5), exit(P5, bang),
unlink(P6), exit(P6, bang),
ok.
many_args(0,_B,_C,_D,_E,_F,_G,_H,_I,_J) ->
ok;
many_args(A,B,C,D,E,F,G,H,I,J) ->
many_args(A-1,B,C,D,E,F,G,H,I,J).
do_pi_msg_len(PT, AT) ->
lists:map(fun (_) -> ok end, [a,b,c,d]),
{message_queue_len, _} = process_info(element(2,PT), element(2,AT)).
process_info_lock_reschedule3(doc) ->
[];
process_info_lock_reschedule3(suite) ->
[];
process_info_lock_reschedule3(Config) when is_list(Config) ->
%% We need a process that is running and an item that requires
%% process_info to take the main process lock.
Target1 = spawn_link(fun tok_loop/0),
Name1 = process_info_lock_reschedule_running,
register(Name1, Target1),
Target2 = spawn_link(fun () -> receive after infinity -> ok end end),
Name2 = process_info_lock_reschedule_waiting,
register(Name2, Target2),
PI = fun(N) ->
case N rem 10 of
0 -> erlang:yield();
_ -> ok
end,
do_pi_msg_len({proc, Target1},
{arg, message_queue_len})
end,
many_args(100000,1,2,3,4,5,6,7,8,9),
lists:foreach(PI, lists:seq(1,1000000)),
%% Make sure Target1 still is willing to "tok loop"
case process_info(Target1, status) of
{status, OkStatus} when OkStatus == runnable;
OkStatus == running;
OkStatus == garbage_collecting ->
unlink(Target1),
unlink(Target2),
exit(Target1, bang),
exit(Target2, bang),
OkStatus;
{status, BadStatus} ->
ct:fail(BadStatus)
end.
process_status_exiting(Config) when is_list(Config) ->
%% Make sure that erts_debug:get_internal_state({process_status,P})
%% returns exiting if it is in status P_EXITING.
erts_debug:set_internal_state(available_internal_state,true),
Prio = process_flag(priority, max),
P = spawn_opt(fun () -> receive after infinity -> ok end end,
[{priority, normal}]),
erlang:yield(),
%% The tok_loop processes are here to make it hard for the exiting
%% process to be scheduled in for exit...
TokLoops = lists:map(fun (_) ->
spawn_opt(fun tok_loop/0,
[link,{priority, high}])
end, lists:seq(1, erlang:system_info(schedulers_online))),
exit(P, boom),
wait_until(fun() ->
exiting =:= erts_debug:get_internal_state({process_status,P})
end),
lists:foreach(fun (Tok) -> unlink(Tok), exit(Tok,bang) end, TokLoops),
process_flag(priority, Prio),
ok.
otp_4725(Config) when is_list(Config) ->
Tester = self(),
Ref1 = make_ref(),
Pid1 = spawn_opt(fun () ->
Tester ! {Ref1, process_info(self())},
receive
Ref1 -> bye
end
end, [link, {priority, max}, {fullsweep_after, 600}]),
receive
{Ref1, ProcInfo1A} ->
ProcInfo1B = process_info(Pid1),
Pid1 ! Ref1,
check_proc_infos(ProcInfo1A, ProcInfo1B)
end,
Ref2 = make_ref(),
Pid2 = spawn_opt(fun () ->
Tester ! {Ref2, process_info(self())},
receive
Ref2 -> bye
end
end,
[]),
receive
{Ref2, ProcInfo2A} ->
ProcInfo2B = process_info(Pid2),
Pid2 ! Ref2,
check_proc_infos(ProcInfo2A, ProcInfo2B)
end,
ok.
check_proc_infos(A, B) ->
IC = lists:keysearch(initial_call, 1, A),
IC = lists:keysearch(initial_call, 1, B),
L = lists:keysearch(links, 1, A),
L = lists:keysearch(links, 1, B),
D = lists:keysearch(dictionary, 1, A),
D = lists:keysearch(dictionary, 1, B),
TE = lists:keysearch(trap_exit, 1, A),
TE = lists:keysearch(trap_exit, 1, B),
EH = lists:keysearch(error_handler, 1, A),
EH = lists:keysearch(error_handler, 1, B),
P = lists:keysearch(priority, 1, A),
P = lists:keysearch(priority, 1, B),
GL = lists:keysearch(group_leader, 1, A),
GL = lists:keysearch(group_leader, 1, B),
GC = lists:keysearch(garbage_collection, 1, A),
GC = lists:keysearch(garbage_collection, 1, B),
ok.
%% Dummies.
start_spawner() ->
ok.
stop_spawner() ->
ok.
%% Tests erlang:process_info(Pid, garbage_collection_info)
process_info_garbage_collection(_Config) ->
Parent = self(),
Pid = spawn_link(
fun() ->
receive go -> ok end,
(fun F(0) ->
Parent ! deep,
receive ok -> ok end,
[];
F(N) ->
timer:sleep(1),
[lists:seq(1,100) | F(N-1)]
end)(1000),
Parent ! shallow,
receive done -> ok end
end),
{garbage_collection_info, Before} =
erlang:process_info(Pid, garbage_collection_info),
Pid ! go, receive deep -> ok end,
{_, Deep} = erlang:process_info(Pid, garbage_collection_info),
Pid ! ok, receive shallow -> ok end,
{_, After} = erlang:process_info(Pid, garbage_collection_info),
Pid ! done,
%% Do some general checks to see if everything seems to be roughly correct
ct:log("Before: ~p",[Before]),
ct:log("Deep: ~p",[Deep]),
ct:log("After: ~p",[After]),
%% Check stack_size
true = proplists:get_value(stack_size, Before) < proplists:get_value(stack_size, Deep),
true = proplists:get_value(stack_size, After) < proplists:get_value(stack_size, Deep),
%% Check used heap size
true = proplists:get_value(heap_size, Before) + proplists:get_value(old_heap_size, Before)
< proplists:get_value(heap_size, Deep) + proplists:get_value(old_heap_size, Deep),
true = proplists:get_value(heap_size, Before) + proplists:get_value(old_heap_size, Before)
< proplists:get_value(heap_size, After) + proplists:get_value(old_heap_size, After),
ok.
%% Tests erlang:bump_reductions/1.
bump_reductions(Config) when is_list(Config) ->
erlang:garbage_collect(),
receive after 1 -> ok end, % Clear reductions.
{reductions,R1} = process_info(self(), reductions),
true = erlang:bump_reductions(100),
{reductions,R2} = process_info(self(), reductions),
case R2-R1 of
Diff when Diff < 100 ->
ok = io:format("R1 = ~w, R2 = ~w", [R1, R2]),
ct:fail({small_diff, Diff});
Diff when Diff > 110 ->
ok = io:format("R1 = ~w, R2 = ~w", [R1, R2]),
ct:fail({big_diff, Diff});
Diff ->
io:format("~p\n", [Diff]),
ok
end,
%% Make sure that a bignum reduction doesn't crash the emulator (32-bit CPU).
bump_big(R2, 16#08000000).
bump_big(Prev, Limit) ->
true = erlang:bump_reductions(100000), %Limited to CONTEXT_REDUCTIONS.
case process_info(self(), reductions) of
{reductions,Big} when is_integer(Big), Big > Limit ->
erlang:garbage_collect(),
io:format("~p\n", [Big]);
{reductions,R} when is_integer(R), R > Prev ->
bump_big(R, Limit)
end,
ok.
%% Priority 'low' should be mixed with 'normal' using a factor of
%% about 8. (OTP-2644)
low_prio(Config) when is_list(Config) ->
case erlang:system_info(schedulers_online) of
1 ->
ok = low_prio_test(Config);
_ ->
erlang:system_flag(multi_scheduling, block),
ok = low_prio_test(Config),
erlang:system_flag(multi_scheduling, unblock),
{comment,
"Test not written for SMP runtime system. "
"Multi scheduling blocked during test."}
end.
low_prio_test(Config) when is_list(Config) ->
process_flag(trap_exit, true),
S = spawn_link(?MODULE, prio_server, [0, 0]),
PCs = spawn_prio_clients(S, erlang:system_info(schedulers_online)),
timer:sleep(2000),
lists:foreach(fun (P) -> exit(P, kill) end, PCs),
S ! exit,
receive {'EXIT', S, {A, B}} -> check_prio(A, B) end,
ok.
check_prio(A, B) ->
Prop = A/B,
ok = io:format("Low=~p, High=~p, Prop=~p\n", [A, B, Prop]),
%% It isn't 1/8, it's more like 0.3, but let's check that
%% the low-prio processes get some little chance to run at all.
true = (Prop < 1.0),
true = (Prop > 1/32).
prio_server(A, B) ->
receive
low ->
prio_server(A+1, B);
normal ->
prio_server(A, B+1);
exit ->
exit({A, B})
end.
spawn_prio_clients(_, 0) ->
[];
spawn_prio_clients(S, N) ->
[spawn_opt(?MODULE, prio_client, [S, normal], [link, {priority,normal}]),
spawn_opt(?MODULE, prio_client, [S, low], [link, {priority,low}])
| spawn_prio_clients(S, N-1)].
prio_client(S, Prio) ->
S ! Prio,
prio_client(S, Prio).
make_sub_binary(Bin) when is_binary(Bin) ->
{_,B} = split_binary(list_to_binary([0,1,3,Bin]), 3),
B;
make_sub_binary(List) ->
make_sub_binary(list_to_binary(List)).
make_unaligned_sub_binary(Bin0) ->
Bin1 = <<0:3,Bin0/binary,31:5>>,
Sz = size(Bin0),
<<0:3,Bin:Sz/binary,31:5>> = id(Bin1),
Bin.
yield(doc) ->
"Tests erlang:yield/1.";
yield(Config) when is_list(Config) ->
case catch erlang:system_info(modified_timing_level) of
Level when is_integer(Level) ->
{skipped,
"Modified timing (level " ++ integer_to_list(Level)
++ ") is enabled. Testcase gets messed up by modfied "
"timing."};
_ ->
MS = erlang:system_flag(multi_scheduling, block),
yield_test(),
erlang:system_flag(multi_scheduling, unblock),
case MS of
blocked ->
{comment,
"Multi-scheduling blocked during test. This test-case "
"was not written to work with multiple schedulers (the "
"yield2 test-case tests almost the same thing)."};
_ ->
ok
end
end.
yield_test() ->
erlang:garbage_collect(),
receive after 1 -> ok end, % Clear reductions.
SC = schedcnt(start),
{reductions, R1} = process_info(self(), reductions),
{ok, true} = call_yield(middle),
true = call_yield(final),
true = call_yield(),
true = apply(erlang, yield, []),
{reductions, R2} = process_info(self(), reductions),
Schedcnt = schedcnt(stop, SC),
case {R2-R1, Schedcnt} of
{Diff, 4} when Diff < 30 ->
ok = io:format("R1 = ~w, R2 = ~w, Schedcnt = ~w",
[R1, R2, Schedcnt]);
{Diff, _} ->
ok = io:format("R1 = ~w, R2 = ~w, Schedcnt = ~w",
[R1, R2, Schedcnt]),
ct:fail({measurement_error, Diff, Schedcnt})
end.
call_yield() ->
erlang:yield().
call_yield(middle) ->
{ok, erlang:yield()};
call_yield(final) ->
case self() of
Self when is_pid(Self) ->
ok
end,
erlang:yield().
schedcnt(start) ->
Ref = make_ref(),
Fun =
fun (F, Cnt) ->
receive
{Ref, Parent} ->
Parent ! {Ref, Cnt}
after 0 ->
erlang:yield(),
F(F, Cnt+1)
end
end,
Pid = spawn_link(fun () -> Fun(Fun, 0) end),
{Ref, Pid}.
schedcnt(stop, {Ref, Pid}) when is_reference(Ref), is_pid(Pid) ->
Pid ! {Ref, self()},
receive
{Ref, Cnt} ->
Cnt
end.
yield2(doc) -> [];
yield2(suite) -> [];
yield2(Config) when is_list(Config) ->
Me = self(),
Go = make_ref(),
RedDiff = make_ref(),
Done = make_ref(),
P = spawn(fun () ->
receive Go -> ok end,
{reductions, R1} = process_info(self(), reductions),
{ok, true} = call_yield(middle),
true = call_yield(final),
true = call_yield(),
true = apply(erlang, yield, []),
{reductions, R2} = process_info(self(), reductions),
Me ! {RedDiff, R2 - R1},
exit(Done)
end),
erlang:yield(),
1 = erlang:trace(P, true, [running, procs, {tracer, self()}]),
P ! Go,
%% receive Go -> ok end,
{trace, P, in, _} = next_tmsg(P),
%% {ok, true} = call_yield(middle),
{trace, P, out, _} = next_tmsg(P),
{trace, P, in, _} = next_tmsg(P),
%% true = call_yield(final),
{trace, P, out, _} = next_tmsg(P),
{trace, P, in, _} = next_tmsg(P),
%% true = call_yield(),
{trace, P, out, _} = next_tmsg(P),
{trace, P, in, _} = next_tmsg(P),
%% true = apply(erlang, yield, []),
{trace, P, out, _} = next_tmsg(P),
{trace, P, in, _} = next_tmsg(P),
%% exit(Done)
{trace, P, exit, Done} = next_tmsg(P),
receive
{RedDiff, Reductions} when Reductions < 30, Reductions > 0 ->
io:format("Reductions = ~p~n", [Reductions]),
ok;
{RedDiff, Reductions} ->
ct:fail({unexpected_reduction_count, Reductions})
end,
none = next_tmsg(P),
ok.
next_tmsg(Pid) ->
receive
TMsg when is_tuple(TMsg),
element(1, TMsg) == trace,
element(2, TMsg) == Pid ->
TMsg
after 100 ->
none
end.
%% Test that bad arguments to register/2 cause an exception.
bad_register(Config) when is_list(Config) ->
Name = a_long_and_unused_name,
{'EXIT',{badarg,_}} = (catch register({bad,name}, self())),
fail_register(undefined, self()),
fail_register([bad,name], self()),
{Dead,Mref} = spawn_monitor(fun() -> true end),
receive
{'DOWN',Mref,process,Dead,_} -> ok
end,
fail_register(Name, Dead),
fail_register(Name, make_ref()),
fail_register(Name, []),
fail_register(Name, {bad,process}),
fail_register(Name, <<>>),
ok.
fail_register(Name, Process) ->
{'EXIT',{badarg,_}} = (catch register(Name, Process)),
{'EXIT',{badarg,_}} = (catch Name ! anything_goes),
ok.
garbage_collect(doc) -> [];
garbage_collect(suite) -> [];
garbage_collect(Config) when is_list(Config) ->
Prio = process_flag(priority, high),
true = erlang:garbage_collect(),
TokLoopers = lists:map(fun (_) ->
spawn_opt(fun tok_loop/0, [{priority, low}, link])
end, lists:seq(1, 10)),
lists:foreach(fun (Pid) ->
Mon = erlang:monitor(process, Pid),
DownBefore = receive
{'DOWN', Mon, _, _, _} ->
true
after 0 ->
false
end,
GC = erlang:garbage_collect(Pid),
DownAfter = receive
{'DOWN', Mon, _, _, _} ->
true
after 0 ->
false
end,
true = erlang:demonitor(Mon),
case {DownBefore, DownAfter} of
{true, _} -> false = GC;
{false, false} -> true = GC;
_ -> GC
end
end, processes()),
lists:foreach(fun (Pid) ->
unlink(Pid),
exit(Pid, bang)
end, TokLoopers),
process_flag(priority, Prio),
ok.
process_info_messages(doc) ->
["This used to cause the nofrag emulator to dump core"];
process_info_messages(suite) ->
[];
process_info_messages(Config) when is_list(Config) ->
process_info_messages_test(),
ok.
process_info_messages_loop(0) -> ok;
process_info_messages_loop(N) -> process_info_messages_loop(N-1).
process_info_messages_send_my_msgs_to(Rcvr) ->
receive
Msg ->
Rcvr ! Msg,
process_info_messages_send_my_msgs_to(Rcvr)
after 0 ->
ok
end.
process_info_messages_test() ->
Go = make_ref(),
Done = make_ref(),
Rcvr = self(),
Rcvr2 = spawn_link(fun () ->
receive {Go, Rcvr} -> ok end,
garbage_collect(),
Rcvr ! {Done, self()}
end),
Sndrs = lists:map(
fun (_) ->
spawn_link(fun () ->
Rcvr ! {Go, self()},
receive {Go, Rcvr} -> ok end,
BigData = lists:seq(1, 1000),
Rcvr ! BigData,
Rcvr ! BigData,
Rcvr ! BigData,
Rcvr ! {Done, self()}
end)
end, lists:seq(1, 10)),
lists:foreach(fun (Sndr) -> receive {Go, Sndr} -> ok end end,
Sndrs),
garbage_collect(),
erlang:yield(),
lists:foreach(fun (Sndr) -> Sndr ! {Go, self()} end, Sndrs),
process_info_messages_loop(100000000),
Msgs = process_info(self(), messages),
lists:foreach(fun (Sndr) -> receive {Done, Sndr} -> ok end end,
Sndrs),
garbage_collect(),
Rcvr2 ! Msgs,
process_info_messages_send_my_msgs_to(Rcvr2),
Rcvr2 ! {Go, self()},
garbage_collect(),
receive {Done, Rcvr2} -> ok end,
Msgs.
chk_badarg(Fun) ->
try Fun(), exit(no_badarg) catch error:badarg -> ok end.
process_flag_badarg(doc) ->
[];
process_flag_badarg(suite) ->
[];
process_flag_badarg(Config) when is_list(Config) ->
chk_badarg(fun () -> process_flag(gurka, banan) end),
chk_badarg(fun () -> process_flag(trap_exit, gurka) end),
chk_badarg(fun () -> process_flag(error_handler, 1) end),
chk_badarg(fun () -> process_flag(min_heap_size, gurka) end),
chk_badarg(fun () -> process_flag(min_bin_vheap_size, gurka) end),
chk_badarg(fun () -> process_flag(min_bin_vheap_size, -1) end),
chk_badarg(fun () -> process_flag(priority, 4711) end),
chk_badarg(fun () -> process_flag(save_calls, hmmm) end),
P= spawn_link(fun () -> receive die -> ok end end),
chk_badarg(fun () -> process_flag(P, save_calls, hmmm) end),
chk_badarg(fun () -> process_flag(gurka, save_calls, hmmm) end),
P ! die,
ok.
-include_lib("stdlib/include/ms_transform.hrl").
otp_6237(doc) -> [];
otp_6237(suite) -> [];
otp_6237(Config) when is_list(Config) ->
Slctrs = lists:map(fun (_) ->
spawn_link(fun () ->
otp_6237_select_loop()
end)
end,
lists:seq(1,5)),
lists:foreach(fun (_) -> otp_6237_test() end, lists:seq(1, 100)),
lists:foreach(fun (S) -> unlink(S),exit(S, kill) end, Slctrs),
ok.
otp_6237_test() ->
Parent = self(),
Inited = make_ref(),
Die = make_ref(),
Pid = spawn_link(fun () ->
register(otp_6237,self()),
otp_6237 = ets:new(otp_6237,
[named_table,
ordered_set]),
ets:insert(otp_6237,
[{I,I}
|| I <- lists:seq(1, 100)]),
%% Inserting a lot of bif timers
%% increase the possibility that
%% the test will fail when the
%% original cleanup order is used
lists:foreach( fun (_) ->
erlang:send_after(1000000, self(), {a,b,c})
end, lists:seq(1,1000)),
Parent ! Inited,
receive Die -> bye end
end),
receive
Inited -> ok
end,
Pid ! Die,
otp_6237_whereis_loop().
otp_6237_whereis_loop() ->
case whereis(otp_6237) of
undefined ->
otp_6237 = ets:new(otp_6237,
[named_table,ordered_set]),
ets:delete(otp_6237),
ok;
_ ->
otp_6237_whereis_loop()
end.
otp_6237_select_loop() ->
catch ets:select(otp_6237, ets:fun2ms(fun({K, does_not_exist}) -> K end)),
otp_6237_select_loop().
-define(NoTestProcs, 10000).
-record(ptab_list_bif_info, {min_start_reds,
tab_chunks,
tab_chunks_size,
tab_indices_per_red,
free_term_proc_reds,
term_procs_per_red,
term_procs_max_reds,
conses_per_red,
debug_level}).
processes_large_tab(doc) ->
[];
processes_large_tab(suite) ->
[];
processes_large_tab(Config) when is_list(Config) ->
sys_mem_cond_run(2048, fun () -> processes_large_tab_test(Config) end).
processes_large_tab_test(Config) ->
enable_internal_state(),
MaxDbgLvl = 20,
MinProcTabSize = 2*(1 bsl 15),
ProcTabSize0 = 1000000,
ProcTabSize1 = case {erlang:system_info(schedulers_online),
erlang:system_info(logical_processors)} of
{Schdlrs, Cpus} when is_integer(Cpus),
Schdlrs =< Cpus ->
ProcTabSize0;
_ ->
ProcTabSize0 div 4
end,
ProcTabSize2 = case erlang:system_info(debug_compiled) of
true -> ProcTabSize1 - 500000;
false -> ProcTabSize1
end,
%% With high debug levels this test takes so long time that
%% the connection times out; therefore, shrink the test on
%% high debug levels.
DbgLvl = case erts_debug:get_internal_state(processes_bif_info) of
#ptab_list_bif_info{debug_level = Lvl} when Lvl > MaxDbgLvl ->
20;
#ptab_list_bif_info{debug_level = Lvl} when Lvl < 0 ->
ct:fail({debug_level, Lvl});
#ptab_list_bif_info{debug_level = Lvl} ->
Lvl
end,
ProcTabSize3 = ProcTabSize2 - (1300000 * DbgLvl div MaxDbgLvl),
ProcTabSize = case ProcTabSize3 < MinProcTabSize of
true -> MinProcTabSize;
false -> ProcTabSize3
end,
{ok, LargeNode} = start_node(Config,
"+P " ++ integer_to_list(ProcTabSize)),
Res = rpc:call(LargeNode, ?MODULE, processes_bif_test, []),
case rpc:call(LargeNode,
erts_debug,
get_internal_state,
[processes_bif_info]) of
#ptab_list_bif_info{tab_chunks = Chunks} when is_integer(Chunks),
Chunks > 1 -> ok;
PBInfo -> ct:fail(PBInfo)
end,
stop_node(LargeNode),
chk_processes_bif_test_res(Res).
processes_default_tab(doc) ->
[];
processes_default_tab(suite) ->
[];
processes_default_tab(Config) when is_list(Config) ->
sys_mem_cond_run(1024, fun () -> processes_default_tab_test(Config) end).
processes_default_tab_test(Config) ->
{ok, DefaultNode} = start_node(Config, ""),
Res = rpc:call(DefaultNode, ?MODULE, processes_bif_test, []),
stop_node(DefaultNode),
chk_processes_bif_test_res(Res).
processes_small_tab(doc) ->
[];
processes_small_tab(suite) ->
[];
processes_small_tab(Config) when is_list(Config) ->
{ok, SmallNode} = start_node(Config, "+P 1024"),
Res = rpc:call(SmallNode, ?MODULE, processes_bif_test, []),
PBInfo = rpc:call(SmallNode, erts_debug, get_internal_state, [processes_bif_info]),
stop_node(SmallNode),
true = PBInfo#ptab_list_bif_info.tab_chunks < 10,
chk_processes_bif_test_res(Res).
processes_this_tab(doc) ->
[];
processes_this_tab(suite) ->
[];
processes_this_tab(Config) when is_list(Config) ->
Mem = case {erlang:system_info(build_type),
erlang:system_info(allocator)} of
{lcnt, {_, _Vsn, [sys_alloc], _Opts}} ->
%% When running +Mea min + lcnt we may need more memory
1024 * 4;
_ ->
1024
end,
sys_mem_cond_run(Mem, fun () -> chk_processes_bif_test_res(processes_bif_test()) end).
chk_processes_bif_test_res(ok) -> ok;
chk_processes_bif_test_res({comment, _} = Comment) -> Comment;
chk_processes_bif_test_res(Failure) -> ct:fail(Failure).
print_processes_bif_info(#ptab_list_bif_info{min_start_reds = MinStartReds,
tab_chunks = TabChunks,
tab_chunks_size = TabChunksSize,
tab_indices_per_red = TabIndPerRed,
free_term_proc_reds = FreeTPReds,
term_procs_per_red = TPPerRed,
term_procs_max_reds = TPMaxReds,
conses_per_red = ConsesPerRed,
debug_level = DbgLvl}) ->
io:format("processes/0 bif info on node ~p:~n"
"Min start reductions = ~p~n"
"Process table chunks = ~p~n"
"Process table chunks size = ~p~n"
"Process table indices per reduction = ~p~n"
"Reduction cost for free() on terminated process struct = ~p~n"
"Inspect terminated processes per reduction = ~p~n"
"Max reductions during inspection of terminated processes = ~p~n"
"Create cons-cells per reduction = ~p~n"
"Debug level = ~p~n",
[node(),
MinStartReds,
TabChunks,
TabChunksSize,
TabIndPerRed,
FreeTPReds,
TPPerRed,
TPMaxReds,
ConsesPerRed,
DbgLvl]).
processes_bif_cleaner() ->
receive {'EXIT', _, _} -> ok end,
processes_bif_cleaner().
spawn_initial_hangarounds(Cleaner) ->
TabSz = erlang:system_info(process_limit),
erts_debug:set_internal_state(next_pid,TabSz),
spawn_initial_hangarounds(Cleaner,
TabSz,
TabSz*2,
0,
[]).
processes_unexpected_result(CorrectProcs, Procs) ->
ProcInfo = [registered_name,
initial_call,
current_function,
status,
priority],
MissingProcs = CorrectProcs -- Procs,
io:format("Missing processes: ~p",
[lists:map(fun (Pid) ->
[{pid, Pid}
| case process_info(Pid, ProcInfo) of
undefined -> [];
Res -> Res
end]
end,
MissingProcs)]),
SuperfluousProcs = Procs -- CorrectProcs,
io:format("Superfluous processes: ~p",
[lists:map(fun (Pid) ->
[{pid, Pid}
| case process_info(Pid, ProcInfo) of
undefined -> [];
Res -> Res
end]
end,
SuperfluousProcs)]),
ct:fail(unexpected_result).
hangaround(Cleaner, Type) ->
%% Type is only used to distinguish different processes from
%% when doing process_info
try link(Cleaner) catch error:Reason -> exit(Reason) end,
receive after infinity -> ok end,
exit(Type).
spawn_initial_hangarounds(_Cleaner, NP, Max, Len, HAs) when NP > Max ->
{Len, HAs};
spawn_initial_hangarounds(Cleaner, NP, Max, Len, HAs) ->
Skip = 30,
HA1 = spawn_opt(?MODULE, hangaround, [Cleaner, initial_hangaround],
[{priority, low}]),
HA2 = spawn_opt(?MODULE, hangaround, [Cleaner, initial_hangaround],
[{priority, normal}]),
HA3 = spawn_opt(?MODULE, hangaround, [Cleaner, initial_hangaround],
[{priority, high}]),
spawn_drop(Skip),
spawn_initial_hangarounds(Cleaner, NP+Skip, Max, Len+3, [HA1,HA2,HA3|HAs]).
spawn_drop(N) when N =< 0 ->
ok;
spawn_drop(N) ->
spawn(fun () -> ok end),
spawn_drop(N-1).
do_processes(WantReds) ->
erts_debug:set_internal_state(reds_left, WantReds),
processes().
processes_bif_test() ->
Tester = self(),
enable_internal_state(),
PBInfo = erts_debug:get_internal_state(processes_bif_info),
print_processes_bif_info(PBInfo),
WantReds = PBInfo#ptab_list_bif_info.min_start_reds + 10,
WillTrap = case PBInfo of
#ptab_list_bif_info{tab_chunks = Chunks} when Chunks < 10 ->
false; %% Skip for small tables
#ptab_list_bif_info{tab_chunks = Chunks,
tab_chunks_size = ChunksSize,
tab_indices_per_red = IndiciesPerRed
} ->
Chunks*ChunksSize >= IndiciesPerRed*WantReds
end,
Processes = fun () ->
erts_debug:set_internal_state(reds_left,WantReds),
processes()
end,
ok = do_processes_bif_test(WantReds, WillTrap, Processes),
case WillTrap of
false ->
ok;
true ->
%% Do it again with a process suspended while
%% in the processes/0 bif.
erlang:system_flag(multi_scheduling, block),
Suspendee = spawn_link(fun () ->
Tester ! {suspend_me, self()},
Tester ! {self(),
done,
hd(Processes())},
receive
after infinity ->
ok
end
end),
receive {suspend_me, Suspendee} -> ok end,
erlang:suspend_process(Suspendee),
erlang:system_flag(multi_scheduling, unblock),
[{status,suspended},{current_function,{erlang,ptab_list_continue,2}}] =
process_info(Suspendee, [status, current_function]),
ok = do_processes_bif_test(WantReds, WillTrap, Processes),
erlang:resume_process(Suspendee),
receive {Suspendee, done, _} -> ok end,
unlink(Suspendee),
exit(Suspendee, bang)
end,
case get(processes_bif_testcase_comment) of
undefined -> ok;
Comment -> {comment, Comment}
end.
do_processes_bif_test(WantReds, DieTest, Processes) ->
Tester = self(),
SpawnProcesses = fun (Prio) ->
spawn_opt(?MODULE, do_processes, [WantReds], [link, {priority, Prio}])
end,
Cleaner = spawn_link(fun () ->
process_flag(trap_exit, true),
Tester ! {cleaner_alive, self()},
processes_bif_cleaner()
end),
receive {cleaner_alive, Cleaner} -> ok end,
try
DoIt = make_ref(),
GetGoing = make_ref(),
{NoTestProcs, TestProcs} = spawn_initial_hangarounds(Cleaner),
io:format("Testing with ~p processes~n", [NoTestProcs]),
SpawnHangAround = fun () ->
spawn(?MODULE, hangaround, [Cleaner, new_hangaround])
end,
Killer = spawn_opt(fun () ->
Splt = NoTestProcs div 10,
{TP1, TP23} = lists:split(Splt, TestProcs),
{TP2, TP3} = lists:split(Splt, TP23),
erlang:system_flag(multi_scheduling, block),
Tester ! DoIt,
receive GetGoing -> ok end,
erlang:system_flag(multi_scheduling, unblock),
SpawnProcesses(high),
lists:foreach( fun (P) ->
SpawnHangAround(),
exit(P, bang)
end, TP1),
SpawnProcesses(high),
erlang:yield(),
lists:foreach( fun (P) ->
SpawnHangAround(),
exit(P, bang)
end, TP2),
SpawnProcesses(high),
lists:foreach(
fun (P) ->
SpawnHangAround(),
exit(P, bang)
end, TP3)
end, [{priority, high}, link]),
receive DoIt -> ok end,
process_flag(priority, low),
SpawnProcesses(low),
erlang:yield(),
process_flag(priority, normal),
CorrectProcs0 = erts_debug:get_internal_state(processes),
Killer ! GetGoing,
erts_debug:set_internal_state(reds_left, WantReds),
Procs0 = processes(),
Procs = lists:sort(Procs0),
CorrectProcs = lists:sort(CorrectProcs0),
LengthCorrectProcs = length(CorrectProcs),
io:format("~p = length(CorrectProcs)~n", [LengthCorrectProcs]),
true = LengthCorrectProcs > NoTestProcs,
case CorrectProcs =:= Procs of
true ->
ok;
false ->
processes_unexpected_result(CorrectProcs, Procs)
end,
unlink(Killer),
exit(Killer, bang)
after
unlink(Cleaner),
exit(Cleaner, kill),
%% Wait for the system to recover to a normal state...
wait_until_system_recover()
end,
do_processes_bif_die_test(DieTest, Processes),
ok.
do_processes_bif_die_test(false, _Processes) ->
io:format("Skipping test killing process executing processes/0~n",[]),
ok;
do_processes_bif_die_test(true, Processes) ->
do_processes_bif_die_test(5, Processes);
do_processes_bif_die_test(N, Processes) ->
io:format("Doing test killing process executing processes/0~n",[]),
try
Tester = self(),
Oooh_Nooooooo = make_ref(),
{_, DieWhileDoingMon} = erlang:spawn_monitor( fun () ->
Victim = self(),
spawn_opt(
fun () ->
exit(Victim, got_him)
end,
[link, {priority, max}]),
Tester ! {Oooh_Nooooooo,
hd(Processes())},
exit(ohhhh_nooooo)
end),
receive
{'DOWN', DieWhileDoingMon, _, _, Reason} ->
case Reason of
got_him -> ok;
_ -> throw({kill_in_trap, Reason})
end
end,
receive
{Oooh_Nooooooo, _} ->
throw({kill_in_trap, 'Oooh_Nooooooo'})
after 0 ->
ok
end,
PrcsCllrsSeqLen = 2*erlang:system_info(schedulers_online),
PrcsCllrsSeq = lists:seq(1, PrcsCllrsSeqLen),
ProcsCallers = lists:map( fun (_) ->
spawn_link(
fun () ->
Tester ! hd(Processes())
end)
end, PrcsCllrsSeq),
erlang:yield(),
{ProcsCallers1, ProcsCallers2} = lists:split(PrcsCllrsSeqLen div 2,
ProcsCallers),
process_flag(priority, high),
lists:foreach(
fun (P) ->
unlink(P),
exit(P, bang)
end,
lists:reverse(ProcsCallers2) ++ ProcsCallers1),
process_flag(priority, normal),
ok
catch
throw:{kill_in_trap, R} when N > 0 ->
io:format("Failed to kill in trap: ~p~n", [R]),
io:format("Trying again~n", []),
do_processes_bif_die_test(N-1, Processes)
end.
wait_until_system_recover() ->
%% If system hasn't recovered after 10 seconds we give up
Tmr = erlang:start_timer(10000, self(), no_more_wait),
wait_until_system_recover(Tmr).
wait_until_system_recover(Tmr) ->
try
lists:foreach(fun (P) when P == self() ->
ok;
(P) ->
case process_info(P, initial_call) of
{initial_call,{?MODULE, _, _}} ->
throw(wait);
{initial_call,{_, _, _}} ->
ok;
undefined ->
ok
end
end,
processes())
catch
throw:wait ->
receive
{timeout, Tmr, _} ->
Comment = "WARNING: Test processes still hanging around!",
io:format("~s~n", [Comment]),
put(processes_bif_testcase_comment, Comment),
lists:foreach(
fun (P) when P == self() ->
ok;
(P) ->
case process_info(P, initial_call) of
{initial_call,{?MODULE, _, _} = MFA} ->
io:format("~p ~p~n", [P, MFA]);
{initial_call,{_, _, _}} ->
ok;
undefined ->
ok
end
end,
processes())
after 100 ->
wait_until_system_recover(Tmr)
end
end,
erlang:cancel_timer(Tmr),
receive {timeout, Tmr, _} -> ok after 0 -> ok end,
ok.
processes_last_call_trap(doc) ->
[];
processes_last_call_trap(suite) ->
[];
processes_last_call_trap(Config) when is_list(Config) ->
enable_internal_state(),
Processes = fun () -> processes() end,
PBInfo = erts_debug:get_internal_state(processes_bif_info),
print_processes_bif_info(PBInfo),
WantReds = case PBInfo#ptab_list_bif_info.min_start_reds of
R when R > 10 -> R - 1;
_R -> 9
end,
lists:foreach(fun (_) ->
erts_debug:set_internal_state(reds_left,
WantReds),
Processes(),
erts_debug:set_internal_state(reds_left,
WantReds),
my_processes()
end,
lists:seq(1,100)).
my_processes() ->
processes().
processes_apply_trap(doc) ->
[];
processes_apply_trap(suite) ->
[];
processes_apply_trap(Config) when is_list(Config) ->
enable_internal_state(),
PBInfo = erts_debug:get_internal_state(processes_bif_info),
print_processes_bif_info(PBInfo),
WantReds = case PBInfo#ptab_list_bif_info.min_start_reds of
R when R > 10 -> R - 1;
_R -> 9
end,
lists:foreach(fun (_) ->
erts_debug:set_internal_state(reds_left,
WantReds),
apply(erlang, processes, [])
end, lists:seq(1,100)).
processes_gc_trap(doc) ->
[];
processes_gc_trap(suite) ->
[];
processes_gc_trap(Config) when is_list(Config) ->
Tester = self(),
enable_internal_state(),
PBInfo = erts_debug:get_internal_state(processes_bif_info),
print_processes_bif_info(PBInfo),
WantReds = PBInfo#ptab_list_bif_info.min_start_reds + 10,
Processes = fun () ->
erts_debug:set_internal_state(reds_left,WantReds),
processes()
end,
erlang:system_flag(multi_scheduling, block),
Suspendee = spawn_link(fun () ->
Tester ! {suspend_me, self()},
Tester ! {self(),
done,
hd(Processes())},
receive after infinity -> ok end
end),
receive {suspend_me, Suspendee} -> ok end,
erlang:suspend_process(Suspendee),
erlang:system_flag(multi_scheduling, unblock),
[{status,suspended}, {current_function,{erlang,ptab_list_continue,2}}]
= process_info(Suspendee, [status, current_function]),
erlang:garbage_collect(Suspendee),
erlang:garbage_collect(Suspendee),
erlang:resume_process(Suspendee),
receive {Suspendee, done, _} -> ok end,
erlang:garbage_collect(Suspendee),
erlang:garbage_collect(Suspendee),
unlink(Suspendee),
exit(Suspendee, bang),
ok.
process_flag_heap_size(doc) ->
[];
process_flag_heap_size(suite) ->
[];
process_flag_heap_size(Config) when is_list(Config) ->
HSize = 2586, % must be gc fib+ number
VHSize = 318187, % must be gc fib+ number
OldHmin = erlang:process_flag(min_heap_size, HSize),
{min_heap_size, HSize} = erlang:process_info(self(), min_heap_size),
OldVHmin = erlang:process_flag(min_bin_vheap_size, VHSize),
{min_bin_vheap_size, VHSize} = erlang:process_info(self(), min_bin_vheap_size),
HSize = erlang:process_flag(min_heap_size, OldHmin),
VHSize = erlang:process_flag(min_bin_vheap_size, OldVHmin),
ok.
spawn_opt_heap_size(doc) ->
[];
spawn_opt_heap_size(suite) ->
[];
spawn_opt_heap_size(Config) when is_list(Config) ->
HSize = 987, % must be gc fib+ number
VHSize = 46422, % must be gc fib+ number
Pid = spawn_opt(fun () -> receive stop -> ok end end,
[{min_heap_size, HSize},{ min_bin_vheap_size, VHSize}]),
{min_heap_size, HSize} = process_info(Pid, min_heap_size),
{min_bin_vheap_size, VHSize} = process_info(Pid, min_bin_vheap_size),
Pid ! stop,
ok.
processes_term_proc_list(doc) ->
[];
processes_term_proc_list(suite) ->
[];
processes_term_proc_list(Config) when is_list(Config) ->
Tester = self(),
as_expected = processes_term_proc_list_test(false),
{ok, Node} = start_node(Config, "+Mis true"),
RT = spawn_link(Node, fun () ->
receive after 1000 -> ok end,
processes_term_proc_list_test(false),
Tester ! {it_worked, self()}
end),
receive {it_worked, RT} -> ok end,
stop_node(Node),
ok.
-define(CHK_TERM_PROC_LIST(MC, XB),
chk_term_proc_list(?LINE, MC, XB)).
chk_term_proc_list(Line, MustChk, ExpectBlks) ->
case {MustChk, instrument:memory_status(types)} of
{false, false} ->
not_enabled;
{_, MS} ->
{value,
{ptab_list_deleted_el,
DL}} = lists:keysearch(ptab_list_deleted_el, 1, MS),
case lists:keysearch(blocks, 1, DL) of
{value, {blocks, ExpectBlks, _, _}} ->
ok;
{value, {blocks, Blks, _, _}} ->
exit({line, Line,
mismatch, expected, ExpectBlks, actual, Blks});
Unexpected ->
exit(Unexpected)
end
end,
ok.
processes_term_proc_list_test(MustChk) ->
Tester = self(),
enable_internal_state(),
PBInfo = erts_debug:get_internal_state(processes_bif_info),
print_processes_bif_info(PBInfo),
WantReds = PBInfo#ptab_list_bif_info.min_start_reds + 10,
#ptab_list_bif_info{tab_chunks = Chunks,
tab_chunks_size = ChunksSize,
tab_indices_per_red = IndiciesPerRed
} = PBInfo,
true = Chunks > 1,
true = Chunks*ChunksSize >= IndiciesPerRed*WantReds,
Processes = fun () ->
erts_debug:set_internal_state(reds_left,
WantReds),
processes()
end,
Exit = fun (P) ->
unlink(P),
exit(P, bang),
wait_until(
fun () ->
not lists:member(
P,
erts_debug:get_internal_state(
processes))
end)
end,
SpawnSuspendProcessesProc = fun () ->
erlang:system_flag(multi_scheduling, block),
P = spawn_link(fun () ->
Tester ! {suspend_me, self()},
Tester ! {self(),
done,
hd(Processes())},
receive after infinity -> ok end
end),
receive {suspend_me, P} -> ok end,
erlang:suspend_process(P),
erlang:system_flag(multi_scheduling, unblock),
[{status,suspended},
{current_function,{erlang,ptab_list_continue,2}}]
= process_info(P, [status, current_function]),
P
end,
ResumeProcessesProc = fun (P) ->
erlang:resume_process(P),
receive {P, done, _} -> ok end
end,
?CHK_TERM_PROC_LIST(MustChk, 0),
HangAround = fun () -> receive after infinity -> ok end end,
HA1 = spawn_link(HangAround),
HA2 = spawn_link(HangAround),
HA3 = spawn_link(HangAround),
S1 = SpawnSuspendProcessesProc(),
?CHK_TERM_PROC_LIST(MustChk, 1),
Exit(HA1),
?CHK_TERM_PROC_LIST(MustChk, 2),
S2 = SpawnSuspendProcessesProc(),
?CHK_TERM_PROC_LIST(MustChk, 3),
S3 = SpawnSuspendProcessesProc(),
?CHK_TERM_PROC_LIST(MustChk, 4),
Exit(HA2),
?CHK_TERM_PROC_LIST(MustChk, 5),
S4 = SpawnSuspendProcessesProc(),
?CHK_TERM_PROC_LIST(MustChk, 6),
Exit(HA3),
?CHK_TERM_PROC_LIST(MustChk, 7),
ResumeProcessesProc(S1),
?CHK_TERM_PROC_LIST(MustChk, 5),
ResumeProcessesProc(S3),
?CHK_TERM_PROC_LIST(MustChk, 4),
ResumeProcessesProc(S4),
?CHK_TERM_PROC_LIST(MustChk, 3),
ResumeProcessesProc(S2),
?CHK_TERM_PROC_LIST(MustChk, 0),
Exit(S1),
Exit(S2),
Exit(S3),
Exit(S4),
HA4 = spawn_link(HangAround),
HA5 = spawn_link(HangAround),
HA6 = spawn_link(HangAround),
S5 = SpawnSuspendProcessesProc(),
?CHK_TERM_PROC_LIST(MustChk, 1),
Exit(HA4),
?CHK_TERM_PROC_LIST(MustChk, 2),
S6 = SpawnSuspendProcessesProc(),
?CHK_TERM_PROC_LIST(MustChk, 3),
Exit(HA5),
?CHK_TERM_PROC_LIST(MustChk, 4),
S7 = SpawnSuspendProcessesProc(),
?CHK_TERM_PROC_LIST(MustChk, 5),
Exit(HA6),
?CHK_TERM_PROC_LIST(MustChk, 6),
S8 = SpawnSuspendProcessesProc(),
?CHK_TERM_PROC_LIST(MustChk, 7),
erlang:system_flag(multi_scheduling, block),
Exit(S8),
?CHK_TERM_PROC_LIST(MustChk, 7),
Exit(S5),
?CHK_TERM_PROC_LIST(MustChk, 6),
Exit(S7),
?CHK_TERM_PROC_LIST(MustChk, 6),
Exit(S6),
?CHK_TERM_PROC_LIST(MustChk, 0),
erlang:system_flag(multi_scheduling, unblock),
as_expected.
otp_7738_waiting(doc) ->
[];
otp_7738_waiting(suite) ->
[];
otp_7738_waiting(Config) when is_list(Config) ->
otp_7738_test(waiting).
otp_7738_suspended(doc) ->
[];
otp_7738_suspended(suite) ->
[];
otp_7738_suspended(Config) when is_list(Config) ->
otp_7738_test(suspended).
otp_7738_resume(doc) ->
[];
otp_7738_resume(suite) ->
[];
otp_7738_resume(Config) when is_list(Config) ->
otp_7738_test(resume).
otp_7738_test(Type) ->
sys_mem_cond_run(3072, fun () -> do_otp_7738_test(Type) end).
do_otp_7738_test(Type) ->
T = self(),
S = spawn_link(fun () ->
receive
{suspend, Suspendee} ->
erlang:suspend_process(Suspendee),
T ! {suspended, Suspendee},
receive
after 10 ->
erlang:resume_process(Suspendee),
Suspendee ! wake_up
end;
{send, To, Msg} ->
receive after 10 -> ok end,
To ! Msg
end
end),
R = spawn_link(fun () ->
X = lists:seq(1, 20000000),
T ! {initialized, self()},
case Type of
_ when Type == suspended;
Type == waiting ->
receive _ -> ok end;
_ when Type == resume ->
Receive = fun (F) ->
receive
_ ->
ok
after 0 ->
F(F)
end
end,
Receive(Receive)
end,
T ! {woke_up, self()},
id(X)
end),
receive {initialized, R} -> ok end,
receive after 10 -> ok end,
case Type of
suspended ->
erlang:suspend_process(R),
S ! {send, R, wake_up};
waiting ->
S ! {send, R, wake_up};
resume ->
S ! {suspend, R},
receive {suspended, R} -> ok end
end,
erlang:garbage_collect(R),
case Type of
suspended ->
erlang:resume_process(R);
_ ->
ok
end,
receive
{woke_up, R} ->
ok
after 2000 ->
I = process_info(R, [status, message_queue_len]),
io:format("~p~n", [I]),
ct:fail(no_progress)
end,
ok.
gor(Reds, Stop) ->
receive
{From, reds} ->
From ! {reds, Reds, self()},
gor(Reds+1, Stop);
{From, Stop} ->
From ! {stopped, Stop, Reds, self()}
after 0 ->
gor(Reds+1, Stop)
end.
garb_other_running(Config) when is_list(Config) ->
Stop = make_ref(),
{Pid, Mon} = spawn_monitor(fun () -> gor(0, Stop) end),
Reds = lists:foldl(fun (_, OldReds) ->
erlang:garbage_collect(Pid),
receive after 1 -> ok end,
Pid ! {self(), reds},
receive
{reds, NewReds, Pid} ->
true = (NewReds > OldReds),
NewReds
end
end,
0,
lists:seq(1, 10000)),
receive after 1 -> ok end,
Pid ! {self(), Stop},
receive
{stopped, Stop, StopReds, Pid} ->
true = (StopReds > Reds)
end,
receive {'DOWN', Mon, process, Pid, normal} -> ok end,
ok.
no_priority_inversion(Config) when is_list(Config) ->
Prio = process_flag(priority, max),
HTLs = lists:map(fun (_) ->
spawn_opt(fun () ->
tok_loop()
end,
[{priority, high}, monitor, link])
end,
lists:seq(1, 2*erlang:system_info(schedulers))),
receive after 500 -> ok end,
LTL = spawn_opt(fun () ->
tok_loop()
end,
[{priority, low}, monitor, link]),
false = erlang:check_process_code(element(1, LTL), nonexisting_module),
true = erlang:garbage_collect(element(1, LTL)),
lists:foreach(fun ({P, _}) ->
unlink(P),
exit(P, kill)
end, [LTL | HTLs]),
lists:foreach(fun ({P, M}) ->
receive
{'DOWN', M, process, P, killed} ->
ok
end
end, [LTL | HTLs]),
process_flag(priority, Prio),
ok.
no_priority_inversion2(Config) when is_list(Config) ->
Prio = process_flag(priority, max),
MTLs = lists:map(fun (_) ->
spawn_opt(fun () ->
tok_loop()
end,
[{priority, max}, monitor, link])
end,
lists:seq(1, 2*erlang:system_info(schedulers))),
receive after 500 -> ok end,
{PL, ML} = spawn_opt(fun () ->
tok_loop()
end,
[{priority, low}, monitor, link]),
RL = request_gc(PL, low),
RN = request_gc(PL, normal),
RH = request_gc(PL, high),
receive
{garbage_collect, _, _} ->
ct:fail(unexpected_gc)
after 1000 ->
ok
end,
RM = request_gc(PL, max),
receive
{garbage_collect, RM, true} ->
ok
end,
lists:foreach(fun ({P, _}) ->
unlink(P),
exit(P, kill)
end, MTLs),
lists:foreach(fun ({P, M}) ->
receive
{'DOWN', M, process, P, killed} ->
ok
end
end, MTLs),
receive
{garbage_collect, RH, true} ->
ok
end,
receive
{garbage_collect, RN, true} ->
ok
end,
receive
{garbage_collect, RL, true} ->
ok
end,
unlink(PL),
exit(PL, kill),
receive
{'DOWN', ML, process, PL, killed} ->
ok
end,
process_flag(priority, Prio),
ok.
request_gc(Pid, Prio) ->
Ref = make_ref(),
erts_internal:request_system_task(Pid, Prio, {garbage_collect, Ref}),
Ref.
system_task_blast(Config) when is_list(Config) ->
Me = self(),
GCReq = fun () ->
RL = gc_req(Me, 100),
lists:foreach(fun (R) ->
receive
{garbage_collect, R, true} ->
ok
end
end, RL),
exit(it_worked)
end,
HTLs = lists:map(fun (_) -> spawn_monitor(GCReq) end, lists:seq(1, 1000)),
lists:foreach(fun ({P, M}) ->
receive
{'DOWN', M, process, P, it_worked} ->
ok
end
end, HTLs),
ok.
gc_req(_Pid, 0) ->
[];
gc_req(Pid, N) ->
R0 = request_gc(Pid, low),
R1 = request_gc(Pid, normal),
R2 = request_gc(Pid, high),
R3 = request_gc(Pid, max),
[R0, R1, R2, R3 | gc_req(Pid, N-1)].
system_task_on_suspended(Config) when is_list(Config) ->
{P, M} = spawn_monitor(fun () ->
tok_loop()
end),
true = erlang:suspend_process(P),
{status, suspended} = process_info(P, status),
true = erlang:garbage_collect(P),
{status, suspended} = process_info(P, status),
true = erlang:resume_process(P),
false = ({status, suspended} == process_info(P, status)),
exit(P, kill),
receive
{'DOWN', M, process, P, killed} ->
ok
end.
gc_request_when_gc_disabled(Config) when is_list(Config) ->
Master = self(),
AIS = erts_debug:set_internal_state(available_internal_state, true),
{P, M} = spawn_opt(fun () ->
true = erts_debug:set_internal_state(gc_state,
false),
Master ! {self(), gc_state, false},
receive after 1000 -> ok end,
Master ! {self(), gc_state, true},
false = erts_debug:set_internal_state(gc_state,
true),
receive after 100 -> ok end
end, [monitor, link]),
receive {P, gc_state, false} -> ok end,
ReqId = make_ref(),
async = garbage_collect(P, [{async, ReqId}]),
receive
{garbage_collect, ReqId, Result} ->
ct:fail({unexpected_gc, Result});
{P, gc_state, true} ->
ok
end,
receive {garbage_collect, ReqId, true} -> ok end,
erts_debug:set_internal_state(available_internal_state, AIS),
receive {'DOWN', M, process, P, _Reason} -> ok end,
ok.
gc_request_blast_when_gc_disabled(Config) when is_list(Config) ->
Master = self(),
AIS = erts_debug:set_internal_state(available_internal_state, true),
{P, M} = spawn_opt(fun () ->
true = erts_debug:set_internal_state(gc_state,
false),
Master ! {self(), gc_state, false},
receive after 1000 -> ok end,
false = erts_debug:set_internal_state(gc_state,
true),
receive after 100 -> ok end
end, [monitor, link]),
receive {P, gc_state, false} -> ok end,
PMs = lists:map(fun (N) ->
Prio = case N rem 4 of
0 -> max;
1 -> high;
2 -> normal;
3 -> low
end,
spawn_opt(fun () ->
erlang:garbage_collect(P)
end, [monitor, link, {priority, Prio}])
end, lists:seq(1, 10000)),
lists:foreach(fun ({Proc, Mon}) ->
receive
{'DOWN', Mon, process, Proc, normal} ->
ok
end
end,
PMs),
erts_debug:set_internal_state(available_internal_state, AIS),
receive {'DOWN', M, process, P, _Reason} -> ok end,
ok.
%% Internal functions
wait_until(Fun) ->
case Fun() of
true -> true;
false -> receive after 10 -> wait_until(Fun) end
end.
tok_loop() ->
tok_loop(hej).
tok_loop(hej) ->
tok_loop(hopp);
tok_loop(hopp) ->
tok_loop(hej).
id(I) -> I.
start_node(Config) ->
start_node(Config, "").
start_node(Config, Args) when is_list(Config) ->
Pa = filename:dirname(code:which(?MODULE)),
Name = list_to_atom(atom_to_list(?MODULE)
++ "-"
++ atom_to_list(?config(testcase, Config))
++ "-"
++ integer_to_list(erlang:system_time(seconds))
++ "-"
++ integer_to_list(erlang:unique_integer([positive]))),
?t:start_node(Name, slave, [{args, "-pa "++Pa++" "++Args}]).
stop_node(Node) ->
?t:stop_node(Node).
enable_internal_state() ->
case catch erts_debug:get_internal_state(available_internal_state) of
true -> true;
_ -> erts_debug:set_internal_state(available_internal_state, true)
end.
sys_mem_cond_run(ReqSizeMB, TestFun) when is_integer(ReqSizeMB) ->
case total_memory() of
TotMem when is_integer(TotMem), TotMem >= ReqSizeMB ->
TestFun();
TotMem when is_integer(TotMem) ->
{skipped, "Not enough memory ("++integer_to_list(TotMem)++" MB)"};
undefined ->
{skipped, "Could not retrieve memory information"}
end.
total_memory() ->
%% Totat memory in MB.
try
MemoryData = memsup:get_system_memory_data(),
case lists:keysearch(total_memory, 1, MemoryData) of
{value, {total_memory, TM}} ->
TM div (1024*1024);
false ->
{value, {system_total_memory, STM}} =
lists:keysearch(system_total_memory, 1, MemoryData),
STM div (1024*1024)
end
catch
_ : _ ->
undefined
end.