%% Copyright (c) 2011-2012 Basho Technologies, Inc. All Rights Reserved. %% %% This file is provided to you 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. -module(lager_util). -include_lib("kernel/include/file.hrl"). -export([levels/0, level_to_num/1, num_to_level/1, config_to_mask/1, config_to_levels/1, mask_to_levels/1, open_logfile/2, ensure_logfile/4, rotate_logfile/2, format_time/0, format_time/1, localtime_ms/0, localtime_ms/1, maybe_utc/1, parse_rotation_date_spec/1, calculate_next_rotation/1, validate_trace/1, check_traces/4, is_loggable/3, trace_filter/1, trace_filter/2]). -ifdef(TEST). -include_lib("eunit/include/eunit.hrl"). -endif. -include("lager.hrl"). levels() -> [debug, info, notice, warning, error, critical, alert, emergency, none]. level_to_num(debug) -> ?DEBUG; level_to_num(info) -> ?INFO; level_to_num(notice) -> ?NOTICE; level_to_num(warning) -> ?WARNING; level_to_num(error) -> ?ERROR; level_to_num(critical) -> ?CRITICAL; level_to_num(alert) -> ?ALERT; level_to_num(emergency) -> ?EMERGENCY; level_to_num(none) -> ?LOG_NONE. num_to_level(?DEBUG) -> debug; num_to_level(?INFO) -> info; num_to_level(?NOTICE) -> notice; num_to_level(?WARNING) -> warning; num_to_level(?ERROR) -> error; num_to_level(?CRITICAL) -> critical; num_to_level(?ALERT) -> alert; num_to_level(?EMERGENCY) -> emergency; num_to_level(?LOG_NONE) -> none. -spec config_to_mask(atom()|string()) -> {'mask', integer()}. config_to_mask(Conf) -> Levels = config_to_levels(Conf), {mask, lists:foldl(fun(Level, Acc) -> level_to_num(Level) bor Acc end, 0, Levels)}. -spec mask_to_levels(non_neg_integer()) -> [lager:log_level()]. mask_to_levels(Mask) -> mask_to_levels(Mask, levels(), []). mask_to_levels(_Mask, [], Acc) -> lists:reverse(Acc); mask_to_levels(Mask, [Level|Levels], Acc) -> NewAcc = case (level_to_num(Level) band Mask) /= 0 of true -> [Level|Acc]; false -> Acc end, mask_to_levels(Mask, Levels, NewAcc). -spec config_to_levels(atom()|string()) -> [lager:log_level()]. config_to_levels(Conf) when is_atom(Conf) -> config_to_levels(atom_to_list(Conf)); config_to_levels([$! | Rest]) -> levels() -- config_to_levels(Rest); config_to_levels([$=, $< | Rest]) -> [_|Levels] = config_to_levels_int(Rest), lists:filter(fun(E) -> not lists:member(E, Levels) end, levels()); config_to_levels([$<, $= | Rest]) -> [_|Levels] = config_to_levels_int(Rest), lists:filter(fun(E) -> not lists:member(E, Levels) end, levels()); config_to_levels([$>, $= | Rest]) -> config_to_levels_int(Rest); config_to_levels([$=, $> | Rest]) -> config_to_levels_int(Rest); config_to_levels([$= | Rest]) -> [level_to_atom(Rest)]; config_to_levels([$< | Rest]) -> Levels = config_to_levels_int(Rest), lists:filter(fun(E) -> not lists:member(E, Levels) end, levels()); config_to_levels([$> | Rest]) -> [_|Levels] = config_to_levels_int(Rest), lists:filter(fun(E) -> lists:member(E, Levels) end, levels()); config_to_levels(Conf) -> config_to_levels_int(Conf). %% internal function to break the recursion loop config_to_levels_int(Conf) -> Level = level_to_atom(Conf), lists:dropwhile(fun(E) -> E /= Level end, levels()). level_to_atom(String) -> Levels = levels(), try list_to_existing_atom(String) of Atom -> case lists:member(Atom, Levels) of true -> Atom; false -> erlang:error(badarg) end catch _:_ -> erlang:error(badarg) end. open_logfile(Name, Buffer) -> case filelib:ensure_dir(Name) of ok -> Options = [append, raw] ++ case Buffer of {Size, Interval} when is_integer(Interval), Interval >= 0, is_integer(Size), Size >= 0 -> [{delayed_write, Size, Interval}]; _ -> [] end, case file:open(Name, Options) of {ok, FD} -> case file:read_file_info(Name) of {ok, FInfo} -> Inode = FInfo#file_info.inode, {ok, {FD, Inode, FInfo#file_info.size}}; X -> X end; Y -> Y end; Z -> Z end. ensure_logfile(Name, FD, Inode, Buffer) -> case file:read_file_info(Name) of {ok, FInfo} -> Inode2 = FInfo#file_info.inode, case Inode == Inode2 of true -> {ok, {FD, Inode, FInfo#file_info.size}}; false -> %% delayed write can cause file:close not to do a close _ = file:close(FD), _ = file:close(FD), case open_logfile(Name, Buffer) of {ok, {FD2, Inode3, Size}} -> %% inode changed, file was probably moved and %% recreated {ok, {FD2, Inode3, Size}}; Error -> Error end end; _ -> %% delayed write can cause file:close not to do a close _ = file:close(FD), _ = file:close(FD), case open_logfile(Name, Buffer) of {ok, {FD2, Inode3, Size}} -> %% file was removed {ok, {FD2, Inode3, Size}}; Error -> Error end end. %% returns localtime with milliseconds included localtime_ms() -> Now = os:timestamp(), localtime_ms(Now). localtime_ms(Now) -> {_, _, Micro} = Now, {Date, {Hours, Minutes, Seconds}} = calendar:now_to_local_time(Now), {Date, {Hours, Minutes, Seconds, Micro div 1000 rem 1000}}. maybe_utc({Date, {H, M, S, Ms}}) -> case lager_stdlib:maybe_utc({Date, {H, M, S}}) of {utc, {Date1, {H1, M1, S1}}} -> {utc, {Date1, {H1, M1, S1, Ms}}}; {Date1, {H1, M1, S1}} -> {Date1, {H1, M1, S1, Ms}} end. %% renames failing are OK rotate_logfile(File, 0) -> file:delete(File); rotate_logfile(File, 1) -> case file:rename(File, File++".0") of ok -> ok; _ -> rotate_logfile(File, 0) end; rotate_logfile(File, Count) -> _ = file:rename(File ++ "." ++ integer_to_list(Count - 2), File ++ "." ++ integer_to_list(Count - 1)), rotate_logfile(File, Count - 1). format_time() -> format_time(maybe_utc(localtime_ms())). format_time({utc, {{Y, M, D}, {H, Mi, S, Ms}}}) -> {[integer_to_list(Y), $-, i2l(M), $-, i2l(D)], [i2l(H), $:, i2l(Mi), $:, i2l(S), $., i3l(Ms), $ , $U, $T, $C]}; format_time({{Y, M, D}, {H, Mi, S, Ms}}) -> {[integer_to_list(Y), $-, i2l(M), $-, i2l(D)], [i2l(H), $:, i2l(Mi), $:, i2l(S), $., i3l(Ms)]}; format_time({utc, {{Y, M, D}, {H, Mi, S}}}) -> {[integer_to_list(Y), $-, i2l(M), $-, i2l(D)], [i2l(H), $:, i2l(Mi), $:, i2l(S), $ , $U, $T, $C]}; format_time({{Y, M, D}, {H, Mi, S}}) -> {[integer_to_list(Y), $-, i2l(M), $-, i2l(D)], [i2l(H), $:, i2l(Mi), $:, i2l(S)]}. parse_rotation_day_spec([], Res) -> {ok, Res ++ [{hour, 0}]}; parse_rotation_day_spec([$D, D1, D2], Res) -> case list_to_integer([D1, D2]) of X when X >= 0, X =< 23 -> {ok, Res ++ [{hour, X}]}; _ -> {error, invalid_date_spec} end; parse_rotation_day_spec([$D, D], Res) when D >= $0, D =< $9 -> {ok, Res ++ [{hour, D - 48}]}; parse_rotation_day_spec(_, _) -> {error, invalid_date_spec}. parse_rotation_date_spec([$$, $W, W|T]) when W >= $0, W =< $6 -> Week = W - 48, parse_rotation_day_spec(T, [{day, Week}]); parse_rotation_date_spec([$$, $M, L|T]) when L == $L; L == $l -> %% last day in month. parse_rotation_day_spec(T, [{date, last}]); parse_rotation_date_spec([$$, $M, M1, M2|[$D|_]=T]) -> case list_to_integer([M1, M2]) of X when X >= 1, X =< 31 -> parse_rotation_day_spec(T, [{date, X}]); _ -> {error, invalid_date_spec} end; parse_rotation_date_spec([$$, $M, M|[$D|_]=T]) -> parse_rotation_day_spec(T, [{date, M - 48}]); parse_rotation_date_spec([$$, $M, M1, M2]) -> case list_to_integer([M1, M2]) of X when X >= 1, X =< 31 -> {ok, [{date, X}, {hour, 0}]}; _ -> {error, invalid_date_spec} end; parse_rotation_date_spec([$$, $M, M]) -> {ok, [{date, M - 48}, {hour, 0}]}; parse_rotation_date_spec([$$|X]) when X /= [] -> parse_rotation_day_spec(X, []); parse_rotation_date_spec(_) -> {error, invalid_date_spec}. calculate_next_rotation(Spec) -> Now = calendar:local_time(), Later = calculate_next_rotation(Spec, Now), calendar:datetime_to_gregorian_seconds(Later) - calendar:datetime_to_gregorian_seconds(Now). calculate_next_rotation([], Now) -> Now; calculate_next_rotation([{hour, X}|T], {{_, _, _}, {Hour, _, _}} = Now) when Hour < X -> %% rotation is today, sometime NewNow = setelement(2, Now, {X, 0, 0}), calculate_next_rotation(T, NewNow); calculate_next_rotation([{hour, X}|T], {{_, _, _}, _} = Now) -> %% rotation is not today Seconds = calendar:datetime_to_gregorian_seconds(Now) + 86400, DateTime = calendar:gregorian_seconds_to_datetime(Seconds), NewNow = setelement(2, DateTime, {X, 0, 0}), calculate_next_rotation(T, NewNow); calculate_next_rotation([{day, Day}|T], {Date, _Time} = Now) -> DoW = calendar:day_of_the_week(Date), AdjustedDay = case Day of 0 -> 7; X -> X end, case AdjustedDay of DoW -> %% rotation is today OldDate = element(1, Now), case calculate_next_rotation(T, Now) of {OldDate, _} = NewNow -> NewNow; {NewDate, _} -> %% rotation *isn't* today! rerun the calculation NewNow = {NewDate, {0, 0, 0}}, calculate_next_rotation([{day, Day}|T], NewNow) end; Y when Y > DoW -> %% rotation is later this week PlusDays = Y - DoW, Seconds = calendar:datetime_to_gregorian_seconds(Now) + (86400 * PlusDays), {NewDate, _} = calendar:gregorian_seconds_to_datetime(Seconds), NewNow = {NewDate, {0, 0, 0}}, calculate_next_rotation(T, NewNow); Y when Y < DoW -> %% rotation is next week PlusDays = ((7 - DoW) + Y), Seconds = calendar:datetime_to_gregorian_seconds(Now) + (86400 * PlusDays), {NewDate, _} = calendar:gregorian_seconds_to_datetime(Seconds), NewNow = {NewDate, {0, 0, 0}}, calculate_next_rotation(T, NewNow) end; calculate_next_rotation([{date, last}|T], {{Year, Month, Day}, _} = Now) -> Last = calendar:last_day_of_the_month(Year, Month), case Last == Day of true -> %% doing rotation today OldDate = element(1, Now), case calculate_next_rotation(T, Now) of {OldDate, _} = NewNow -> NewNow; {NewDate, _} -> %% rotation *isn't* today! rerun the calculation NewNow = {NewDate, {0, 0, 0}}, calculate_next_rotation([{date, last}|T], NewNow) end; false -> NewNow = setelement(1, Now, {Year, Month, Last}), calculate_next_rotation(T, NewNow) end; calculate_next_rotation([{date, Date}|T], {{_, _, Date}, _} = Now) -> %% rotation is today OldDate = element(1, Now), case calculate_next_rotation(T, Now) of {OldDate, _} = NewNow -> NewNow; {NewDate, _} -> %% rotation *isn't* today! rerun the calculation NewNow = setelement(1, Now, NewDate), calculate_next_rotation([{date, Date}|T], NewNow) end; calculate_next_rotation([{date, Date}|T], {{Year, Month, Day}, _} = Now) -> PlusDays = case Date of X when X < Day -> %% rotation is next month Last = calendar:last_day_of_the_month(Year, Month), (Last - Day); X when X > Day -> %% rotation is later this month X - Day end, Seconds = calendar:datetime_to_gregorian_seconds(Now) + (86400 * PlusDays), NewNow = calendar:gregorian_seconds_to_datetime(Seconds), calculate_next_rotation(T, NewNow). -spec trace_filter(Query :: 'none' | [tuple()]) -> {ok, any()}. trace_filter(Query) -> trace_filter(?DEFAULT_TRACER, Query). %% TODO: Support multiple trace modules %-spec trace_filter(Module :: atom(), Query :: 'none' | [tuple()]) -> {ok, any()}. trace_filter(Module, Query) when Query == none; Query == [] -> {ok, _} = glc:compile(Module, glc:null(false)); trace_filter(Module, Query) when is_list(Query) -> {ok, _} = glc:compile(Module, glc_lib:reduce(trace_any(Query))). validate_trace({Filter, Level, {Destination, ID}}) when is_tuple(Filter); is_list(Filter), is_atom(Level), is_atom(Destination) -> case validate_trace({Filter, Level, Destination}) of {ok, {F, L, D}} -> {ok, {F, L, {D, ID}}}; Error -> Error end; validate_trace({Filter, Level, Destination}) when is_tuple(Filter); is_list(Filter), is_atom(Level), is_atom(Destination) -> ValidFilter = validate_trace_filter(Filter), try config_to_mask(Level) of _ when not ValidFilter -> {error, invalid_trace}; L when is_list(Filter) -> {ok, {trace_all(Filter), L, Destination}}; L -> {ok, {Filter, L, Destination}} catch _:_ -> {error, invalid_level} end; validate_trace(_) -> {error, invalid_trace}. validate_trace_filter(Filter) when is_tuple(Filter), is_atom(element(1, Filter)) =:= false -> false; validate_trace_filter(Filter) -> case lists:all(fun({Key, '*'}) when is_atom(Key) -> true; ({Key, '!'}) when is_atom(Key) -> true; ({Key, _Value}) when is_atom(Key) -> true; ({Key, '=', _Value}) when is_atom(Key) -> true; ({Key, '<', _Value}) when is_atom(Key) -> true; ({Key, '>', _Value}) when is_atom(Key) -> true; (_) -> false end, Filter) of true -> true; _ -> false end. trace_all(Query) -> glc:all(trace_acc(Query)). trace_any(Query) -> glc:any(Query). trace_acc(Query) -> trace_acc(Query, []). trace_acc([], Acc) -> lists:reverse(Acc); trace_acc([{Key, '*'}|T], Acc) -> trace_acc(T, [glc:wc(Key)|Acc]); trace_acc([{Key, '!'}|T], Acc) -> trace_acc(T, [glc:nf(Key)|Acc]); trace_acc([{Key, Val}|T], Acc) -> trace_acc(T, [glc:eq(Key, Val)|Acc]); trace_acc([{Key, '=', Val}|T], Acc) -> trace_acc(T, [glc:eq(Key, Val)|Acc]); trace_acc([{Key, '>', Val}|T], Acc) -> trace_acc(T, [glc:gt(Key, Val)|Acc]); trace_acc([{Key, '<', Val}|T], Acc) -> trace_acc(T, [glc:lt(Key, Val)|Acc]). check_traces(_, _, [], Acc) -> lists:flatten(Acc); check_traces(Attrs, Level, [{_, {mask, FilterLevel}, _}|Flows], Acc) when (Level band FilterLevel) == 0 -> check_traces(Attrs, Level, Flows, Acc); check_traces(Attrs, Level, [{Filter, _, _}|Flows], Acc) when length(Attrs) < length(Filter) -> check_traces(Attrs, Level, Flows, Acc); check_traces(Attrs, Level, [Flow|Flows], Acc) -> check_traces(Attrs, Level, Flows, [check_trace(Attrs, Flow)|Acc]). check_trace(Attrs, {Filter, _Level, Dest}) when is_list(Filter) -> check_trace(Attrs, {trace_all(Filter), _Level, Dest}); check_trace(Attrs, {Filter, _Level, Dest}) when is_tuple(Filter) -> Made = gre:make(Attrs, [list]), glc:handle(?DEFAULT_TRACER, Made), Match = glc_lib:matches(Filter, Made), case Match of true -> Dest; false -> [] end. -spec is_loggable(lager_msg:lager_msg(), non_neg_integer()|{'mask', non_neg_integer()}, term()) -> boolean(). is_loggable(Msg, {mask, Mask}, MyName) -> %% using syslog style comparison flags %S = lager_msg:severity_as_int(Msg), %?debugFmt("comparing masks ~.2B and ~.2B -> ~p~n", [S, Mask, S band Mask]), (lager_msg:severity_as_int(Msg) band Mask) /= 0 orelse lists:member(MyName, lager_msg:destinations(Msg)); is_loggable(Msg ,SeverityThreshold,MyName) -> lager_msg:severity_as_int(Msg) =< SeverityThreshold orelse lists:member(MyName, lager_msg:destinations(Msg)). i2l(I) when I < 10 -> [$0, $0+I]; i2l(I) -> integer_to_list(I). i3l(I) when I < 100 -> [$0 | i2l(I)]; i3l(I) -> integer_to_list(I). -ifdef(TEST). parse_test() -> ?assertEqual({ok, [{hour, 0}]}, parse_rotation_date_spec("$D0")), ?assertEqual({ok, [{hour, 23}]}, parse_rotation_date_spec("$D23")), ?assertEqual({ok, [{day, 0}, {hour, 23}]}, parse_rotation_date_spec("$W0D23")), ?assertEqual({ok, [{day, 5}, {hour, 16}]}, parse_rotation_date_spec("$W5D16")), ?assertEqual({ok, [{date, 1}, {hour, 0}]}, parse_rotation_date_spec("$M1D0")), ?assertEqual({ok, [{date, 5}, {hour, 6}]}, parse_rotation_date_spec("$M5D6")), ?assertEqual({ok, [{date, 5}, {hour, 0}]}, parse_rotation_date_spec("$M5")), ?assertEqual({ok, [{date, 31}, {hour, 0}]}, parse_rotation_date_spec("$M31")), ?assertEqual({ok, [{date, 31}, {hour, 1}]}, parse_rotation_date_spec("$M31D1")), ?assertEqual({ok, [{date, last}, {hour, 0}]}, parse_rotation_date_spec("$ML")), ?assertEqual({ok, [{date, last}, {hour, 0}]}, parse_rotation_date_spec("$Ml")), ?assertEqual({ok, [{day, 5}, {hour, 0}]}, parse_rotation_date_spec("$W5")), ok. parse_fail_test() -> ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$D")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$D24")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$W7")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$W7D1")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$M32")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$M32D1")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$D15M5")), ?assertEqual({error, invalid_date_spec}, parse_rotation_date_spec("$M5W5")), ok. rotation_calculation_test() -> ?assertMatch({{2000, 1, 2}, {0, 0, 0}}, calculate_next_rotation([{hour, 0}], {{2000, 1, 1}, {12, 34, 43}})), ?assertMatch({{2000, 1, 1}, {16, 0, 0}}, calculate_next_rotation([{hour, 16}], {{2000, 1, 1}, {12, 34, 43}})), ?assertMatch({{2000, 1, 2}, {12, 0, 0}}, calculate_next_rotation([{hour, 12}], {{2000, 1, 1}, {12, 34, 43}})), ?assertMatch({{2000, 2, 1}, {12, 0, 0}}, calculate_next_rotation([{date, 1}, {hour, 12}], {{2000, 1, 1}, {12, 34, 43}})), ?assertMatch({{2000, 2, 1}, {12, 0, 0}}, calculate_next_rotation([{date, 1}, {hour, 12}], {{2000, 1, 15}, {12, 34, 43}})), ?assertMatch({{2000, 2, 1}, {12, 0, 0}}, calculate_next_rotation([{date, 1}, {hour, 12}], {{2000, 1, 2}, {12, 34, 43}})), ?assertMatch({{2000, 2, 1}, {12, 0, 0}}, calculate_next_rotation([{date, 1}, {hour, 12}], {{2000, 1, 31}, {12, 34, 43}})), ?assertMatch({{2000, 1, 1}, {16, 0, 0}}, calculate_next_rotation([{date, 1}, {hour, 16}], {{2000, 1, 1}, {12, 34, 43}})), ?assertMatch({{2000, 1, 15}, {16, 0, 0}}, calculate_next_rotation([{date, 15}, {hour, 16}], {{2000, 1, 1}, {12, 34, 43}})), ?assertMatch({{2000, 1, 31}, {16, 0, 0}}, calculate_next_rotation([{date, last}, {hour, 16}], {{2000, 1, 1}, {12, 34, 43}})), ?assertMatch({{2000, 1, 31}, {16, 0, 0}}, calculate_next_rotation([{date, last}, {hour, 16}], {{2000, 1, 31}, {12, 34, 43}})), ?assertMatch({{2000, 2, 29}, {16, 0, 0}}, calculate_next_rotation([{date, last}, {hour, 16}], {{2000, 1, 31}, {17, 34, 43}})), ?assertMatch({{2001, 2, 28}, {16, 0, 0}}, calculate_next_rotation([{date, last}, {hour, 16}], {{2001, 1, 31}, {17, 34, 43}})), ?assertMatch({{2000, 1, 1}, {16, 0, 0}}, calculate_next_rotation([{day, 6}, {hour, 16}], {{2000, 1, 1}, {12, 34, 43}})), ?assertMatch({{2000, 1, 8}, {16, 0, 0}}, calculate_next_rotation([{day, 6}, {hour, 16}], {{2000, 1, 1}, {17, 34, 43}})), ?assertMatch({{2000, 1, 7}, {16, 0, 0}}, calculate_next_rotation([{day, 5}, {hour, 16}], {{2000, 1, 1}, {17, 34, 43}})), ?assertMatch({{2000, 1, 3}, {16, 0, 0}}, calculate_next_rotation([{day, 1}, {hour, 16}], {{2000, 1, 1}, {17, 34, 43}})), ?assertMatch({{2000, 1, 2}, {16, 0, 0}}, calculate_next_rotation([{day, 0}, {hour, 16}], {{2000, 1, 1}, {17, 34, 43}})), ?assertMatch({{2000, 1, 9}, {16, 0, 0}}, calculate_next_rotation([{day, 0}, {hour, 16}], {{2000, 1, 2}, {17, 34, 43}})), ?assertMatch({{2000, 2, 3}, {16, 0, 0}}, calculate_next_rotation([{day, 4}, {hour, 16}], {{2000, 1, 29}, {17, 34, 43}})), ?assertMatch({{2000, 1, 7}, {16, 0, 0}}, calculate_next_rotation([{day, 5}, {hour, 16}], {{2000, 1, 3}, {17, 34, 43}})), ?assertMatch({{2000, 1, 3}, {16, 0, 0}}, calculate_next_rotation([{day, 1}, {hour, 16}], {{1999, 12, 28}, {17, 34, 43}})), ok. rotate_file_test() -> file:delete("rotation.log"), [file:delete(["rotation.log.", integer_to_list(N)]) || N <- lists:seq(0, 9)], [begin file:write_file("rotation.log", integer_to_list(N)), Count = case N > 10 of true -> 10; _ -> N end, [begin FileName = ["rotation.log.", integer_to_list(M)], ?assert(filelib:is_regular(FileName)), %% check the expected value is in the file Number = list_to_binary(integer_to_list(N - M - 1)), ?assertEqual({ok, Number}, file:read_file(FileName)) end || M <- lists:seq(0, Count-1)], rotate_logfile("rotation.log", 10) end || N <- lists:seq(0, 20)]. rotate_file_fail_test() -> %% make sure the directory exists ?assertEqual(ok, filelib:ensure_dir("rotation/rotation.log")), %% fix the permissions on it os:cmd("chown -R u+rwx rotation"), %% delete any old files [ok = file:delete(F) || F <- filelib:wildcard("rotation/*")], %% write a file file:write_file("rotation/rotation.log", "hello"), %% hose up the permissions os:cmd("chown u-w rotation"), ?assertMatch({error, _}, rotate_logfile("rotation.log", 10)), ?assert(filelib:is_regular("rotation/rotation.log")), os:cmd("chown u+w rotation"), ?assertMatch(ok, rotate_logfile("rotation/rotation.log", 10)), ?assert(filelib:is_regular("rotation/rotation.log.0")), ?assertEqual(false, filelib:is_regular("rotation/rotation.log")), ok. check_trace_test() -> lager:start(), trace_filter(none), %% match by module ?assertEqual([foo], check_traces([{module, ?MODULE}], ?EMERGENCY, [ {[{module, ?MODULE}], config_to_mask(emergency), foo}, {[{module, test}], config_to_mask(emergency), bar}], [])), %% match by module, but other unsatisfyable attribute ?assertEqual([], check_traces([{module, ?MODULE}], ?EMERGENCY, [ {[{module, ?MODULE}, {foo, bar}], config_to_mask(emergency), foo}, {[{module, test}], config_to_mask(emergency), bar}], [])), %% match by wildcard module ?assertEqual([bar], check_traces([{module, ?MODULE}], ?EMERGENCY, [ {[{module, ?MODULE}, {foo, bar}], config_to_mask(emergency), foo}, {[{module, '*'}], config_to_mask(emergency), bar}], [])), %% wildcard module, one trace with unsatisfyable attribute ?assertEqual([bar], check_traces([{module, ?MODULE}], ?EMERGENCY, [ {[{module, '*'}, {foo, bar}], config_to_mask(emergency), foo}, {[{module, '*'}], config_to_mask(emergency), bar}], [])), %% wildcard but not present custom trace attribute ?assertEqual([bar], check_traces([{module, ?MODULE}], ?EMERGENCY, [ {[{module, '*'}, {foo, '*'}], config_to_mask(emergency), foo}, {[{module, '*'}], config_to_mask(emergency), bar}], [])), %% wildcarding a custom attribute works when it is present ?assertEqual([bar, foo], check_traces([{module, ?MODULE}, {foo, bar}], ?EMERGENCY, [ {[{module, '*'}, {foo, '*'}], config_to_mask(emergency), foo}, {[{module, '*'}], config_to_mask(emergency), bar}], [])), %% denied by level ?assertEqual([], check_traces([{module, ?MODULE}, {foo, bar}], ?INFO, [ {[{module, '*'}, {foo, '*'}], config_to_mask(emergency), foo}, {[{module, '*'}], config_to_mask(emergency), bar}], [])), %% allowed by level ?assertEqual([foo], check_traces([{module, ?MODULE}, {foo, bar}], ?INFO, [ {[{module, '*'}, {foo, '*'}], config_to_mask(debug), foo}, {[{module, '*'}], config_to_mask(emergency), bar}], [])), ?assertEqual([anythingbutnotice, infoandbelow, infoonly], check_traces([{module, ?MODULE}], ?INFO, [ {[{module, '*'}], config_to_mask('=debug'), debugonly}, {[{module, '*'}], config_to_mask('=info'), infoonly}, {[{module, '*'}], config_to_mask('<=info'), infoandbelow}, {[{module, '*'}], config_to_mask('!=info'), anythingbutinfo}, {[{module, '*'}], config_to_mask('!=notice'), anythingbutnotice} ], [])), application:stop(lager), application:stop(goldrush), ok. is_loggable_test_() -> [ {"Loggable by severity only", ?_assert(is_loggable(lager_msg:new("", alert, [], []),2,me))}, {"Not loggable by severity only", ?_assertNot(is_loggable(lager_msg:new("", critical, [], []),1,me))}, {"Loggable by severity with destination", ?_assert(is_loggable(lager_msg:new("", alert, [], [you]),2,me))}, {"Not loggable by severity with destination", ?_assertNot(is_loggable(lager_msg:new("", critical, [], [you]),1,me))}, {"Loggable by destination overriding severity", ?_assert(is_loggable(lager_msg:new("", critical, [], [me]),1,me))} ]. format_time_test_() -> [ ?_assertEqual("2012-10-04 11:16:23.002", begin {D, T} = format_time({{2012,10,04},{11,16,23,2}}), lists:flatten([D,$ ,T]) end), ?_assertEqual("2012-10-04 11:16:23.999", begin {D, T} = format_time({{2012,10,04},{11,16,23,999}}), lists:flatten([D,$ ,T]) end), ?_assertEqual("2012-10-04 11:16:23", begin {D, T} = format_time({{2012,10,04},{11,16,23}}), lists:flatten([D,$ ,T]) end), ?_assertEqual("2012-10-04 00:16:23.092 UTC", begin {D, T} = format_time({utc, {{2012,10,04},{0,16,23,92}}}), lists:flatten([D,$ ,T]) end), ?_assertEqual("2012-10-04 11:16:23 UTC", begin {D, T} = format_time({utc, {{2012,10,04},{11,16,23}}}), lists:flatten([D,$ ,T]) end) ]. config_to_levels_test() -> ?assertEqual([none], config_to_levels('none')), ?assertEqual({mask, 0}, config_to_mask('none')), ?assertEqual([debug], config_to_levels('=debug')), ?assertEqual([debug], config_to_levels('debug')), ?assertEqual(levels() -- [debug], config_to_levels('>=info')), ?assertEqual(levels() -- [debug], config_to_levels('=>info')), ?assertEqual([debug, info, notice], config_to_levels('<=notice')), ?assertEqual([debug, info, notice], config_to_levels('=info')), ?assertError(badarg, config_to_levels('=<=info')), ?assertError(badarg, config_to_levels('<==>=<=>info')), %% double negatives DO work, however ?assertEqual([debug], config_to_levels('!!=debug')), ?assertEqual(levels() -- [debug], config_to_levels('!!!=debug')), ok. config_to_mask_test() -> ?assertEqual({mask, 0}, config_to_mask('none')), ?assertEqual({mask, ?DEBUG bor ?INFO bor ?NOTICE bor ?WARNING bor ?ERROR bor ?CRITICAL bor ?ALERT bor ?EMERGENCY}, config_to_mask('debug')), ?assertEqual({mask, ?WARNING bor ?ERROR bor ?CRITICAL bor ?ALERT bor ?EMERGENCY}, config_to_mask('warning')), ?assertEqual({mask, ?DEBUG bor ?NOTICE bor ?WARNING bor ?ERROR bor ?CRITICAL bor ?ALERT bor ?EMERGENCY}, config_to_mask('!=info')), ok. mask_to_levels_test() -> ?assertEqual([], mask_to_levels(0)), ?assertEqual([debug], mask_to_levels(2#10000000)), ?assertEqual([debug, info], mask_to_levels(2#11000000)), ?assertEqual([debug, info, emergency], mask_to_levels(2#11000001)), ?assertEqual([debug, notice, error], mask_to_levels(?DEBUG bor ?NOTICE bor ?ERROR)), ok. -endif.