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<?xml version="1.0" encoding="utf-8" ?>
<!DOCTYPE chapter SYSTEM "chapter.dtd">
<chapter>
<header>
<copyright>
<year>2017</year>
<holder>Ericsson AB. All Rights Reserved.</holder>
</copyright>
<legalnotice>
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.
</legalnotice>
<title>Logging</title>
<prepared></prepared>
<docno></docno>
<date></date>
<rev></rev>
<file>logger_chapter.xml</file>
</header>
<p>Erlang/OTP 21.0 provides a new standard API for logging
through <c>Logger</c>, which is part of the Kernel
application. Logger consists of the API for issuing log events,
and a customizable backend where log handlers, filters and
formatters can be plugged in.</p>
<p>By default, the Kernel application installs one log handler at
system start. This handler is named <c>default</c>. It receives
and processes standard log events produced by the Erlang runtime
system, standard behaviours and different Erlang/OTP
applications. The log events are by default written to the
terminal.</p>
<p>You can also configure the system so that the default handler
prints log events to a single file, or to a set of wrap logs
via <seealso marker="disk_log"><c>disk_log</c></seealso>.</p>
<p>By confiugration, you can aslo modify or disable the default
handler, replace it by a custom handler, and install additional
handlers.</p>
<section>
<title>Overview</title>
<p>A <em>log event</em> consists of a <em>log level</em>, the
<em>message</em> to be logged, and <em>metadata</em>.</p>
<p>The Logger backend forwards log events from the API, first
through a set of <em>global filters</em>, then through a set
of <em>handler filters</em> for each log handler.</p>
<p>Each filter set consists of a <em>log level check</em>,
followed by zero or more <em>filter functions</em>.</p>
<p>The following figure show a conseptual overview of Logger. The
figure shows two log handlers, but any number of handlers can be
installed.</p>
<image file="logger_arch.png">
<icaption>Conceptual Overview</icaption>
</image>
<p>Log levels are expressed as atoms. Internally in Logger, the
atoms are mapped to integer values, and a log event passes the
log level check if the integer value of its log level is less
than or equal to the currently configured log level. That is,
the check pases if the event is equally or more severe than the
configured level. See section <seealso marker="#log_level">Log
Level</seealso> for a listing and description of all log
levels.</p>
<p>The global log level can be overridden by a log level
configured per module. This is to, for instance, allow more
verbose logging from a specific part of the system.</p>
<p>Filter functions can be used for more sophisticated filtering
than the log level check provides. A filter function can stop or
pass a log event, based on any of the event's contents. It can
also modify all parts of the log event. See see
section <seealso marker="#filters">Filters</seealso> for more
details.</p>
<p>If a log event passes through all global filters and all
handler filters for a specific handler, Logger forwards the event
to the handler callback. The handler formats and prints the
event to its destination. See
section <seealso marker="#handlers">Handlers</seealso> for
more details.</p>
<p>Everything up to and including the call to the handler
callbacks is executed on the client process, that is, the
process where the log event was issued. It is up to the handler
implementation if other processes are involved or not.</p>
<p>The handlers are called in sequence, and the order is not
defined.</p>
</section>
<section>
<title>Logger API</title>
<p>The API for logging consists of a set
of <seealso marker="logger#macros">macros</seealso>, and a set
of functions on the form <c>logger:Level/1,2,3</c>, which are
all shortcuts
for <seealso marker="logger#log-2">
<c>logger:log(Level,Arg1[,Arg2[,Arg3]])</c></seealso>.</p>
<p>The difference between using the macros and the exported
functions is that macros add location (originator) information
to the metadata, and performs lazy evaluation by wrapping the
logger call in a case statement, so it is only evaluated if the
log level of the event passes the global log level check.</p>
<section>
<marker id="log_level"/>
<title>Log Level</title>
<p>The log level indicates the severity of a event. In
accordance with the Syslog protocol, RFC-5424, eight log
levels can be specified. The following table lists all
possible log levels by name (atom), integer value, and
description:</p>
<table align="left">
<row>
<cell><strong>Level</strong></cell>
<cell align="center"><strong>Integer</strong></cell>
<cell><strong>Description</strong></cell>
</row>
<row>
<cell>emergency</cell>
<cell align="center">0</cell>
<cell>system is unusable</cell>
</row>
<row>
<cell>alert</cell>
<cell align="center">1</cell>
<cell>action must be taken immediately</cell>
</row>
<row>
<cell>critical</cell>
<cell align="center">2</cell>
<cell>critical contidions</cell>
</row>
<row>
<cell>error</cell>
<cell align="center">3</cell>
<cell>error conditions</cell>
</row>
<row>
<cell>warning</cell>
<cell align="center">4</cell>
<cell>warning conditions</cell>
</row>
<row>
<cell>notice</cell>
<cell align="center">5</cell>
<cell>normal but significant conditions</cell>
</row>
<row>
<cell>info</cell>
<cell align="center">6</cell>
<cell>informational messages</cell>
</row>
<row>
<cell>debug</cell>
<cell align="center">7</cell>
<cell>debug-level messages</cell>
</row>
<tcaption>Log Levels</tcaption>
</table>
<p>Notice that the integer value is only used internally in
Logger. In the API, you must always use the atom. To compare
the severity of two log levels,
use <seealso marker="logger#compare_levels-2">
<c>logger:compare_levels/2</c></seealso>.</p>
</section>
<section>
<marker id="log_message"/>
<title>Log Message</title>
<p>The log message contains the information to be logged. The
message can consist of a format string and arguments (given as
two separate parameters in the Logger API), a string or a
report. The latter, which is either a map or a key-value list,
can be accompanied by a report callback specified in the log
event's <seealso marker="#metadata">metadata</seealso>. The
report callback is a convenience function that
the <seealso marker="#formatters">formatter</seealso> can use
to convert the report to a format string and arguments. The
formatter can also use its own conversion function, if no
callback is provided, or if a customized formatting is
desired.</p>
<p>Example, format string and arguments:</p>
<code>logger:error("The file does not exist: ~ts",[Filename])</code>
<p>Example, string:</p>
<code>logger:notice("Something strange happened!")</code>
<p>Example, report, and metadata with report callback:</p>
<code>
logger:debug(#{got => connection_request, id => Id, state => State},
#{report_cb => fun(R) -> {"~p",[R]} end})</code>
<p>The log message can also be provided through a fun for lazy
evaluation. The fun is only evaluated if the global log level
check passes, and is therefore recommended if it is expensive
to generate the message. The lazy fun must return a string, a
report, or a tuple with format string and arguments.</p>
</section>
<section>
<title>Metadata</title>
<p>Metadata contains additional data associated with a log
message. Logger inserts some metadata fields by default, and
the client can add custom metadata in two different ways:</p>
<taglist>
<tag>Set process metadata</tag>
<item>
<p>Process metadata is set and updated
with <seealso marker="logger#set_process_metadata-1">
<c>logger:set_process_metadata/1</c></seealso>
and <seealso marker="logger#update_process_metadata-1">
<c>logger:update_process metadata/1</c></seealso>,
respectively. This metadata applies to the process on
which these calls are made, and Logger adds the metadata
to all log events issued on that process.</p>
</item>
<tag>Add metadata to a specifc log event</tag>
<item>
<p>Metadata associated with one specifc log event is given
as the last parameter to the log macro or Logger API
function when the event is issued. For example:</p>
<code>?LOG_ERROR("Connection closed",#{context => server})</code>
</item>
</taglist>
<p>See the description of
the <seealso marker="logger#type-metadata">
<c>logger:metadata()</c></seealso> type for information
about which default keys Logger inserts, and how the different
metadata maps are merged.</p>
</section>
</section>
<section>
<marker id="filter"/>
<title>Filters</title>
<p>Filters can be global, or attached to a specific
handler. Logger calls the global filters first, and if they all
pass, it calls the handler filters for each handler. Logger
calls the handler callback only if all filters attached to the
handler in question also pass.</p>
<p>A filter is defined as:</p>
<pre>{FilterFun, Extra}</pre>
<p>where <c>FilterFun</c> is a function of arity 2,
and <c>Extra</c> is any term. When applying the filter, Logger
calls the function with the log event as the first argument,
and the value of <c>Extra</c> as the second
argument. See <seealso marker="logger#type-filter">
<c>logger:filter()</c></seealso> for type definitions.</p>
<p>The filter function can return <c>stop</c>, <c>ignore</c> or
the (possibly modified) log event.</p>
<p>If <c>stop</c> is returned, the log event is immediately
discarded. If the filter is global, no handler filters or
callbacks are called. If it is a handler filter, the
corresponding handler callback is not called, but the log event
is forwarded to filters attached to the next handler, if
any.</p>
<p>If the log event is returned, the next filter function is
called with the returned value as the first argument. That is,
if a filter function modifies the log event, the next filter
function receives the modified event. The value returned from
the last filter function is the value that the handler callback
receives.</p>
<p>If the filter function returns <c>ignore</c>, it means that it
did not recognize the log event, and thus leaves to other
filters to decide the event's destiny.</p>
<p>The configuration
option <seealso marker="#filter_default"><c>filter_default</c></seealso>
specifies the behaviour if all filter functions
return <c>ignore</c>, or if no filters
exist. <c>filter_default</c> is by default set to <c>log</c>,
meaning that if all existing filters ignore a log event, Logger
forwards the event to the handler
callback. If <c>filter_default</c> is set to <c>stop</c>, Logger
discards such events.</p>
<p>Global filters are added
with <seealso marker="logger#add_logger_filter-2">
<c>logger:add_logger_filter/2</c></seealso>
and removed
with <seealso marker="logger#remove_logger_filter-1">
<c>logger:remove_logger_filter/1</c></seealso>. They can also
be added at system start via the Kernel configuration
parameter <seealso marker="#logger"><c>logger</c></seealso>.</p>
<p>Handler filters are added
with <seealso marker="logger#add_handler_filter-3">
<c>logger:add_handler_filter/3</c></seealso>
and removed
with <seealso marker="logger#remove_handler_filter-2">
<c>logger:remove_handler_filter/2</c></seealso>. They can also
be specified directly in the configuration when adding a handler
with <seealso marker="logger#add_handler/3">
<c>logger:add_handler/3</c></seealso>
or via the Kernel configuration
parameter <seealso marker="#logger"><c>logger</c></seealso>.</p>
<p>To see which filters are currently installed in the system,
use <seealso marker="logger#i-0"><c>logger:i/0</c></seealso>,
or <seealso marker="logger#get_logger_config-0">
<c>logger:get_logger_config/0</c></seealso>
and <seealso marker="logger#get_handler_config-1">
<c>logger:get_handler_config/1</c></seealso>. Filters are
listed in the order they are applied, that is, the first
filter in the list is applied first, and so on.</p>
<p>For convenience, the following built-in filters exist:</p>
<taglist>
<tag><seealso marker="logger_filters#domain-2">
<c>logger_filters:domain/2</c></seealso></tag>
<item>
<p>Provides a way of filtering log events based on a
<c>domain</c> field in <c>Metadata</c>.</p>
</item>
<tag><seealso marker="logger_filters#level-2">
<c>logger_filters:level/2</c></seealso></tag>
<item>
<p>Provides a way of filtering log events based on the log
level.</p>
</item>
<tag><seealso marker="logger_filters#progress-2">
<c>logger_filters:progress/2</c></seealso></tag>
<item>
<p>Stops or allows progress reports from <c>supervisor</c>
and <c>application_controller</c>.</p>
</item>
<tag><seealso marker="logger_filters#remote_gl-2">
<c>logger_filters:remote_gl/2</c></seealso></tag>
<item>
<p>Stops or allows log events originating from a process
that has its group leader on a remote node.</p>
</item>
</taglist>
</section>
<section>
<marker id="handlers"/>
<title>Handlers</title>
<p>A handler is defined as a module exporting at least the
following function:</p>
<pre><seealso marker="logger#HModule:log-2">log(LogEvent, Config) -> void()</seealso></pre>
<p>This function is called when a log event has passed through all
global filters, and all handler filters attached to the handler
in question. The function call is executed on the client
process, and it is up to the handler implementation if other
processes are involved or not.</p>
<p>Logger allows adding multiple instances of a handler
callback. That is, if a callback module implementation allows
it, you can add multiple handler instances using the same
callback module. The different instances are identified by
unique handler identities.</p>
<p>In addition to the mandatory callback function <c>log/2</c>, a
handler module can export the optional callback
functions <c>adding_handler/1</c>, <c>changing_config/2</c>
and <c>removing_handler/1</c>. See
section <seealso marker="logger#handler_callback_functions">Handler
Callback Functions</seealso> in the logger(3) manual for more
information about these function.</p>
<p>The following built-in handlers exist:</p>
<taglist>
<tag><c>logger_std_h</c></tag>
<item>
<p>This is the default handler used by OTP. Multiple instances
can be started, and each instance will write log events to a
given destination, terminal or file.</p>
</item>
<tag><c>logger_disk_log_h</c></tag>
<item>
<p>This handler behaves much like <c>logger_std_h</c>, except it uses
<seealso marker="disk_log"><c>disk_log</c></seealso> as its
destination.</p>
</item>
<tag><marker id="ErrorLoggerManager"/><c>error_logger</c></tag>
<item>
<p>This handler is provided for backwards compatibility
only. It is not started by default, but will be
automatically started the first time an <c>error_logger</c>
event handler is added
with <seealso marker="error_logger#add_report_handler-1">
<c>error_logger:add_report_handler/1,2</c></seealso>.</p>
<p>The old <c>error_logger</c> event handlers in STDLIB and
SASL still exist, but they are not added by Erlang/OTP 21.0
or later.</p>
</item>
</taglist>
</section>
<section>
<marker id="formatters"/>
<title>Formatters</title>
<p>A formatter can be used by the handler implementation to do the
final formatting of a log event, before printing to the
handler's destination. The handler callback receives the
formatter information as part of the handler configuration,
which is passed as the second argument
to <seealso marker="logger#HModule:log-2">
<c>HModule:log/2</c></seealso>.</p>
<p>The formatter information consits of a formatter
module, <c>FModule</c> and its
configuration, <c>FConfig</c>. <c>FModule</c> must export the
following function, which can be called by the handler:</p>
<pre><seealso marker="logger#FModule:format-2">format(LogEvent,FConfig)
-> FormattedLogEntry</seealso></pre>
<p>The formatter information for a handler is set as a part of its
configuration when the handler is added. It can also be changed
during runtime
with <seealso marker="logger#set_handler_config-3">
<c>logger:set_handler_config(HandlerId,formatter,{FModule,FConfig})</c>
</seealso>, which overwrites the current formatter information,
or with <seealso marker="logger#update_formatter_config-2">
<c>logger:update_formatter_config/2,3</c></seealso>, which
only modifies the formatter configuration.</p>
<p>If the formatter module exports the optional callback
function <seealso marker="logger#FModule:check_config-1">
<c>check_config(FConfig)</c></seealso>, Logger calls this
function when the formatter information is set or modified, to
verify the validity of the formatter configuration.</p>
<p>If no formatter information is specified for a handler, Logger
uses <seealso marker="logger_formatter">
<c>logger_formatter(3)</c></seealso> as default.</p>
</section>
<section>
<title>Configuration</title>
<p>Logger can be configured either when the system starts through
<seealso marker="config">configuration parameters</seealso>,
or at run-time by using the <seealso marker="logger">logger(3)</seealso>
API. The recommended approach is to do the initial configuration in
the <c>sys.config</c> file and then use the API when some configuration
has to be changed at runtime, such as the log level.</p>
<section>
<title>Kernel Configuration Parameters</title>
<p>Logger is best configured by using the configuration parameters
of Kernel. There are four possible configuration parameters:
<seealso marker="#logger"><c>logger</c></seealso>,
<seealso marker="kernel_app#logger_level"><c>logger_level</c></seealso>,
<seealso marker="kernel_app#logger_sasl_compatible"><c>logger_sasl_compatible</c></seealso> and
<seealso marker="kernel_app#logger_progress_reports"><c>logger_progress_reports</c></seealso>.
<c>logger_level</c>, <c>logger_sasl_compatible</c> and <c>logger_progress_reports</c> are described in the
<seealso marker="kernel_app#configuration">Kernel Configuration</seealso>,
while <c>logger</c> is described below.</p>
<marker id="logger"/>
<p><em>logger</em></p>
<p>The application configuration parameter <c>logger</c> is used to configure
three different Logger aspects; handlers, logger filters and module levels.
The configuration is a list containing tagged tuples that look like this:</p>
<taglist>
<tag><c>DisableHandler = {handler,default,undefined}</c></tag>
<item>
<p>Disable the default handler. This allows another application
to add its own default handler. See <seealso marker="logger#add_handlers/1">
<c>logger:add_handlers/1</c></seealso> for more details.</p>
<p>Only one entry of this option is allowed.</p></item>
<tag><c>AddHandler = {handler,HandlerId,Module,HandlerConfig}</c></tag>
<item>
<p>Add a handler as if <seealso marker="logger:add_handler/3">
<c>logger:add_handler(HandlerId,Module,HandlerConfig)</c></seealso> is
called.</p>
<p>It is allowed to have multiple entries of this option.</p></item>
<tag><c>Filters = {filters, default, [Filter]}</c><br/>
<c>FilterDefault = log | stop</c><br/>
<c>Filter = {FilterId, {FilterFun, FilterConfig}}</c></tag>
<item>
<p>Add the specified <seealso marker="logger#add_logger_filter/2">
logger filters</seealso>.</p>
<p>Only one entry of this option is allowed.</p></item>
<tag><c>ModuleLevel = {module_level, Level, [Module]}</c></tag>
<item>
<p>This option configures <seealso marker="logger#set_module_level/2">
module log level</seealso>.</p>
<p>It is allowed to have multiple entries of this option.</p></item>
</taglist>
<p>Examples:</p>
<list>
<item>
<p>Output logs into the file "logs/erlang.log"</p>
<code>
[{kernel,
[{logger,
[{handler, default, logger_std_h,
#{ logger_std_h => #{ type => {file,"log/erlang.log"}}}}]}]}].
</code>
</item>
<item>
<p>Output logs in single line format</p>
<code>
[{kernel,
[{logger,
[{handler, default, logger_std_h,
#{ formatter => { logger_formatter,#{ single_line => true}}}}]}]}].
</code>
</item>
<item>
<p>Add the pid to each log event</p>
<code>
[{kernel,
[{logger,
[{handler, default, logger_std_h,
#{ formatter => { logger_formatter,
#{ template => [time," ",pid," ",msg,"\n"]}}
}}]}]}].
</code>
</item>
<item>
<p>Use a different file for debug logging</p>
<code>
[{kernel,
[{logger,
[{handler, default, logger_std_h,
#{ level => error,
logger_std_h => #{ type => {file, "log/erlang.log"}}}},
{handler, info, logger_std_h,
#{ level => debug,
logger_std_h => #{ type => {file, "log/debug.log"}}}}
]}]}].
</code>
</item>
</list>
</section>
<section>
<title>Global Logger Configuration</title>
<taglist>
<tag><c>level = </c><seealso marker="logger#type-level">
<c>logger:level()</c></seealso></tag>
<item>
<p>Specifies the global log level to log.</p>
<p>See section <seealso marker="#log_level">Log
Level</seealso> for a listing and description of
possible log levels.</p>
<p>The initial value of this option is set by the Kernel
configuration
parameter <seealso marker="kernel_app#logger_level">
<c>logger_level</c></seealso>. It can be changed during
runtime
with <seealso marker="logger#set_logger_config-2">
<c>logger:set_logger_config(level,NewLevel)</c></seealso>.</p>
</item>
<tag><c>filters = [{</c><seealso marker="logger#type-filter_id">
<c>logger:filter_id()</c></seealso><c>,</c>
<seealso marker="logger#type-filter">
<c>logger:filter()</c></seealso><c>}]</c></tag>
<item>
<p>Global filters are added and removed with
<seealso marker="logger#add_logger_filter-2">
<c>logger:add_logger_filter/2</c></seealso> and
<seealso marker="logger#remove_logger_filter-1">
<c>logger:remove_logger_filter/1</c></seealso>,
respectively.</p>
<p>See section <seealso marker="#filters">Filters</seealso>
for more information.</p>
<p>Default is <c>[]</c>, that is, no filters exist.</p>
</item>
<tag><marker id="filter_default"/><c>filter_default = log | stop</c></tag>
<item>
<p>Specifies what to do with an event if all filters
return <c>ignore</c>, or if no filters exist.</p>
<p>See section <seealso marker="#filters">Filters</seealso>
for more information about how this option is used.</p>
<p>Default is <c>log</c>.</p>
</item>
</taglist>
</section>
<section>
<marker id="handler_configuration"/>
<title>Handler Configuration</title>
<taglist>
<tag><c>level = </c><seealso marker="logger#type-level">
<c>logger:level()</c></seealso></tag>
<item>
<p>Specifies the log level which the handler logs.</p>
<p>See section <seealso marker="#log_level">Log
Level</seealso> for a listing and description of
possible log levels.</p>
<p>The log level can be specified when adding the handler,
or changed during runtime with, for
instance, <seealso marker="logger#set_handler_config/3">
<c>logger:set_handler_config/3</c></seealso>.</p>
<p>Default is <c>info</c>.</p>
</item>
<tag><c>filters = [{</c><seealso marker="logger#type-filter_id">
<c>logger:filter_id()</c></seealso><c>,</c>
<seealso marker="logger#type-filter">
<c>logger:filter()</c></seealso><c>}]</c></tag>
<item>
<p>Handler filters can be specified when adding the handler,
or added or removed during runtime with
<seealso marker="logger#add_handler_filter-3">
<c>logger:add_handler_filter/3</c></seealso> and
<seealso marker="logger#remove_handler_filter-2">
<c>logger:remove_handler_filter/2</c></seealso>,
respectively.</p>
<p>See <seealso marker="#filters">Filters</seealso> for more
information.</p>
<p>Default is <c>[]</c>, that is, no filters exist.</p>
</item>
<tag><marker id="filter_default"/><c>filter_default = log | stop</c></tag>
<item>
<p>Specifies what to do with an event if all filters
return <c>ignore</c>, or if no filters exist.</p>
<p>See section <seealso marker="#filters">Filters</seealso>
for more information about how this option is used.</p>
<p>Default is <c>log</c>.</p>
</item>
<tag><c>formatter = {module(),</c><seealso marker="logger#type-formatter_config">
<c>logger:formatter_config()</c></seealso><c>}</c></tag>
<item>
<p>The formatter which the handler can use for converting
the log event term to a printable string.</p>
<p>See <seealso marker="#formatters">Formatters</seealso> for more
information.</p>
<p>Default
is <c>{logger_formatter,DefaultFormatterConfig}</c>, see
the <seealso marker="logger_formatter">
<c>logger_formatter(3)</c></seealso>
manual for information about this formatter and its
default configuration.</p>
</item>
<tag><c>HandlerConfig, atom() = term()</c></tag>
<item>
<p>Any keys not listed above are considered to be handler
specific configuration. The configuration of the Kernel
handlers can be found in
the <seealso marker="logger_std_h"><c>logger_std_h(3)</c></seealso>
and
<seealso marker="logger_disk_log_h"><c>logger_disk_log_h(3)</c>
</seealso> manual pages.</p>
</item>
</taglist>
<p>Notice that <c>level</c> and <c>filters</c> are obeyed by
Logger itself before forwarding the log events to each
handler, while <c>formatter</c> and all handle specific
options are left to the handler implementation.</p>
<p>All Logger's built-in handlers will call the given formatter
before printing.</p>
</section>
</section>
<section>
<marker id="compatibility"/>
<title>Backwards Compatibility with error_logger</title>
<p>Logger provides backwards compatibility with
<c>error_logger</c> in the following ways:</p>
<taglist>
<tag>API for Logging</tag>
<item>
<p>The <c>error_logger</c> API still exists, but should only
be used by legacy code. It will be removed in a later
release.</p>
<p>Calls
to <seealso marker="error_logger#error_report-1">
<c>error_logger:error_report/1,2</c></seealso>,
<seealso marker="error_logger#error_msg-1">
<c>error_logger:error_msg/1,2</c></seealso>, and
corresponding functions for warning and info messages, are
all forwarded to Logger as calls
to <seealso marker="logger#log-3">
<c>logger:log(Level,Report,Metadata)</c></seealso>.</p>
<p><c>Level = error | warning | info</c> and is taken
from the function name. <c>Report</c> contains the actual
log message, and <c>Metadata</c> contains additional
information which can be used for creating backwards
compatible events for legacy <c>error_logger</c> event
handlers, see
section <seealso marker="#legacy_event_handlers">Legacy
Event Handlers</seealso>.</p>
</item>
<tag>Output Format</tag>
<item>
<p>To get log events on the same format as produced
by <c>error_logger_tty_h</c> and <c>error_logger_file_h</c>,
use the default formatter, <c>logger_formatter</c>, with
configuration parameter <c>legacy_header => true</c>. This is
also the default.</p>
</item>
<tag>Default Format of Log Events from OTP</tag>
<item>
<p>By default, all log events originating from within OTP,
except the former so called "SASL reports", look the same as
before.</p>
</item>
<tag><marker id="sasl_reports"/>SASL Reports</tag>
<item>
<p>By SASL reports we mean supervisor reports, crash reports
and progress reports.</p>
<p>In earlier releases, these reports were only logged when
the SASL application was running, and they were printed
trough specific event handlers
named <c>sasl_report_tty_h</c>
and <c>sasl_report_file_h</c>.</p>
<p>The destination of these log events were configured by
<seealso marker="sasl:sasl_app#deprecated_error_logger_config">SASL
configuration parameters</seealso>.</p>
<p>Due to the specific event handlers, the output format
slightly differed from other log events.</p>
<p>As of Erlang/OTP 21.0, the concept of SASL reports is
removed, meaning that the default behaviour is as
follows:</p>
<list>
<item>Supervisor reports, crash reports, and progress reports
are no longer connected to the SASL application.</item>
<item>Supervisor reports and crash reports are logged by
default.</item>
<item>Progress reports are not logged by default, but can be
enabled with the Kernel configuration
parameter <seealso marker="kernel_app#logger_progress_reports">
<c>logger_progress_reports</c></seealso>.</item>
<item>The output format is the same for all log
events.</item>
</list>
<p>If the old behaviour is preferred, the Kernel configuation
parameter <seealso marker="kernel_app:logger_sasl_compatible">
<c>logger_sasl_compatible</c></seealso> can be set
to <c>true</c>. The
<seealso marker="sasl:sasl_app#deprecated_error_logger_config">SASL
configuration parameters</seealso> can then be used as
before, and the SASL reports will only be printed if the
SASL application is running, through a second log handler
named <c>sasl</c>.</p>
<p>All SASL reports have a metadata
field <c>domain => [beam,erlang,otp,sasl]</c>, which can be
used, for example, by filters to stop or allow the
log events.</p>
<p>See the <seealso marker="sasl:error_logging">SASL User's
Guide</seealso> for more information about the old SASL
error logging functionality.</p>
</item>
<tag><marker id="legacy_event_handlers"/>Legacy Event Handlers</tag>
<item>
<p>To use event handlers written for <c>error_logger</c>, just
add your event handler with</p>
<code>
error_logger:add_report_handler/1,2.
</code>
<p>This will automatically start the <c>error_logger</c>
event manager, and add <c>error_logger</c> as a
handler to <c>logger</c>, with configuration</p>
<code>
#{level => info,
filter_default => log,
filters => []}.
</code>
<p>Notice that this handler will ignore events that do not
originate from the <c>error_logger</c> API, or from within
OTP. This means that if your code uses the Logger API for
logging, then your log events will be discarded by this
handler.</p>
<p>Also notice that <c>error_logger</c> is not overload
protected.</p>
</item>
</taglist>
</section>
<section>
<title>Error Handling</title>
<p>Log data is expected to be either a format string and
arguments, a string
(<seealso marker="stdlib:unicode#type-chardata">
<c>unicode:chardata()</c></seealso>), or a report (map or
key-value list) which can be converted to a format string and
arguments by the handler. If a report is given, a default report
callback can be included in the log event's metadata. The
handler can use this callback for converting the report to a
format string and arguments. If the format obtained by the
provided callback is not desired, or if there is no provided
callback, the handler must do a custom conversion.</p>
<p>Logger does, to a certain extent, check its input data
before forwarding a log event to the handlers, but it does not
evaluate conversion funs or check the validity of format strings
and arguments. This means that any filter or handler must be
careful when formatting the data of a log event, making sure
that it does not crash due to bad input data or faulty
callbacks.</p>
<p>If a filter or handler still crashes, Logger will remove the
filter or handler in question from the configuration, and print
a short error message to the terminal. A debug event containing
the crash reason and other details is also issued, and can be
seen if a handler logging debug events is installed.</p>
</section>
<section>
<title>Example: add a handler to log debug events to file</title>
<p>When starting an Erlang node, the default behaviour is that all
log events with level info and above are logged to the
terminal. In order to also log debug events, you can either
change the global log level to <c>debug</c> or add a separate
handler to take care of this. In this example we will add a new
handler which prints the debug events to a separate file.</p>
<p>First, we add an instance of <c>logger_std_h</c> with
type <c>{file,File}</c>, and we set the handler's level
to <c>debug</c>:</p>
<pre>
1> <input>Config = #{level => debug, logger_std_h => #{type => {file,"./debug.log"}}}.</input>
#{logger_std_h => #{type => {file,"./debug.log"}},
level => debug}
2> <input>logger:add_handler(debug_handler,logger_std_h,Config).</input>
ok</pre>
<p>By default, the handler receives all events
(<c>filter_default=log</c>, see
section <seealso marker="#filters">Filters</seealso> for more
details), so we need to add a filter to stop all non-debug
events. The built-in
filter <seealso marker="logger_filters#level-2">
<c>logger_filters:level/2</c></seealso>
is used for this:</p>
<pre>
3> <input>logger:add_handler_filter(debug_handler,stop_non_debug,
{fun logger_filters:level/2,{stop,neq,debug}}).</input>
ok</pre>
<p>And finally, we need to make sure that Logger itself allows
debug events. This can either be done by setting the global
log level:</p>
<pre>
4> <input>logger:set_logger_config(level,debug).</input>
ok</pre>
<p>Or by allowing debug events from one or a few modules only:</p>
<pre>
5> <input>logger:set_module_level(mymodule,debug).</input>
ok</pre>
</section>
<section>
<title>Example: implement a handler</title>
<p>The only requirement that a handler MUST fulfill is to export
the following function:</p>
<code>log(logger:log_event(),logger:config()) -> ok</code>
<p>It can optionally also implement the following callbacks:</p>
<code>
adding_handler(logger:config()) -> {ok,logger:config()} | {error,term()}
removing_handler(logger:config()) -> ok
changing_config(logger:config(),logger:config()) -> {ok,logger:config()} | {error,term()}
</code>
<p>When <c>logger:add_handler(Id,Module,Config)</c> is called,
Logger first calls <c>HModule:adding_handler(Config)</c>. If
this function returns <c>{ok,NewConfig}</c>, Logger
writes <c>NewConfig</c> to the configuration database, and
the <c>logger:add_handler/3</c> call returns. After this, the
handler is installed and must be ready to receive log events as
calls to <c>HModule:log/2</c>.</p>
<p>A handler can be removed by calling
<c>logger:remove_handler(Id)</c>. Logger calls
<c>HModule:removing_handler(Config)</c>, and removes the
handler's configuration from the configuration database.</p>
<p>When <c>logger:set_handler_config/2,3</c>
or <c>logger:update_handler_config/2</c> is called, Logger
calls <c>HModule:changing_config(OldConfig,NewConfig)</c>. If
this function returns <c>{ok,NewConfig}</c>, Logger
writes <c>NewConfig</c> to the configuration database.</p>
<p>A simple handler that prints to the terminal can be implemented
as follows:</p>
<code>
-module(myhandler).
-export([log/2]).
log(LogEvent,#{formatter:={FModule,FConfig}) ->
io:put_chars(FModule:format(LogEvent,FConfig)).
</code>
<p>A simple handler which prints to file could be implemented like
this:</p>
<code>
-module(myhandler).
-export([adding_handler/1, removing_handler/1, log/2]).
-export([init/1, handle_call/3, handle_cast/2, terminate/2]).
adding_handler(Config) ->
{ok,Fd} = file:open(File,[append,{encoding,utf8}]),
{ok,Config#{myhandler_fd => Fd}}.
removing_handler(#{myhandler_fd:=Fd}) ->
_ = file:close(Fd),
ok.
log(LogEvent,#{myhandler_fd:=Fd,formatter:={FModule,FConfig}}) ->
io:put_chars(Fd,FModule:format(LogEvent,FConfig)).
</code>
<note><p>The above handlers do not have any overload
protection, and all log events are printed directly from the
client process.</p></note>
<p>For information and examples of overload protection, please
refer to
section <seealso marker="#overload_protection">Protecting the
Handler from Overload</seealso>, and the implementation
of <seealso marker="logger_std_h"><c>logger_std_h(3)</c></seealso>
and <seealso marker="logger_disk_log_h"><c>logger_disk_log_h(3)</c>
</seealso>.</p>
<p>Below is a simpler example of a handler which logs through one
single process.</p>
<code>
-module(myhandler).
-export([adding_handler/1, removing_handler/1, log/2]).
-export([init/1, handle_call/3, handle_cast/2, terminate/2]).
adding_handler(Config) ->
{ok,Pid} = gen_server:start(?MODULE,Config),
{ok,Config#{myhandler_pid => Pid}}.
removing_handler(#{myhandler_pid:=Pid}) ->
gen_server:stop(Pid).
log(LogEvent,#{myhandler_pid:=Pid} = Config) ->
gen_server:cast(Pid,{log,LogEvent,Config}).
init(#{myhandler_file:=File}) ->
{ok,Fd} = file:open(File,[append,{encoding,utf8}]),
{ok,#{file => File, fd => Fd}}.
handle_call(_,_,State) ->
{reply,{error,bad_request},State}.
handle_cast({log,LogEvent,Config},#{fd:=Fd} = State) ->
do_log(Fd,LogEvent,Config),
{noreply,State}.
terminate(Reason,#{fd:=Fd}) ->
_ = file:close(Fd),
ok.
do_log(Fd,LogEvent,#{formatter:={FModule,FConfig}}) ->
String = FModule:format(LogEvent,FConfig),
io:put_chars(Fd,String).
</code>
</section>
<section>
<marker id="overload_protection"/>
<title>Protecting the Handler from Overload</title>
<p>In order for the built-in handlers to survive, and stay responsive,
during periods of high load (i.e. when huge numbers of incoming
log requests must be handled), a mechanism for overload protection
has been implemented in the
<seealso marker="logger_std_h"><c>logger_std_h</c></seealso>
and <seealso marker="logger_disk_log_h"><c>logger_disk_log_h</c>
</seealso> handler. The mechanism, used by both handlers, works
as follows:</p>
<section>
<title>Message Queue Length</title>
<p>The handler process keeps track of the length of its message
queue and reacts in different ways depending on the current status.
The purpose is to keep the handler in, or (as quickly as possible),
get the handler into, a state where it can keep up with the pace
of incoming log requests. The memory usage of the handler must never
keep growing larger and larger, since that would eventually cause the
handler to crash. Three thresholds with associated actions have been
defined:</p>
<taglist>
<tag><c>toggle_sync_qlen</c></tag>
<item>
<p>The default value of this level is <c>10</c> messages,
and as long as the length of the message queue is lower, all log
requests are handled asynchronously. This simply means that the
process sending the log request (by calling a log function in the
Logger API) does not wait for a response from the handler but
continues executing immediately after the request (i.e. it will not
be affected by the time it takes the handler to print to the log
device). If the message queue grows larger than this value, however,
the handler starts handling the log requests synchronously instead,
meaning the process sending the request will have to wait for a
response. When the handler manages to reduce the message queue to a
level below the <c>toggle_sync_qlen</c> threshold, asynchronous
operation is resumed. The switch from asynchronous to synchronous
mode will force the logging tempo of few busy senders to slow down,
but can not protect the handler sufficiently in situations of many
concurrent senders.</p>
</item>
<tag><c>drop_new_reqs_qlen</c></tag>
<item>
<p>When the message queue has grown larger than this threshold, which
defaults to <c>200</c> messages, the handler switches to a mode in
which it drops any new requests being made. Dropping a message in
this state means that the log function never actually sends a message
to the handler. The log call simply returns without an action. When
the length of the message queue has been reduced to a level below this
threshold, synchronous or asynchronous request handling mode is
resumed.</p>
</item>
<tag><c>flush_reqs_qlen</c></tag>
<item>
<p>Above this threshold, which defaults to <c>1000</c> messages, a
flush operation takes place, in which all messages buffered in the
process mailbox get deleted without any logging actually taking
place. (Processes waiting for a response from a synchronous log request
will receive a reply indicating that the request has been dropped).</p>
</item>
</taglist>
<p>For the overload protection algorithm to work properly, it is
required that:</p>
<p><c>toggle_sync_qlen =< drop_new_reqs_qlen =< flush_reqs_qlen</c></p>
<p>and that:</p>
<p><c>drop_new_reqs_qlen > 1</c></p>
<p>If <c>toggle_sync_qlen</c> is set to <c>0</c>, the handler will handle all
requests synchronously. Setting the value of <c>toggle_sync_qlen</c> to the same
as <c>drop_new_reqs_qlen</c>, disables the synchronous mode. Likewise, setting
the value of <c>drop_new_reqs_qlen</c> to the same as <c>flush_reqs_qlen</c>,
disables the drop mode.</p>
<p>During high load scenarios, the length of the handler message queue
rarely grows in a linear and predictable way. Instead, whenever the
handler process gets scheduled in, it can have an almost arbitrary number
of messages waiting in the mailbox. It's for this reason that the overload
protection mechanism is focused on acting quickly and quite drastically
(such as immediately dropping or flushing messages) as soon as a large
queue length is detected. </p>
<p>The thresholds listed above may be modified by the user if, e.g, a handler
shouldn't drop or flush messages unless the message queue length grows
extremely large. (The handler must be allowed to use large amounts of memory
under such circumstances however). Another example of when the user might want
to change the settings is if, for performance reasons, the logging processes must
never get blocked by synchronous log requests, while dropping or flushing requests
is perfectly acceptable (since it doesn't affect the performance of the
loggers).</p>
<p>A configuration example:</p>
<code type="none">
logger:add_handler(my_standard_h, logger_std_h,
#{logger_std_h =>
#{type => {file,"./system_info.log"},
toggle_sync_qlen => 100,
drop_new_reqs_qlen => 1000,
flush_reqs_qlen => 2000}}).
</code>
</section>
<section>
<title>Controlling Bursts of Log Requests</title>
<p>A potential problem with large bursts of log requests, is that log files
may get full or wrapped too quickly (in the latter case overwriting
previously logged data that could be of great importance). For this reason,
both built-in handlers offer the possibility to set a maximum level of how
many requests to process with a certain time frame. With this burst control
feature enabled, the handler will take care of bursts of log requests
without choking log files, or the terminal, with massive amounts of
printouts. These are the configuration parameters:</p>
<taglist>
<tag><c>enable_burst_limit</c></tag>
<item>
<p>This is set to <c>true</c> by default. The value <c>false</c>
disables the burst control feature.</p>
</item>
<tag><c>burst_limit_size</c></tag>
<item>
<p>This is how many requests should be processed within the
<c>burst_window_time</c> time frame. After this maximum has been
reached, successive requests will be dropped until the end of the
time frame. The default value is <c>500</c> messages.</p>
</item>
<tag><c>burst_window_time</c></tag>
<item>
<p>The default window is <c>1000</c> milliseconds long.</p>
</item>
</taglist>
<p>A configuration example:</p>
<code type="none">
logger:add_handler(my_disk_log_h, logger_disk_log_h,
#{disk_log_opts =>
#{file => "./my_disk_log"},
logger_disk_log_h =>
#{burst_limit_size => 10,
burst_window_time => 500}}).
</code>
</section>
<section>
<title>Terminating a Large Handler</title>
<p>A handler process may grow large even if it can manage peaks of high load
without crashing. The overload protection mechanism includes user configurable
levels for a maximum allowed message queue length and maximum allowed memory
usage. This feature is disabled by default, but can be switched on by means
of the following configuration parameters:</p>
<taglist>
<tag><c>enable_kill_overloaded</c></tag>
<item>
<p>This is set to <c>false</c> by default. The value <c>true</c>
enables the feature.</p>
</item>
<tag><c>handler_overloaded_qlen</c></tag>
<item>
<p>This is the maximum allowed queue length. If the mailbox grows larger
than this, the handler process gets terminated.</p>
</item>
<tag><c>handler_overloaded_mem</c></tag>
<item>
<p>This is the maximum allowed memory usage of the handler process. If
the handler grows any larger, the process gets terminated.</p>
</item>
<tag><c>handler_restart_after</c></tag>
<item>
<p>If the handler gets terminated because of its queue length or
memory usage, it can get automatically restarted again after a
configurable delay time. The time is specified in milliseconds
and <c>5000</c> is the default value. The value <c>never</c> can
also be set, which prevents a restart.</p>
</item>
</taglist>
</section>
</section>
<section>
<title>See Also</title>
<p>
<seealso marker="disk_log"><c>disk_log(3)</c></seealso>,
<seealso marker="error_logger"><c>error_logger(3)</c></seealso>,
<seealso marker="logger"><c>logger(3)</c></seealso>,
<seealso marker="logger_disk_log_h"><c>logger_disk_log_h(3)</c></seealso>,
<seealso marker="logger_filters"><c>logger_filters(3)</c></seealso>,
<seealso marker="logger_formatter"><c>logger_formatter(3)</c></seealso>,
<seealso marker="logger_std_h"><c>logger_std_h(3)</c></seealso>,
<seealso marker="sasl:sasl_app"><c>sasl(6)</c></seealso></p>
</section>
</chapter>
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