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|
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2017-2018. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(logger_std_h).
-behaviour(gen_server).
-include("logger.hrl").
-include("logger_internal.hrl").
-include("logger_h_common.hrl").
-include_lib("kernel/include/file.hrl").
%% API
-export([start_link/3, info/1, filesync/1, reset/1]).
%% gen_server and proc_lib callbacks
-export([init/1, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3]).
%% logger callbacks
-export([log/2, adding_handler/1, removing_handler/1, changing_config/2]).
%% handler internal
-export([log_handler_info/4]).
%%%===================================================================
%%% API
%%%===================================================================
%%%-----------------------------------------------------------------
%%% Start a standard handler process and link to caller.
%%% This function is called by the kernel supervisor when this
%%% handler process gets added
-spec start_link(Name, Config, HandlerState) -> {ok,Pid} | {error,Reason} when
Name :: atom(),
Config :: logger:handler_config(),
HandlerState :: map(),
Pid :: pid(),
Reason :: term().
start_link(Name, Config, HandlerState) ->
proc_lib:start_link(?MODULE,init,[[Name,Config,HandlerState]]).
%%%-----------------------------------------------------------------
%%%
-spec filesync(Name) -> ok | {error,Reason} when
Name :: atom(),
Reason :: handler_busy | {badarg,term()}.
filesync(Name) when is_atom(Name) ->
try
gen_server:call(?name_to_reg_name(?MODULE,Name),
filesync, ?DEFAULT_CALL_TIMEOUT)
catch
_:{timeout,_} -> {error,handler_busy}
end;
filesync(Name) ->
{error,{badarg,{filesync,[Name]}}}.
%%%-----------------------------------------------------------------
%%%
-spec info(Name) -> Info | {error,Reason} when
Name :: atom(),
Info :: term(),
Reason :: handler_busy | {badarg,term()}.
info(Name) when is_atom(Name) ->
try
gen_server:call(?name_to_reg_name(?MODULE,Name),
info, ?DEFAULT_CALL_TIMEOUT)
catch
_:{timeout,_} -> {error,handler_busy}
end;
info(Name) ->
{error,{badarg,{info,[Name]}}}.
%%%-----------------------------------------------------------------
%%%
-spec reset(Name) -> ok | {error,Reason} when
Name :: atom(),
Reason :: handler_busy | {badarg,term()}.
reset(Name) when is_atom(Name) ->
try
gen_server:call(?name_to_reg_name(?MODULE,Name),
reset, ?DEFAULT_CALL_TIMEOUT)
catch
_:{timeout,_} -> {error,handler_busy}
end;
reset(Name) ->
{error,{badarg,{reset,[Name]}}}.
%%%===================================================================
%%% logger callbacks
%%%===================================================================
%%%-----------------------------------------------------------------
%%% Handler being added
adding_handler(#{id:=Name}=Config) ->
case check_config(adding, Config) of
{ok, Config1} ->
%% create initial handler state by merging defaults with config
HConfig = maps:get(config, Config1, #{}),
HState = maps:merge(get_init_state(), HConfig),
case logger_h_common:overload_levels_ok(HState) of
true ->
start(Name, Config1, HState);
false ->
#{sync_mode_qlen := SMQL,
drop_mode_qlen := DMQL,
flush_qlen := FQL} = HState,
{error,{invalid_levels,{SMQL,DMQL,FQL}}}
end;
Error ->
Error
end.
%%%-----------------------------------------------------------------
%%% Updating handler config
changing_config(OldConfig=#{id:=Name, config:=OldHConfig},
NewConfig=#{id:=Name}) ->
#{type:=Type, handler_pid:=HPid, mode_tab:=ModeTab} = OldHConfig,
NewHConfig = maps:get(config, NewConfig, #{}),
case maps:get(type, NewHConfig, Type) of
Type ->
NewHConfig1 = NewHConfig#{type=>Type,
handler_pid=>HPid,
mode_tab=>ModeTab},
changing_config1(HPid, OldConfig,
NewConfig#{config=>NewHConfig1});
_ ->
{error,{illegal_config_change,OldConfig,NewConfig}}
end;
changing_config(OldConfig, NewConfig) ->
{error,{illegal_config_change,OldConfig,NewConfig}}.
changing_config1(HPid, OldConfig, NewConfig) ->
case check_config(changing, NewConfig) of
Result = {ok,NewConfig1} ->
try gen_server:call(HPid, {change_config,OldConfig,NewConfig1},
?DEFAULT_CALL_TIMEOUT) of
ok -> Result;
HError -> HError
catch
_:{timeout,_} -> {error,handler_busy}
end;
Error ->
Error
end.
check_config(adding, Config) ->
%% Merge in defaults on handler level
HConfig0 = maps:get(config, Config, #{}),
HConfig = maps:merge(#{type => standard_io},
HConfig0),
case check_h_config(maps:to_list(HConfig)) of
ok ->
{ok,Config#{config=>HConfig}};
Error ->
Error
end;
check_config(changing, Config) ->
HConfig = maps:get(config, Config, #{}),
case check_h_config(maps:to_list(HConfig)) of
ok -> {ok,Config};
Error -> Error
end.
check_h_config([{type,Type} | Config]) when Type == standard_io;
Type == standard_error ->
check_h_config(Config);
check_h_config([{type,{file,File}} | Config]) when is_list(File) ->
check_h_config(Config);
check_h_config([{type,{file,File,Modes}} | Config]) when is_list(File),
is_list(Modes) ->
check_h_config(Config);
check_h_config([Other | Config]) ->
case logger_h_common:check_common_config(Other) of
valid ->
check_h_config(Config);
invalid ->
{error,{invalid_config,?MODULE,Other}}
end;
check_h_config([]) ->
ok.
%%%-----------------------------------------------------------------
%%% Handler being removed
removing_handler(#{id:=Name}) ->
stop(Name).
%%%-----------------------------------------------------------------
%%% Log a string or report
-spec log(LogEvent, Config) -> ok when
LogEvent :: logger:log_event(),
Config :: logger:handler_config().
log(LogEvent, Config = #{id := Name,
config := #{handler_pid := HPid,
mode_tab := ModeTab}}) ->
%% if the handler has crashed, we must drop this event
%% and hope the handler restarts so we can try again
true = is_process_alive(HPid),
Bin = logger_h_common:log_to_binary(LogEvent, Config),
logger_h_common:call_cast_or_drop(Name, HPid, ModeTab, Bin).
%%%===================================================================
%%% gen_server callbacks
%%%===================================================================
init([Name, Config = #{config := HConfig},
State0 = #{type := Type, file_ctrl_sync_int := FileCtrlSyncInt}]) ->
RegName = ?name_to_reg_name(?MODULE,Name),
register(RegName, self()),
process_flag(trap_exit, true),
process_flag(message_queue_data, off_heap),
?init_test_hooks(),
?start_observation(Name),
case do_init(Name, Type) of
{ok,InitState} ->
try ets:new(Name, [public]) of
ModeTab ->
?set_mode(ModeTab, async),
State = maps:merge(State0, InitState),
T0 = ?timestamp(),
State1 =
?merge_with_stats(State#{
mode_tab => ModeTab,
mode => async,
file_ctrl_sync => FileCtrlSyncInt,
last_qlen => 0,
last_log_ts => T0,
last_op => sync,
burst_win_ts => T0,
burst_msg_count => 0}),
Config1 =
Config#{config => HConfig#{handler_pid => self(),
mode_tab => ModeTab}},
proc_lib:init_ack({ok,self(),Config1}),
gen_server:cast(self(), repeated_filesync),
gen_server:enter_loop(?MODULE, [], State1)
catch
_:Error ->
unregister(RegName),
logger_h_common:error_notify({init_handler,Name,Error}),
proc_lib:init_ack(Error)
end;
Error ->
unregister(RegName),
logger_h_common:error_notify({init_handler,Name,Error}),
proc_lib:init_ack(Error)
end.
do_init(Name, Type) ->
case open_log_file(Name, Type) of
{ok,FileCtrlPid} ->
case logger_h_common:unset_restart_flag(Name, ?MODULE) of
true ->
%% inform about restart
gen_server:cast(self(), {log_handler_info,
"Handler ~p restarted",
[Name]});
false ->
%% initial start
ok
end,
{ok,#{id=>Name,type=>Type,file_ctrl_pid=>FileCtrlPid}};
Error ->
Error
end.
%% This is the synchronous log event.
handle_call({log, Bin}, _From, State) ->
{Result,State1} = do_log(Bin, call, State),
%% Result == ok | dropped
{reply,Result, State1};
handle_call(filesync, _From, State = #{type := Type,
file_ctrl_pid := FileCtrlPid}) ->
if is_atom(Type) ->
{reply, ok, State};
true ->
{reply, file_ctrl_filesync_sync(FileCtrlPid), State#{last_op=>sync}}
end;
handle_call({change_config,_OldConfig,NewConfig}, _From,
State = #{filesync_repeat_interval := FSyncInt0}) ->
HConfig = maps:get(config, NewConfig, #{}),
State1 = maps:merge(State, HConfig),
case logger_h_common:overload_levels_ok(State1) of
true ->
_ =
case maps:get(filesync_repeat_interval, HConfig, undefined) of
undefined ->
ok;
no_repeat ->
_ = logger_h_common:cancel_timer(maps:get(rep_sync_tref,
State,
undefined));
FSyncInt0 ->
ok;
_FSyncInt1 ->
_ = logger_h_common:cancel_timer(maps:get(rep_sync_tref,
State,
undefined)),
gen_server:cast(self(), repeated_filesync)
end,
{reply, ok, State1};
false ->
#{sync_mode_qlen := SMQL,
drop_mode_qlen := DMQL,
flush_qlen := FQL} = State1,
{reply, {error,{invalid_levels,{SMQL,DMQL,FQL}}}, State}
end;
handle_call(info, _From, State) ->
{reply, State, State};
handle_call(reset, _From, State) ->
State1 = ?merge_with_stats(State),
{reply, ok, State1#{last_qlen => 0,
last_log_ts => ?timestamp()}};
handle_call(stop, _From, State) ->
{stop, {shutdown,stopped}, ok, State}.
%% This is the asynchronous log event.
handle_cast({log, Bin}, State) ->
{_,State1} = do_log(Bin, cast, State),
{noreply, State1};
handle_cast({log_handler_info, Format, Args}, State = #{id:=Name}) ->
log_handler_info(Name, Format, Args, State),
{noreply, State};
%% If FILESYNC_REPEAT_INTERVAL is set to a millisec value, this
%% clause gets called repeatedly by the handler. In order to
%% guarantee that a filesync *always* happens after the last log
%% event, the repeat operation must be active!
handle_cast(repeated_filesync,
State = #{type := Type,
file_ctrl_pid := FileCtrlPid,
filesync_repeat_interval := FSyncInt,
last_op := LastOp}) ->
State1 =
if not is_atom(Type), is_integer(FSyncInt) ->
%% only do filesync if something has been
%% written since last time we checked
if LastOp == sync ->
ok;
true ->
file_ctrl_filesync_async(FileCtrlPid)
end,
{ok,TRef} =
timer:apply_after(FSyncInt, gen_server,cast,
[self(),repeated_filesync]),
State#{rep_sync_tref => TRef, last_op => sync};
true ->
State
end,
{noreply,State1}.
handle_info({'EXIT',Pid,Why}, State = #{id := Name, type := FileInfo}) ->
case maps:get(file_ctrl_pid, State, undefined) of
Pid ->
%% file error, terminate handler
logger_h_common:handler_exit(Name,
{error,{write_failed,FileInfo,Why}});
_Other ->
%% ignore EXIT
ok
end,
{noreply, State};
handle_info(_Info, State) ->
{noreply, State}.
terminate(Reason, State = #{id:=Name, file_ctrl_pid:=FWPid,
type:=_FileInfo}) ->
_ = logger_h_common:cancel_timer(maps:get(rep_sync_tref, State,
undefined)),
case is_process_alive(FWPid) of
true ->
unlink(FWPid),
_ = file_ctrl_stop(FWPid),
MRef = erlang:monitor(process, FWPid),
receive
{'DOWN',MRef,_,_,_} ->
ok
after
?DEFAULT_CALL_TIMEOUT ->
exit(FWPid, kill)
end;
false ->
ok
end,
ok = logger_h_common:stop_or_restart(Name, Reason, State),
unregister(?name_to_reg_name(?MODULE, Name)),
ok.
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%%===================================================================
%%% Internal functions
%%%===================================================================
%%%-----------------------------------------------------------------
%%%
get_init_state() ->
#{sync_mode_qlen => ?SYNC_MODE_QLEN,
drop_mode_qlen => ?DROP_MODE_QLEN,
flush_qlen => ?FLUSH_QLEN,
burst_limit_enable => ?BURST_LIMIT_ENABLE,
burst_limit_max_count => ?BURST_LIMIT_MAX_COUNT,
burst_limit_window_time => ?BURST_LIMIT_WINDOW_TIME,
overload_kill_enable => ?OVERLOAD_KILL_ENABLE,
overload_kill_qlen => ?OVERLOAD_KILL_QLEN,
overload_kill_mem_size => ?OVERLOAD_KILL_MEM_SIZE,
overload_kill_restart_after => ?OVERLOAD_KILL_RESTART_AFTER,
file_ctrl_sync_int => ?CONTROLLER_SYNC_INTERVAL,
filesync_ok_qlen => ?FILESYNC_OK_QLEN,
filesync_repeat_interval => ?FILESYNC_REPEAT_INTERVAL}.
%%%-----------------------------------------------------------------
%%% Add a standard handler to the logger.
%%% This starts a dedicated handler process which should always
%%% exist if the handler is registered with logger (and should not
%%% exist if the handler is not registered).
%%%
%%% Handler specific config should be provided with a sub map associated
%%% with a key named 'config', e.g:
%%%
%%% Config = #{config => #{sync_mode_qlen => 50}
%%%
%%% The standard handler process is linked to logger_sup, which is
%%% part of the kernel application's supervision tree.
start(Name, Config, HandlerState) ->
LoggerStdH =
#{id => Name,
start => {?MODULE, start_link, [Name,Config,HandlerState]},
restart => temporary,
shutdown => 2000,
type => worker,
modules => [?MODULE]},
case supervisor:start_child(logger_sup, LoggerStdH) of
{ok,Pid,Config1} ->
ok = logger_handler_watcher:register_handler(Name,Pid),
{ok,Config1};
Error ->
Error
end.
%%%-----------------------------------------------------------------
%%% Stop and remove the handler.
stop(Name) ->
case whereis(?name_to_reg_name(?MODULE,Name)) of
undefined ->
ok;
Pid ->
%% We don't want to do supervisor:terminate_child here
%% since we need to distinguish this explicit stop from a
%% system termination in order to avoid circular attempts
%% at removing the handler (implying deadlocks and
%% timeouts).
%% And we don't need to do supervisor:delete_child, since
%% the restart type is temporary, which means that the
%% child specification is automatically removed from the
%% supervisor when the process dies.
_ = gen_server:call(Pid, stop),
ok
end.
%%%-----------------------------------------------------------------
%%% Logging and overload control.
-define(update_file_ctrl_sync(C, Interval),
if C == 0 -> Interval;
true -> C-1 end).
%% check for overload between every event (and set Mode to async,
%% sync or drop accordingly), but never flush the whole mailbox
%% before LogWindowSize events have been handled
do_log(Bin, CallOrCast, State = #{id:=Name, mode:=Mode0}) ->
T1 = ?timestamp(),
%% check if the handler is getting overloaded, or if it's
%% recovering from overload (the check must be done for each
%% event to react quickly to large bursts of events and
%% to ensure that the handler can never end up in drop mode
%% with an empty mailbox, which would stop operation)
{Mode1,QLen,Mem,State1} = logger_h_common:check_load(State),
if (Mode1 == drop) andalso (Mode0 =/= drop) ->
log_handler_info(Name, "Handler ~p switched to drop mode",
[Name], State);
(Mode0 == drop) andalso ((Mode1 == async) orelse (Mode1 == sync)) ->
log_handler_info(Name, "Handler ~p switched to ~w mode",
[Name,Mode1], State);
true ->
ok
end,
%% kill the handler if it can't keep up with the load
logger_h_common:kill_if_choked(Name, QLen, Mem, ?MODULE, State),
if Mode1 == flush ->
flush(Name, QLen, T1, State1);
true ->
write(Name, Mode1, T1, Bin, CallOrCast, State1)
end.
%% this clause is called by do_log/3 after an overload check
%% has been performed, where QLen > FlushQLen
flush(Name, _QLen0, T1, State=#{last_log_ts := _T0, mode_tab := ModeTab}) ->
%% flush messages in the mailbox (a limited number in
%% order to not cause long delays)
NewFlushed = logger_h_common:flush_log_events(?FLUSH_MAX_N),
%% write info in log about flushed messages
log_handler_info(Name, "Handler ~p flushed ~w log events",
[Name,NewFlushed], State),
%% because of the receive loop when flushing messages, the
%% handler will be scheduled out often and the mailbox could
%% grow very large, so we'd better check the queue again here
{_,_QLen1} = process_info(self(), message_queue_len),
?observe(Name,{max_qlen,_QLen1}),
%% Add 1 for the current log event
?observe(Name,{flushed,NewFlushed+1}),
State1 = ?update_max_time(?diff_time(T1,_T0),State),
{dropped,?update_other(flushed,FLUSHED,NewFlushed,
State1#{mode => ?set_mode(ModeTab,async),
last_qlen => 0,
last_log_ts => T1})}.
%% this clause is called to write to file
write(_Name, Mode, T1, Bin, _CallOrCast,
State = #{mode_tab := ModeTab,
file_ctrl_pid := FileCtrlPid,
file_ctrl_sync := FileCtrlSync,
last_qlen := LastQLen,
last_log_ts := T0,
file_ctrl_sync_int := FileCtrlSyncInt}) ->
%% check if we need to limit the number of writes
%% during a burst of log events
{DoWrite,BurstWinT,BurstMsgCount} = logger_h_common:limit_burst(State),
%% only send a synhrounous event to the file controller process
%% every FileCtrlSyncInt time, to give the handler time between
%% file writes so it can keep up with incoming messages
{Result,LastQLen1} =
if DoWrite, FileCtrlSync == 0 ->
?observe(_Name,{_CallOrCast,1}),
file_write_sync(FileCtrlPid, Bin, false),
{ok,element(2, process_info(self(), message_queue_len))};
DoWrite ->
?observe(_Name,{_CallOrCast,1}),
file_write_async(FileCtrlPid, Bin),
{ok,LastQLen};
not DoWrite ->
?observe(_Name,{flushed,1}),
{dropped,LastQLen}
end,
%% Check if the time since the previous log event is long enough -
%% and the queue length small enough - to assume the mailbox has
%% been emptied, and if so, do filesync operation and reset mode to
%% async. Note that this is the best we can do to detect an idle
%% handler without setting a timer after each log call/cast. If the
%% time between two consecutive log events is fast and no new
%% event comes in after the last one, idle state won't be detected!
Time = ?diff_time(T1,T0),
{Mode1,BurstMsgCount1} =
if (LastQLen1 < ?FILESYNC_OK_QLEN) andalso
(Time > ?IDLE_DETECT_TIME_USEC) ->
%% do filesync if necessary
case maps:get(type, State) of
Std when is_atom(Std) ->
ok;
_File ->
file_ctrl_filesync_async(FileCtrlPid)
end,
{?change_mode(ModeTab, Mode, async),0};
true ->
{Mode,BurstMsgCount}
end,
State1 =
?update_calls_or_casts(_CallOrCast,1,State),
State2 =
?update_max_time(Time,
State1#{mode => Mode1,
last_qlen := LastQLen1,
last_log_ts => T1,
last_op => write,
burst_win_ts => BurstWinT,
burst_msg_count => BurstMsgCount1,
file_ctrl_sync =>
?update_file_ctrl_sync(FileCtrlSync,
FileCtrlSyncInt)}),
{Result,State2}.
open_log_file(HandlerName, FileInfo) ->
case file_ctrl_start(HandlerName, FileInfo) of
OK = {ok,_FileCtrlPid} -> OK;
Error -> Error
end.
do_open_log_file({file,File}) ->
do_open_log_file({file,File,[raw,append,delayed_write]});
do_open_log_file({file,File,[]}) ->
do_open_log_file({file,File,[raw,append,delayed_write]});
do_open_log_file({file,File,Modes}) ->
try
case filelib:ensure_dir(File) of
ok ->
file:open(File, Modes);
Error ->
Error
end
catch
_:Reason -> {error,Reason}
end.
close_log_file(Std) when Std == standard_io; Std == standard_error ->
ok;
close_log_file(Fd) ->
_ = file:datasync(Fd),
_ = file:close(Fd).
log_handler_info(Name, Format, Args, #{file_ctrl_pid := FileCtrlPid}) ->
Config =
case logger:get_handler_config(Name) of
{ok,Conf} -> Conf;
_ -> #{formatter=>{?DEFAULT_FORMATTER,?DEFAULT_FORMAT_CONFIG}}
end,
Meta = #{time=>erlang:system_time(microsecond)},
Bin = logger_h_common:log_to_binary(#{level => notice,
msg => {Format,Args},
meta => Meta}, Config),
_ = file_write_async(FileCtrlPid, Bin),
ok.
%%%-----------------------------------------------------------------
%%% File control process
file_ctrl_start(HandlerName, FileInfo) ->
Starter = self(),
FileCtrlPid =
spawn_link(fun() ->
file_ctrl_init(HandlerName, FileInfo, Starter)
end),
receive
{FileCtrlPid,ok} ->
{ok,FileCtrlPid};
{FileCtrlPid,Error} ->
Error
after
?DEFAULT_CALL_TIMEOUT ->
{error,file_ctrl_process_not_started}
end.
file_ctrl_stop(Pid) ->
Pid ! stop.
file_write_async(Pid, Bin) ->
Pid ! {log,Bin},
ok.
file_write_sync(Pid, Bin, FileSync) ->
case file_ctrl_call(Pid, {log,self(),Bin,FileSync}) of
{error,Reason} ->
{error,{write_failed,Bin,Reason}};
Result ->
Result
end.
file_ctrl_filesync_async(Pid) ->
Pid ! filesync,
ok.
file_ctrl_filesync_sync(Pid) ->
file_ctrl_call(Pid, {filesync,self()}).
file_ctrl_call(Pid, Msg) ->
MRef = monitor(process, Pid),
Pid ! {Msg,MRef},
receive
{MRef,Result} ->
demonitor(MRef, [flush]),
Result;
{'DOWN',MRef,_Type,_Object,Reason} ->
{error,Reason}
after
?DEFAULT_CALL_TIMEOUT ->
{error,{no_response,Pid}}
end.
file_ctrl_init(HandlerName, FileInfo, Starter) when is_tuple(FileInfo) ->
process_flag(message_queue_data, off_heap),
FileName = element(2, FileInfo),
case do_open_log_file(FileInfo) of
{ok,Fd} ->
Starter ! {self(),ok},
file_ctrl_loop(Fd, file, FileName, false, ok, ok, HandlerName);
{error,Reason} ->
Starter ! {self(),{error,{open_failed,FileName,Reason}}}
end;
file_ctrl_init(HandlerName, StdDev, Starter) ->
Starter ! {self(),ok},
file_ctrl_loop(StdDev, standard_io, StdDev, false, ok, ok, HandlerName).
file_ctrl_loop(Fd, Type, DevName, Synced,
PrevWriteResult, PrevSyncResult, HandlerName) ->
receive
%% asynchronous event
{log,Bin} ->
Result = if Type == file ->
write_to_dev(Fd, Bin, DevName,
PrevWriteResult, HandlerName);
true ->
io:put_chars(Fd, Bin)
end,
file_ctrl_loop(Fd, Type, DevName, false,
Result, PrevSyncResult, HandlerName);
%% synchronous event
{{log,From,Bin,FileSync},MRef} ->
if Type == file ->
%% check that file hasn't been deleted
CheckFile =
fun() -> {ok,_} = file:read_file_info(DevName) end,
spawn_link(CheckFile),
WResult = write_to_dev(Fd, Bin, DevName,
PrevWriteResult, HandlerName),
{Synced1,SResult} =
if not FileSync ->
{false,PrevSyncResult};
true ->
case sync_dev(Fd, DevName,
PrevSyncResult, HandlerName) of
ok -> {true,ok};
Error -> {false,Error}
end
end,
From ! {MRef,ok},
file_ctrl_loop(Fd, Type, DevName, Synced1,
WResult, SResult, HandlerName);
true ->
_ = io:put_chars(Fd, Bin),
From ! {MRef,ok},
file_ctrl_loop(Fd, Type, DevName, false,
ok, PrevSyncResult, HandlerName)
end;
filesync when not Synced ->
Result = sync_dev(Fd, DevName, PrevSyncResult, HandlerName),
file_ctrl_loop(Fd, Type, DevName, true,
PrevWriteResult, Result, HandlerName);
filesync ->
file_ctrl_loop(Fd, Type, DevName, true,
PrevWriteResult, PrevSyncResult, HandlerName);
{{filesync,From},MRef} ->
Result = if not Synced ->
sync_dev(Fd, DevName, PrevSyncResult, HandlerName);
true ->
ok
end,
From ! {MRef,ok},
file_ctrl_loop(Fd, Type, DevName, true,
PrevWriteResult, Result, HandlerName);
stop ->
_ = close_log_file(Fd),
stopped
end.
write_to_dev(Fd, Bin, FileName, PrevWriteResult, HandlerName) ->
case ?file_write(Fd, Bin) of
ok ->
ok;
PrevWriteResult ->
%% don't report same error twice
PrevWriteResult;
Error ->
logger_h_common:error_notify({HandlerName,write,FileName,Error}),
Error
end.
sync_dev(Fd, DevName, PrevSyncResult, HandlerName) ->
case ?file_datasync(Fd) of
ok ->
ok;
PrevSyncResult ->
%% don't report same error twice
PrevSyncResult;
Error ->
logger_h_common:error_notify({HandlerName,filesync,DevName,Error}),
Error
end.
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