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+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 2014-2016. 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%
+%%
+
+%%
+%% @doc Microstate accounting utility function
+%%
+%% This module provides a user interface for analysing
+%% erlang:statistics(microstate_accounting) data.
+%%
+
+-module(msacc).
+-export([available/0, start/0, start/1, stop/0, reset/0, to_file/1,
+ from_file/1, stats/0, stats/2, print/0, print/1, print/2,
+ print/3]).
+
+-type msacc_data() :: [msacc_data_thread()].
+
+-type msacc_data_thread() :: #{ '$type' := msacc_data,
+ type := msacc_type(), id := msacc_id(),
+ counters := msacc_data_counters() }.
+-type msacc_data_counters() :: #{ msacc_state() => non_neg_integer()}.
+
+-type msacc_stats() :: [msacc_stats_thread()].
+-type msacc_stats_thread() :: #{ '$type' := msacc_stats,
+ type := msacc_type(), id := msacc_id(),
+ system := float(),
+ counters := msacc_stats_counters()}.
+-type msacc_stats_counters() :: #{ msacc_state() => #{ thread := float(),
+ system := float()}}.
+
+
+-type msacc_type() :: scheduler | aux | async.
+-type msacc_id() :: non_neg_integer().
+-type msacc_state() :: alloc | aux | bif | busy_wait | check_io |
+ emulator | ets | gc | gc_fullsweep | nif |
+ other | port | send | sleep | timers.
+
+-type msacc_print_options() :: #{ system => boolean() }.
+
+-spec available() -> boolean().
+available() ->
+ try
+ [_|_] = erlang:statistics(microstate_accounting),
+ true
+ catch _:_ ->
+ false
+ end.
+
+-spec start() -> boolean().
+start() ->
+ erlang:system_flag(microstate_accounting, true).
+
+-spec stop() -> boolean().
+stop() ->
+ erlang:system_flag(microstate_accounting, false).
+
+-spec reset() -> boolean().
+reset() ->
+ erlang:system_flag(microstate_accounting, reset).
+
+-spec start(Time) -> true when
+ Time :: timeout().
+start(Tmo) ->
+ stop(), reset(), start(),
+ timer:sleep(Tmo),
+ stop().
+
+-spec to_file(Filename) -> ok | {error, file:posix()} when
+ Filename :: file:name_all().
+to_file(Filename) ->
+ file:write_file(Filename, io_lib:format("~p.~n",[stats()])).
+
+-spec from_file(Filename) -> msacc_data() when
+ Filename :: file:name_all().
+from_file(Filename) ->
+ {ok, [Stats]} = file:consult(Filename),
+ Stats.
+
+-spec print() -> ok.
+print() ->
+ print(stats()).
+
+-spec print(DataOrStats) -> ok when
+ DataOrStats :: msacc_data() | msacc_stats().
+print(Stats) ->
+ print(Stats, #{}).
+
+-spec print(DataOrStats, Options) -> ok when
+ DataOrStats :: msacc_data() | msacc_stats(),
+ Options :: msacc_print_options().
+print(Stats, Options) ->
+ print(group_leader(), Stats, Options).
+
+-spec print(FileOrDevice, DataOrStats, Options) -> ok when
+ FileOrDevice :: file:filename() | io:device(),
+ DataOrStats :: msacc_data() | msacc_stats(),
+ Options :: msacc_print_options().
+print(Filename, Stats, Options) when is_list(Filename) ->
+ case file:open(Filename,[write]) of
+ {ok, D} -> print(D, Stats, Options),file:close(D);
+ Error -> Error
+ end;
+print(Device, Stats, Options) ->
+ DefaultOpts = #{ system => false },
+ print_int(Device, Stats, maps:merge(DefaultOpts, Options)).
+print_int(Device, [#{ '$type' := msacc_data, id := _Id }|_] = Stats, Options) ->
+ TypeStats = stats(type, Stats),
+ io:format(Device, "~s", [print_stats_overview(Stats, Options)]),
+ io:format(Device, "~s", [print_stats_header(Stats, Options)]),
+ io:format(Device, "~s", [print_stats_threads(
+ stats(realtime, Stats), Options)]),
+ io:format(Device, "~s", [print_stats_type(
+ stats(realtime, TypeStats), Options)]);
+print_int(Device, [#{ '$type' := msacc_data }|_] = Stats, Options) ->
+ io:format(Device, "~s", [print_stats_header(Stats, Options)]),
+ io:format(Device, "~s", [print_stats_type(
+ stats(realtime, Stats), Options)]);
+print_int(Device, [#{ '$type' := msacc_stats, id := _Id }|_] = Stats,Options) ->
+ io:format(Device, "~s", [print_stats_header(Stats, Options)]),
+ io:format(Device, "~s", [print_stats_threads(Stats, Options)]),
+ io:format(Device, "~s", [print_stats_type(
+ msacc:stats(type, Stats), Options)]);
+print_int(Device, [#{ '$type' := msacc_stats }|_] = Stats, Options) ->
+ io:format(Device, "~s", [print_stats_header(Stats, Options)]),
+ io:format(Device, "~s", [print_stats_type(Stats, Options)]).
+
+
+-spec stats() -> msacc_data().
+stats() ->
+ Fun = fun F(K,{PerfCount,StateCount}) ->
+ %% Need to handle ERTS_MSACC_STATE_COUNTERS
+ {F(K,PerfCount),StateCount};
+ F(_K,PerfCount) ->
+ erlang:convert_time_unit(PerfCount, perf_counter, 1000000)
+ end,
+ UsStats = lists:map(
+ fun(#{ counters := Cnt } = M) ->
+ UsCnt = maps:map(Fun,Cnt),
+ M#{ '$type' => msacc_data, counters := UsCnt }
+ end, erlang:statistics(microstate_accounting)),
+ statssort(UsStats).
+
+-spec stats(Analysis, Stats) -> non_neg_integer() when
+ Analysis :: system_realtime | system_runtime,
+ Stats :: msacc_data();
+ (Analysis, Stats) -> msacc_stats() when
+ Analysis :: realtime | runtime,
+ Stats :: msacc_data();
+ (Analysis, StatsOrData) -> msacc_data() | msacc_stats() when
+ Analysis :: type,
+ StatsOrData :: msacc_data() | msacc_stats().
+stats(system_realtime, Stats) ->
+ lists:foldl(fun(#{ counters := Cnt }, Acc) ->
+ get_total(Cnt, Acc)
+ end, 0, Stats);
+stats(system_runtime, Stats) ->
+ lists:foldl(fun(#{ counters := Cnt }, Acc) ->
+ get_total(maps:remove(sleep, Cnt), Acc)
+ end, 0, Stats);
+stats(realtime, Stats) ->
+ RealTime = stats(system_realtime, Stats),
+ statssort([get_thread_perc(Thread, RealTime) || Thread <- Stats]);
+stats(runtime, Stats) ->
+ RunTime = stats(system_runtime, Stats),
+ statssort([get_thread_perc(T#{ counters := maps:remove(sleep,Cnt)}, RunTime)
+ || T = #{ counters := Cnt } <- Stats]);
+stats(type, Stats) ->
+ statssort(merge_threads(Stats, [])).
+
+print_stats_overview(Stats, _Options) ->
+ RunTime = stats(system_runtime, Stats),
+ RealTime = stats(system_realtime, Stats) div length(Stats),
+ SchedStats = [S || #{ type := scheduler } = S <- Stats],
+ AvgSchedRunTime = stats(system_runtime, SchedStats) div length(SchedStats),
+ NumSize = if
+ RealTime > RunTime -> length(integer_to_list(RealTime));
+ true -> length(integer_to_list(RunTime))
+ end,
+ [io_lib:format("Average thread real-time : ~*B us~n",
+ [NumSize, RealTime]),
+ io_lib:format("Accumulated system run-time : ~*B us~n",
+ [NumSize, RunTime]),
+ io_lib:format("Average scheduler run-time : ~*B us~n",
+ [NumSize, AvgSchedRunTime]),
+ io_lib:format("~n",[])].
+
+print_stats_threads(Stats, Options) ->
+ [io_lib:format("~nStats per thread:~n", []),
+ [print_thread_info(Thread, Options) || Thread <- Stats]].
+
+print_stats_type(Stats, Options) ->
+ [io_lib:format("~nStats per type:~n", []),
+ [print_thread_info(Thread, Options) || Thread <- Stats]].
+
+
+print_stats_header([#{ counters := Cnt }|_], #{ system := PrintSys }) ->
+ [io_lib:format("~14s", ["Thread"]),
+ map(fun(Counter, _) when PrintSys->
+ io_lib:format("~9s ", [atom_to_list(Counter)]);
+ (Counter, _) ->
+ io_lib:format("~9s", [atom_to_list(Counter)])
+ end, Cnt),
+ io_lib:format("~n",[])].
+
+print_thread_info(#{ '$type' := msacc_stats,
+ counters := Cnt } = Thread, #{ system := PrintSys }) ->
+ [case maps:find(id, Thread) of
+ error ->
+ io_lib:format("~14s", [atom_to_list(maps:get(type, Thread))]);
+ {ok, Id} ->
+ io_lib:format("~10s(~2B)", [atom_to_list(maps:get(type,Thread)),Id])
+ end,
+ map(fun(_Key, #{ thread := ThreadPerc, system := SystemPerc }) when PrintSys ->
+ io_lib:format("~6.2f%(~4.1f%)", [ThreadPerc, SystemPerc]);
+ (_Key, #{ thread := ThreadPerc }) ->
+ io_lib:format("~8.2f%", [ThreadPerc])
+ end, Cnt),
+ io_lib:format("~n",[])].
+
+get_total(Cnt, Base) ->
+ maps:fold(fun(_, {Val,_}, Time) ->
+ %% Have to handle ERTS_MSACC_STATE_COUNTERS
+ Time + Val;
+ (_, Val, Time) -> Time + Val
+ end, Base, Cnt).
+
+get_thread_perc(#{ '$type' := msacc_data, counters := Cnt } = Thread,
+ SystemTime) ->
+ ThreadTime = get_total(Cnt, 0),
+ Thread#{ '$type' := msacc_stats,
+ system => percentage(ThreadTime,SystemTime),
+ counters => get_thread_perc(Cnt, ThreadTime, SystemTime)}.
+get_thread_perc(Cnt, ThreadTime, SystemTime) ->
+ maps:map(fun F(Key, {Val, C}) ->
+ M = F(Key, Val),
+ M#{ cnt => C };
+ F(_Key, Val) ->
+ #{ thread => percentage(Val, ThreadTime),
+ system => percentage(Val, SystemTime) }
+ end, Cnt).
+
+%% This code is a little bit messy as it has to be able to deal with
+%% both [msacc_data()] and [msacc_stats()].
+merge_threads([#{ '$type' := msacc_stats,
+ type := Type,
+ counters := Cnt } = M0|R], Acc) ->
+ case keyfind(type, Type, Acc) of
+ false ->
+ merge_threads(R, [maps:remove(id,M0#{ threads => 1 })|Acc]);
+ #{ '$type' := msacc_stats, counters := Cnt0,
+ threads := Threads, system := System } = M ->
+ NewMap = M#{ counters := add_counters(Cnt, Cnt0),
+ system := System + maps:get(system, M0),
+ threads := Threads + 1},
+ NewAcc = keyreplace(type, Type, NewMap, Acc),
+ merge_threads(R, NewAcc)
+ end;
+merge_threads([], [#{ '$type' := msacc_stats,
+ system := System,
+ threads := Threads,
+ counters := Cnt} = M0|R]) ->
+ Counters = maps:map(fun(_,#{ thread := Thr } = Map) ->
+ Map#{ thread := Thr / Threads }
+ end, Cnt),
+ M = maps:remove(threads, M0),
+ [M#{ system := System, counters := Counters} | merge_threads([],R)];
+merge_threads([], []) ->
+ [];
+%% The clauses below deal with msacc_data()
+merge_threads([#{ '$type' := msacc_data,
+ type := Type,
+ counters := Cnt } = M0|R], Acc) ->
+ case keyfind(type, Type, Acc) of
+ false ->
+ merge_threads(R, [maps:remove(id,M0)|Acc]);
+ #{ '$type' := msacc_data, counters := Cnt0 } = M ->
+ NewMap = M#{ counters := add_counters(Cnt, Cnt0) },
+ NewAcc = keyreplace(type, Type, NewMap, Acc),
+ merge_threads(R, NewAcc)
+ end;
+merge_threads([], Acc) ->
+ Acc.
+
+add_counters(M1, M2) ->
+ maps:map(
+ fun(Key, #{ thread := Thr1, system := Sys1, cnt := Cnt1}) ->
+ %% Have to handle ERTS_MSACC_STATE_COUNTERS
+ #{ thread := Thr2, system := Sys2, cnt := Cnt2} = maps:get(Key, M2),
+ #{ thread => Thr1 + Thr2, system => Sys1 + Sys2,
+ cnt => Cnt1 + Cnt2 };
+ (Key, #{ thread := Thr1, system := Sys1}) ->
+ #{ thread := Thr2, system := Sys2} = maps:get(Key, M2),
+ #{ thread => Thr1 + Thr2, system => Sys1 + Sys2};
+ (Key, {V1,C1}) ->
+ %% Have to handle ERTS_MSACC_STATE_COUNTERS
+ {V2,C2} = maps:get(Key, M2),{V1+V2,C1+C2};
+ (Key, V1) -> maps:get(Key, M2) + V1
+ end, M1).
+
+percentage(Divident, Divisor) ->
+ if Divisor == 0 andalso Divident /= 0 ->
+ 100.0;
+ Divisor == 0 ->
+ 0.0;
+ true ->
+ Divident / Divisor * 100
+ end.
+
+keyfind(Key, Value, [H|T]) ->
+ case maps:find(Key, H) of
+ {ok, Value} ->
+ H;
+ _ ->
+ keyfind(Key, Value, T)
+ end;
+keyfind(_, _, []) ->
+ false.
+
+keyreplace(Key, Value, NewMap, [H|T]) ->
+ case maps:find(Key, H) of
+ {ok, Value} ->
+ [NewMap|T];
+ _ ->
+ [H|keyreplace(Key, Value, NewMap, T)]
+ end;
+keyreplace(_, _, _, []) ->
+ [].
+
+statssort(Stats) ->
+ lists:sort(fun(#{ type := Type1, id := Id1},
+ #{ type := Type2, id := Id2}) ->
+ {Type1, Id1} < {Type2, Id2};
+ (#{ type := Type1}, #{ type := Type2}) ->
+ Type1 < Type2
+ end, Stats).
+
+map(Fun,Map) ->
+ [ Fun(K,V) || {K,V} <- maps:to_list(Map) ].