%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2003-2016. 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(alloc_SUITE).
-author('[email protected]').
-export([all/0, suite/0, init_per_testcase/2, end_per_testcase/2]).
-export([basic/1,
coalesce/1,
threads/1,
realloc_copy/1,
bucket_index/1,
bucket_mask/1,
rbtree/1,
mseg_clear_cache/1,
erts_mmap/1,
cpool/1,
set_dyn_param/1,
migration/1]).
-include_lib("common_test/include/ct.hrl").
suite() ->
[{ct_hooks,[ts_install_cth]},
{timetrap, {minutes, 4}}].
all() ->
[basic, coalesce, threads, realloc_copy, bucket_index,
set_dyn_param,
bucket_mask, rbtree, mseg_clear_cache, erts_mmap, cpool, migration].
init_per_testcase(Case, Config) when is_list(Config) ->
[{testcase, Case},{debug,false}|Config].
end_per_testcase(_Case, Config) when is_list(Config) ->
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% %%
%% Testcases %%
%% %%
basic(Cfg) -> drv_case(Cfg).
coalesce(Cfg) -> drv_case(Cfg).
threads(Cfg) -> drv_case(Cfg).
realloc_copy(Cfg) -> drv_case(Cfg).
bucket_index(Cfg) -> drv_case(Cfg).
bucket_mask(Cfg) -> drv_case(Cfg).
rbtree(Cfg) -> drv_case(Cfg).
mseg_clear_cache(Cfg) -> drv_case(Cfg).
cpool(Cfg) -> drv_case(Cfg).
migration(Cfg) ->
case erlang:system_info(smp_support) of
true ->
%% Enable test_alloc.
%% Disable driver_alloc to avoid recursive alloc_util calls
%% through enif_mutex_create() in my_creating_mbc().
drv_case(Cfg, concurrent, "+MZe true +MRe false"),
drv_case(Cfg, concurrent, "+MZe true +MRe false +MZas ageffcbf");
false ->
{skipped, "No smp"}
end.
erts_mmap(Config) when is_list(Config) ->
case {os:type(), mmsc_flags()} of
{{unix,_}, false} ->
[erts_mmap_do(Config, SCO, SCRPM, SCRFSD)
|| SCO <-[true,false], SCRFSD <-[1234,0], SCRPM <- [true,false]];
{{unix,_}, Flags} ->
{skipped, Flags};
{{SkipOs,_},_} ->
{skipped,
lists:flatten(["Not run on "
| io_lib:format("~p",[SkipOs])])}
end.
%% Check if there are ERL_FLAGS set that will mess up this test case
mmsc_flags() ->
case mmsc_flags("ERL_FLAGS") of
false -> mmsc_flags("ERL_ZFLAGS");
Flags -> Flags
end.
mmsc_flags(Env) ->
case os:getenv(Env) of
false -> false;
V -> case string:str(V, "+MMsc") of
0 -> false;
P -> Env ++ "=" ++ string:substr(V, P)
end
end.
erts_mmap_do(Config, SCO, SCRPM, SCRFSD) ->
%% We use the number of schedulers + 1 * approx main carriers size
%% to calculate how large the super carrier has to be
%% and then use a minimum of 100 for systems with a low amount of
%% schedulers
Schldr = erlang:system_info(schedulers_online)+1,
SCS = max(round((262144 * 6 + 3 * 1048576) * Schldr / 1024 / 1024),100),
O1 = "+MMscs" ++ integer_to_list(SCS)
++ " +MMsco" ++ atom_to_list(SCO)
++ " +MMscrpm" ++ atom_to_list(SCRPM),
Opts = case SCRFSD of
0 -> O1;
_ -> O1 ++ " +MMscrfsd"++integer_to_list(SCRFSD)
end,
{ok, Node} = start_node(Config, Opts, []),
Self = self(),
Ref = make_ref(),
F = fun() ->
SI = erlang:system_info({allocator,erts_mmap}),
{default_mmap,EM} = lists:keyfind(default_mmap, 1, SI),
{supercarrier,SC} = lists:keyfind(supercarrier, 1, EM),
{sizes,Sizes} = lists:keyfind(sizes, 1, SC),
{free_segs,Segs} = lists:keyfind(free_segs,1,SC),
{total,Total} = lists:keyfind(total,1,Sizes),
io:format("Expecting total ~w, got ~w~n", [SCS*1024*1024,Total]),
Total = SCS*1024*1024,
{reserved,Reserved} = lists:keyfind(reserved,1,Segs),
true = (Reserved >= SCRFSD),
case {SCO,lists:keyfind(os,1,EM)} of
{true, false} -> ok;
{false, {os,_}} -> ok
end,
Self ! {Ref, ok}
end,
spawn_link(Node, F),
Result = receive {Ref, Rslt} -> Rslt end,
stop_node(Node),
Result.
%% Test erlang:system_flag(erts_alloc, ...)
set_dyn_param(_Config) ->
{_, _, _, AlcList} = erlang:system_info(allocator),
{Enabled, Disabled, Others} =
lists:foldl(fun({sys_alloc,_}, {Es, Ds, Os}) ->
{Es, [sys_alloc | Ds], Os};
({AT, Opts}, {Es, Ds, Os}) when is_list(Opts) ->
case lists:keyfind(e, 1, Opts) of
{e, true} ->
{[AT | Es], Ds, Os};
{e, false} ->
{Es, [AT | Ds], Os};
false ->
{Es, Ds, [AT | Os]}
end;
(_, Acc) -> Acc
end,
{[], [], []},
AlcList),
Param = sbct,
lists:foreach(fun(AT) -> set_dyn_param_enabled(AT, Param) end,
Enabled),
lists:foreach(fun(AT) ->
Tpl = {AT, Param, 12345},
io:format("~p\n", [Tpl]),
notsup = erlang:system_flag(erts_alloc, Tpl)
end,
Disabled),
lists:foreach(fun(AT) ->
Tpl = {AT, Param, 12345},
io:format("~p\n", [Tpl]),
{'EXIT',{badarg,_}} =
(catch erlang:system_flag(erts_alloc, Tpl))
end,
Others),
ok.
set_dyn_param_enabled(AT, Param) ->
OldVal = get_alc_param(AT, Param),
Val1 = OldVal div 2,
Tuple = {AT, Param, Val1},
io:format("~p\n", [Tuple]),
ok = erlang:system_flag(erts_alloc, Tuple),
Val1 = get_alc_param(AT, Param),
ok = erlang:system_flag(erts_alloc, {AT, Param, OldVal}),
OldVal = get_alc_param(AT, Param),
ok.
get_alc_param(AT, Param) ->
lists:foldl(fun({instance,_,Istats}, Acc) ->
{options,Opts} = lists:keyfind(options, 1, Istats),
{Param,Val} = lists:keyfind(Param, 1, Opts),
{as,Strategy} = lists:keyfind(as, 1, Opts),
case {param_for_strat(Param, Strategy), Acc} of
{false, _} -> Acc;
{true, undefined} -> Val;
{true, _} ->
Val = Acc
end
end,
undefined,
erlang:system_info({allocator, AT})).
param_for_strat(sbct, gf) -> false;
param_for_strat(_, _) -> true.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% %%
%% Internal functions %%
%% %%
drv_case(Config) ->
drv_case(Config, one_shot, "").
drv_case(Config, Mode, NodeOpts) when is_list(Config) ->
case os:type() of
{Family, _} when Family == unix; Family == win32 ->
%%Prog = {prog,"/my/own/otp/bin/cerl -debug"},
Prog = [],
{ok, Node} = start_node(Config, NodeOpts, Prog),
Self = self(),
Ref = make_ref(),
spawn_link(Node,
fun () ->
Res = run_drv_case(Config, Mode),
Self ! {Ref, Res}
end),
Result = receive {Ref, Rslt} -> Rslt end,
stop_node(Node),
Result;
SkipOs ->
{skipped,
lists:flatten(["Not run on "
| io_lib:format("~p",[SkipOs])])}
end.
run_drv_case(Config, Mode) ->
DataDir = proplists:get_value(data_dir,Config),
CaseName = proplists:get_value(testcase,Config),
File = filename:join(DataDir, CaseName),
{ok,CaseName,Bin} = compile:file(File, [binary,return_errors]),
{module,CaseName} = erlang:load_module(CaseName,Bin),
print_stats(CaseName),
ok = CaseName:init(File),
SlaveState = slave_init(CaseName),
case Mode of
one_shot ->
Result = one_shot(CaseName);
concurrent ->
Result = concurrent(CaseName)
end,
wait_for_memory_deallocations(),
print_stats(CaseName),
true = erlang:delete_module(CaseName),
slave_end(SlaveState),
Result.
slave_init(migration) ->
A0 = case application:start(sasl) of
ok -> [sasl];
_ -> []
end,
case application:start(os_mon) of
ok -> [os_mon|A0];
_ -> A0
end;
slave_init(_) -> [].
slave_end(Apps) ->
lists:foreach(fun (A) -> application:stop(A) end, Apps).
wait_for_memory_deallocations() ->
try
erts_debug:set_internal_state(wait, deallocations)
catch
error:undef ->
erts_debug:set_internal_state(available_internal_state, true),
wait_for_memory_deallocations()
end.
print_stats(migration) ->
IFun = fun({instance,Inr,Istats}, {Bacc,Cacc,Pacc}) ->
{mbcs,MBCS} = lists:keyfind(mbcs, 1, Istats),
Btup = lists:keyfind(blocks, 1, MBCS),
Ctup = lists:keyfind(carriers, 1, MBCS),
Ptup = case lists:keyfind(mbcs_pool, 1, Istats) of
{mbcs_pool,POOL} ->
{blocks, Bpool} = lists:keyfind(blocks, 1, POOL),
{carriers, Cpool} = lists:keyfind(carriers, 1, POOL),
{pool, Bpool, Cpool};
false ->
{pool, 0, 0}
end,
io:format("{instance,~p,~p,~p,~p}}\n",
[Inr, Btup, Ctup, Ptup]),
{tuple_add(Bacc,Btup),tuple_add(Cacc,Ctup),
tuple_add(Pacc,Ptup)};
(_, Acc) -> Acc
end,
{Btot,Ctot,Ptot} = lists:foldl(IFun,
{{blocks,0,0,0},{carriers,0,0,0},{pool,0,0}},
erlang:system_info({allocator,test_alloc})),
{pool, PBtot, PCtot} = Ptot,
io:format("Number of blocks : ~p\n", [Btot]),
io:format("Number of carriers: ~p\n", [Ctot]),
io:format("Number of pooled blocks : ~p\n", [PBtot]),
io:format("Number of pooled carriers: ~p\n", [PCtot]);
print_stats(_) -> ok.
tuple_add(T1, T2) ->
list_to_tuple(lists:zipwith(fun(E1,E2) when is_number(E1), is_number(E2) ->
E1 + E2;
(A,A) ->
A
end,
tuple_to_list(T1), tuple_to_list(T2))).
one_shot(CaseName) ->
State = CaseName:start({1, 0, erlang:system_info(build_type)}),
Result0 = CaseName:run(State),
false = (Result0 =:= continue),
Result1 = handle_result(State, Result0),
CaseName:stop(State),
Result1.
many_shot(CaseName, I, Mem) ->
State = CaseName:start({I, Mem, erlang:system_info(build_type)}),
Result1 = repeat_while(fun() ->
Result0 = CaseName:run(State),
handle_result(State, Result0)
end,
10*1000, I),
CaseName:stop(State),
flush_log(),
Result1.
concurrent(CaseName) ->
NSched = erlang:system_info(schedulers),
Mem = (free_memory() * 3) div 4,
PRs = lists:map(fun(I) -> spawn_opt(fun() ->
many_shot(CaseName, I,
Mem div NSched)
end,
[monitor, {scheduler,I}])
end,
lists:seq(1, NSched)),
lists:foreach(fun({Pid,Ref}) ->
receive {'DOWN', Ref, process, Pid, Reason} ->
Reason
end
end,
PRs),
ok.
repeat_while(Fun, Timeout, I) ->
TRef = erlang:start_timer(Timeout, self(), timeout),
R = repeat_while_loop(Fun, TRef, I),
erlang:cancel_timer(TRef, [{async,true},{info,false}]),
R.
repeat_while_loop(Fun, TRef, I) ->
receive
{timeout, TRef, timeout} ->
io:format("~p: Timeout, enough is enough.",[I]),
succeeded
after 0 ->
%%io:format("~p calls fun\n", [self()]),
case Fun() of
continue -> repeat_while_loop(Fun, TRef, I);
R -> R
end
end.
flush_log() ->
receive
{print, Str} ->
io:format("~s", [Str]),
flush_log()
after 0 ->
ok
end.
handle_result(_State, Result0) ->
flush_log(),
case Result0 of
{'EXIT', Error} ->
ct:fail(Error);
{'EXIT', error, Error} ->
ct:fail(Error);
{failed, Comment} ->
ct:fail(Comment);
{skipped, Comment} ->
{skipped, Comment};
{succeeded, ""} ->
succeeded;
{succeeded, Comment} ->
{comment, Comment};
continue ->
continue
end.
start_node(Config, Opts, Prog) when is_list(Config), is_list(Opts) ->
case proplists:get_value(debug,Config) of
true -> {ok, node()};
_ -> start_node_1(Config, Opts, Prog)
end.
start_node_1(Config, Opts, Prog) ->
Pa = filename:dirname(code:which(?MODULE)),
Name = list_to_atom(atom_to_list(?MODULE)
++ "-"
++ atom_to_list(proplists:get_value(testcase, Config))
++ "-"
++ integer_to_list(erlang:system_time(second))
++ "-"
++ integer_to_list(erlang:unique_integer([positive]))),
ErlArg = case Prog of
[] -> [];
_ -> [{erl,[Prog]}]
end,
test_server:start_node(Name, slave, [{args, Opts++" -pa "++Pa} | ErlArg]).
stop_node(Node) when Node =:= node() -> ok;
stop_node(Node) ->
test_server:stop_node(Node).
free_memory() ->
%% Free memory in MB.
try
SMD = memsup:get_system_memory_data(),
{value, {free_memory, Free}} = lists:keysearch(free_memory, 1, SMD),
TotFree = (Free +
case lists:keysearch(cached_memory, 1, SMD) of
{value, {cached_memory, Cached}} -> Cached;
false -> 0
end +
case lists:keysearch(buffered_memory, 1, SMD) of
{value, {buffered_memory, Buffed}} -> Buffed;
false -> 0
end),
TotFree div (1024*1024)
catch
error : undef ->
ct:fail({"os_mon not built"})
end.