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资源说明:Log4j Implementation For Perl
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Log::Log4perl 1.49
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NAME
Log::Log4perl - Log4j implementation for Perl
SYNOPSIS
# Easy mode if you like it simple ...
use Log::Log4perl qw(:easy);
Log::Log4perl->easy_init($ERROR);
DEBUG "This doesn't go anywhere";
ERROR "This gets logged";
# ... or standard mode for more features:
Log::Log4perl::init('/etc/log4perl.conf');
--or--
# Check config every 10 secs
Log::Log4perl::init_and_watch('/etc/log4perl.conf',10);
--then--
$logger = Log::Log4perl->get_logger('house.bedrm.desk.topdrwr');
$logger->debug('this is a debug message');
$logger->info('this is an info message');
$logger->warn('etc');
$logger->error('..');
$logger->fatal('..');
#####/etc/log4perl.conf###############################
log4perl.logger.house = WARN, FileAppndr1
log4perl.logger.house.bedroom.desk = DEBUG, FileAppndr1
log4perl.appender.FileAppndr1 = Log::Log4perl::Appender::File
log4perl.appender.FileAppndr1.filename = desk.log
log4perl.appender.FileAppndr1.layout = \
Log::Log4perl::Layout::SimpleLayout
######################################################
ABSTRACT
Log::Log4perl provides a powerful logging API for your application
DESCRIPTION
Log::Log4perl lets you remote-control and fine-tune the logging
behaviour of your system from the outside. It implements the widely
popular (Java-based) Log4j logging package in pure Perl.
For a detailed tutorial on Log::Log4perl usage, please read
Logging beats a debugger if you want to know what's going on in your
code during runtime. However, traditional logging packages are too
static and generate a flood of log messages in your log files that won't
help you.
"Log::Log4perl" is different. It allows you to control the number of
logging messages generated at three different levels:
* At a central location in your system (either in a configuration file
or in the startup code) you specify *which components* (classes,
functions) of your system should generate logs.
* You specify how detailed the logging of these components should be
by specifying logging *levels*.
* You also specify which so-called *appenders* you want to feed your
log messages to ("Print it to the screen and also append it to
/tmp/my.log") and which format ("Write the date first, then the file
name and line number, and then the log message") they should be in.
This is a very powerful and flexible mechanism. You can turn on and off
your logs at any time, specify the level of detail and make that
dependent on the subsystem that's currently executed.
Let me give you an example: You might find out that your system has a
problem in the "MySystem::Helpers::ScanDir" component. Turning on
detailed debugging logs all over the system would generate a flood of
useless log messages and bog your system down beyond recognition. With
"Log::Log4perl", however, you can tell the system: "Continue to log only
severe errors to the log file. Open a second log file, turn on full
debug logs in the "MySystem::Helpers::ScanDir" component and dump all
messages originating from there into the new log file". And all this is
possible by just changing the parameters in a configuration file, which
your system can re-read even while it's running!
How to use it
The "Log::Log4perl" package can be initialized in two ways: Either via
Perl commands or via a "log4j"-style configuration file.
Initialize via a configuration file
This is the easiest way to prepare your system for using
"Log::Log4perl". Use a configuration file like this:
############################################################
# A simple root logger with a Log::Log4perl::Appender::File
# file appender in Perl.
############################################################
log4perl.rootLogger=ERROR, LOGFILE
log4perl.appender.LOGFILE=Log::Log4perl::Appender::File
log4perl.appender.LOGFILE.filename=/var/log/myerrs.log
log4perl.appender.LOGFILE.mode=append
log4perl.appender.LOGFILE.layout=PatternLayout
log4perl.appender.LOGFILE.layout.ConversionPattern=[%r] %F %L %c - %m%n
These lines define your standard logger that's appending severe errors
to "/var/log/myerrs.log", using the format
[millisecs] source-filename line-number class - message newline
Assuming that this configuration file is saved as "log.conf", you need
to read it in the startup section of your code, using the following
commands:
use Log::Log4perl;
Log::Log4perl->init("log.conf");
After that's done *somewhere* in the code, you can retrieve logger
objects *anywhere* in the code. Note that there's no need to carry any
logger references around with your functions and methods. You can get a
logger anytime via a singleton mechanism:
package My::MegaPackage;
use Log::Log4perl;
sub some_method {
my($param) = @_;
my $log = Log::Log4perl->get_logger("My::MegaPackage");
$log->debug("Debug message");
$log->info("Info message");
$log->error("Error message");
...
}
With the configuration file above, "Log::Log4perl" will write "Error
message" to the specified log file, but won't do anything for the
"debug()" and "info()" calls, because the log level has been set to
"ERROR" for all components in the first line of configuration file shown
above.
Why "Log::Log4perl->get_logger" and not "Log::Log4perl->new"? We don't
want to create a new object every time. Usually in OO-Programming, you
create an object once and use the reference to it to call its methods.
However, this requires that you pass around the object to all functions
and the last thing we want is pollute each and every function/method
we're using with a handle to the "Logger":
sub function { # Brrrr!!
my($logger, $some, $other, $parameters) = @_;
}
Instead, if a function/method wants a reference to the logger, it just
calls the Logger's static "get_logger($category)" method to obtain a
reference to the *one and only* possible logger object of a certain
category. That's called a *singleton* if you're a Gamma fan.
How does the logger know which messages it is supposed to log and which
ones to suppress? "Log::Log4perl" works with inheritance: The config
file above didn't specify anything about "My::MegaPackage". And yet,
we've defined a logger of the category "My::MegaPackage". In this case,
"Log::Log4perl" will walk up the namespace hierarchy ("My" and then
we're at the root) to figure out if a log level is defined somewhere. In
the case above, the log level at the root (root *always* defines a log
level, but not necessarily an appender) defines that the log level is
supposed to be "ERROR" -- meaning that *DEBUG* and *INFO* messages are
suppressed. Note that this 'inheritance' is unrelated to Perl's class
inheritance, it is merely related to the logger namespace. By the way,
if you're ever in doubt about what a logger's category is, use
"$logger->category()" to retrieve it.
Log Levels
There are six predefined log levels: "FATAL", "ERROR", "WARN", "INFO",
"DEBUG", and "TRACE" (in descending priority). Your configured logging
level has to at least match the priority of the logging message.
If your configured logging level is "WARN", then messages logged with
"info()", "debug()", and "trace()" will be suppressed. "fatal()",
"error()" and "warn()" will make their way through, because their
priority is higher or equal than the configured setting.
Instead of calling the methods
$logger->trace("..."); # Log a trace message
$logger->debug("..."); # Log a debug message
$logger->info("..."); # Log a info message
$logger->warn("..."); # Log a warn message
$logger->error("..."); # Log a error message
$logger->fatal("..."); # Log a fatal message
you could also call the "log()" method with the appropriate level using
the constants defined in "Log::Log4perl::Level":
use Log::Log4perl::Level;
$logger->log($TRACE, "...");
$logger->log($DEBUG, "...");
$logger->log($INFO, "...");
$logger->log($WARN, "...");
$logger->log($ERROR, "...");
$logger->log($FATAL, "...");
This form is rarely used, but it comes in handy if you want to log at
different levels depending on an exit code of a function:
$logger->log( $exit_level{ $rc }, "...");
As for needing more logging levels than these predefined ones: It's
usually best to steer your logging behaviour via the category mechanism
instead.
If you need to find out if the currently configured logging level would
allow a logger's logging statement to go through, use the logger's
"is_*level*()" methods:
$logger->is_trace() # True if trace messages would go through
$logger->is_debug() # True if debug messages would go through
$logger->is_info() # True if info messages would go through
$logger->is_warn() # True if warn messages would go through
$logger->is_error() # True if error messages would go through
$logger->is_fatal() # True if fatal messages would go through
Example: "$logger->is_warn()" returns true if the logger's current
level, as derived from either the logger's category (or, in absence of
that, one of the logger's parent's level setting) is $WARN, $ERROR or
$FATAL.
Also available are a series of more Java-esque functions which return
the same values. These are of the format "is*Level*Enabled()", so
"$logger->isDebugEnabled()" is synonymous to "$logger->is_debug()".
These level checking functions will come in handy later, when we want to
block unnecessary expensive parameter construction in case the logging
level is too low to log the statement anyway, like in:
if($logger->is_error()) {
$logger->error("Erroneous array: @super_long_array");
}
If we had just written
$logger->error("Erroneous array: @super_long_array");
then Perl would have interpolated @super_long_array into the string via
an expensive operation only to figure out shortly after that the string
can be ignored entirely because the configured logging level is lower
than $ERROR.
The to-be-logged message passed to all of the functions described above
can consist of an arbitrary number of arguments, which the logging
functions just chain together to a single string. Therefore
$logger->debug("Hello ", "World", "!"); # and
$logger->debug("Hello World!");
are identical.
Note that even if one of the methods above returns true, it doesn't
necessarily mean that the message will actually get logged. What
is_debug() checks is that the logger used is configured to let a message
of the given priority (DEBUG) through. But after this check, Log4perl
will eventually apply custom filters and forward the message to one or
more appenders. None of this gets checked by is_xxx(), for the simple
reason that it's impossible to know what a custom filter does with a
message without having the actual message or what an appender does to a
message without actually having it log it.
Log and die or warn
Often, when you croak / carp / warn / die, you want to log those
messages. Rather than doing the following:
$logger->fatal($err) && die($err);
you can use the following:
$logger->logdie($err);
And if instead of using
warn($message);
$logger->warn($message);
to both issue a warning via Perl's warn() mechanism and make sure you
have the same message in the log file as well, use:
$logger->logwarn($message);
Since there is an ERROR level between WARN and FATAL, there are two
additional helper functions in case you'd like to use ERROR for either
warn() or die():
$logger->error_warn();
$logger->error_die();
Finally, there's the Carp functions that, in addition to logging, also
pass the stringified message to their companions in the Carp package:
$logger->logcarp(); # warn w/ 1-level stack trace
$logger->logcluck(); # warn w/ full stack trace
$logger->logcroak(); # die w/ 1-level stack trace
$logger->logconfess(); # die w/ full stack trace
Appenders
If you don't define any appenders, nothing will happen. Appenders will
be triggered whenever the configured logging level requires a message to
be logged and not suppressed.
"Log::Log4perl" doesn't define any appenders by default, not even the
root logger has one.
"Log::Log4perl" already comes with a standard set of appenders:
Log::Log4perl::Appender::Screen
Log::Log4perl::Appender::ScreenColoredLevels
Log::Log4perl::Appender::File
Log::Log4perl::Appender::Socket
Log::Log4perl::Appender::DBI
Log::Log4perl::Appender::Synchronized
Log::Log4perl::Appender::RRDs
to log to the screen, to files and to databases.
On CPAN, you can find additional appenders like
Log::Log4perl::Layout::XMLLayout
by Guido Carls . It allows for hooking up Log::Log4perl
with the graphical Log Analyzer Chainsaw (see "Can I use Log::Log4perl
with log4j's Chainsaw?" in Log::Log4perl::FAQ).
Additional Appenders via Log::Dispatch
"Log::Log4perl" also supports *Dave Rolskys* excellent "Log::Dispatch"
framework which implements a wide variety of different appenders.
Here's the list of appender modules currently available via
"Log::Dispatch":
Log::Dispatch::ApacheLog
Log::Dispatch::DBI (by Tatsuhiko Miyagawa)
Log::Dispatch::Email,
Log::Dispatch::Email::MailSend,
Log::Dispatch::Email::MailSendmail,
Log::Dispatch::Email::MIMELite
Log::Dispatch::File
Log::Dispatch::FileRotate (by Mark Pfeiffer)
Log::Dispatch::Handle
Log::Dispatch::Screen
Log::Dispatch::Syslog
Log::Dispatch::Tk (by Dominique Dumont)
Please note that in order to use any of these additional appenders, you
have to fetch Log::Dispatch from CPAN and install it. Also the
particular appender you're using might require installing the particular
module.
For additional information on appenders, please check the
Log::Log4perl::Appender manual page.
Appender Example
Now let's assume that we want to log "info()" or higher prioritized
messages in the "Foo::Bar" category to both STDOUT and to a log file,
say "test.log". In the initialization section of your system, just
define two appenders using the readily available
"Log::Log4perl::Appender::File" and "Log::Log4perl::Appender::Screen"
modules:
use Log::Log4perl;
# Configuration in a string ...
my $conf = q(
log4perl.category.Foo.Bar = INFO, Logfile, Screen
log4perl.appender.Logfile = Log::Log4perl::Appender::File
log4perl.appender.Logfile.filename = test.log
log4perl.appender.Logfile.layout = Log::Log4perl::Layout::PatternLayout
log4perl.appender.Logfile.layout.ConversionPattern = [%r] %F %L %m%n
log4perl.appender.Screen = Log::Log4perl::Appender::Screen
log4perl.appender.Screen.stderr = 0
log4perl.appender.Screen.layout = Log::Log4perl::Layout::SimpleLayout
);
# ... passed as a reference to init()
Log::Log4perl::init( \$conf );
Once the initialization shown above has happened once, typically in the
startup code of your system, just use the defined logger anywhere in
your system:
##########################
# ... in some function ...
##########################
my $log = Log::Log4perl::get_logger("Foo::Bar");
# Logs both to STDOUT and to the file test.log
$log->info("Important Info!");
The "layout" settings specified in the configuration section define the
format in which the message is going to be logged by the specified
appender. The format shown for the file appender is logging not only the
message but also the number of milliseconds since the program has
started (%r), the name of the file the call to the logger has happened
and the line number there (%F and %L), the message itself (%m) and a
OS-specific newline character (%n):
[187] ./myscript.pl 27 Important Info!
The screen appender above, on the other hand, uses a "SimpleLayout",
which logs the debug level, a hyphen (-) and the log message:
INFO - Important Info!
For more detailed info on layout formats, see "Log Layouts".
In the configuration sample above, we chose to define a *category*
logger ("Foo::Bar"). This will cause only messages originating from this
specific category logger to be logged in the defined format and
locations.
Logging newlines
There's some controversy between different logging systems as to when
and where newlines are supposed to be added to logged messages.
The Log4perl way is that a logging statement *should not* contain a
newline:
$logger->info("Some message");
$logger->info("Another message");
If this is supposed to end up in a log file like
Some message
Another message
then an appropriate appender layout like "%m%n" will take care of adding
a newline at the end of each message to make sure every message is
printed on its own line.
Other logging systems, Log::Dispatch in particular, recommend adding the
newline to the log statement. This doesn't work well, however, if you,
say, replace your file appender by a database appender, and all of a
sudden those newlines scattered around the code don't make sense
anymore.
Assigning matching layouts to different appenders and leaving newlines
out of the code solves this problem. If you inherited code that has
logging statements with newlines and want to make it work with Log4perl,
read the Log::Log4perl::Layout::PatternLayout documentation on how to
accomplish that.
Configuration files
As shown above, you can define "Log::Log4perl" loggers both from within
your Perl code or from configuration files. The latter have the
unbeatable advantage that you can modify your system's logging behaviour
without interfering with the code at all. So even if your code is being
run by somebody who's totally oblivious to Perl, they still can adapt
the module's logging behaviour to their needs.
"Log::Log4perl" has been designed to understand "Log4j" configuration
files -- as used by the original Java implementation. Instead of
reiterating the format description in [2], let me just list three
examples (also derived from [2]), which should also illustrate how it
works:
log4j.rootLogger=DEBUG, A1
log4j.appender.A1=org.apache.log4j.ConsoleAppender
log4j.appender.A1.layout=org.apache.log4j.PatternLayout
log4j.appender.A1.layout.ConversionPattern=%-4r %-5p %c %x - %m%n
This enables messages of priority "DEBUG" or higher in the root
hierarchy and has the system write them to the console.
"ConsoleAppender" is a Java appender, but "Log::Log4perl" jumps through
a significant number of hoops internally to map these to their
corresponding Perl classes, "Log::Log4perl::Appender::Screen" in this
case.
Second example:
log4perl.rootLogger=DEBUG, A1
log4perl.appender.A1=Log::Log4perl::Appender::Screen
log4perl.appender.A1.layout=PatternLayout
log4perl.appender.A1.layout.ConversionPattern=%d %-5p %c - %m%n
log4perl.logger.com.foo=WARN
This defines two loggers: The root logger and the "com.foo" logger. The
root logger is easily triggered by debug-messages, but the "com.foo"
logger makes sure that messages issued within the "Com::Foo" component
and below are only forwarded to the appender if they're of priority
*warning* or higher.
Note that the "com.foo" logger doesn't define an appender. Therefore, it
will just propagate the message up the hierarchy until the root logger
picks it up and forwards it to the one and only appender of the root
category, using the format defined for it.
Third example:
log4j.rootLogger=DEBUG, stdout, R
log4j.appender.stdout=org.apache.log4j.ConsoleAppender
log4j.appender.stdout.layout=org.apache.log4j.PatternLayout
log4j.appender.stdout.layout.ConversionPattern=%5p (%F:%L) - %m%n
log4j.appender.R=org.apache.log4j.RollingFileAppender
log4j.appender.R.File=example.log
log4j.appender.R.layout=org.apache.log4j.PatternLayout
log4j.appender.R.layout.ConversionPattern=%p %c - %m%n
The root logger defines two appenders here: "stdout", which uses
"org.apache.log4j.ConsoleAppender" (ultimately mapped by "Log::Log4perl"
to Log::Log4perl::Appender::Screen) to write to the screen. And "R", a
"org.apache.log4j.RollingFileAppender" (mapped by "Log::Log4perl" to
Log::Dispatch::FileRotate with the "File" attribute specifying the log
file.
See Log::Log4perl::Config for more examples and syntax explanations.
Log Layouts
If the logging engine passes a message to an appender, because it thinks
it should be logged, the appender doesn't just write it out haphazardly.
There's ways to tell the appender how to format the message and add all
sorts of interesting data to it: The date and time when the event
happened, the file, the line number, the debug level of the logger and
others.
There's currently two layouts defined in "Log::Log4perl":
"Log::Log4perl::Layout::SimpleLayout" and
"Log::Log4perl::Layout::PatternLayout":
"Log::Log4perl::SimpleLayout"
formats a message in a simple way and just prepends it by the debug
level and a hyphen: ""$level - $message", for example "FATAL - Can't
open password file".
"Log::Log4perl::Layout::PatternLayout"
on the other hand is very powerful and allows for a very flexible
format in "printf"-style. The format string can contain a number of
placeholders which will be replaced by the logging engine when it's
time to log the message:
%c Category of the logging event.
%C Fully qualified package (or class) name of the caller
%d Current date in yyyy/MM/dd HH:mm:ss format
%F File where the logging event occurred
%H Hostname (if Sys::Hostname is available)
%l Fully qualified name of the calling method followed by the
callers source the file name and line number between
parentheses.
%L Line number within the file where the log statement was issued
%m The message to be logged
%m{chomp} The message to be logged, stripped off a trailing newline
%M Method or function where the logging request was issued
%n Newline (OS-independent)
%p Priority of the logging event (AKA log level)
%P pid of the current process
%r Number of milliseconds elapsed from program start to logging
event
%R Number of milliseconds elapsed from last logging event to
current logging event
%T A stack trace of functions called
%x The topmost NDC (see below)
%X{key} The entry 'key' of the MDC (see below)
%% A literal percent (%) sign
NDC and MDC are explained in "Nested Diagnostic Context (NDC)" and
"Mapped Diagnostic Context (MDC)".
Also, %d can be fine-tuned to display only certain characteristics
of a date, according to the SimpleDateFormat in the Java World
()
In this way, %d{HH:mm} displays only hours and minutes of the
current date, while %d{yy, EEEE} displays a two-digit year, followed
by a spelled-out day (like "Wednesday").
Similar options are available for shrinking the displayed category
or limit file/path components, %F{1} only displays the source file
*name* without any path components while %F logs the full path.
%c{2} only logs the last two components of the current category,
"Foo::Bar::Baz" becomes "Bar::Baz" and saves space.
If those placeholders aren't enough, then you can define your own
right in the config file like this:
log4perl.PatternLayout.cspec.U = sub { return "UID $<" }
See Log::Log4perl::Layout::PatternLayout for further details on
customized specifiers.
Please note that the subroutines you're defining in this way are
going to be run in the "main" namespace, so be sure to fully qualify
functions and variables if they're located in different packages.
SECURITY NOTE: this feature means arbitrary perl code can be
embedded in the config file. In the rare case where the people who
have access to your config file are different from the people who
write your code and shouldn't have execute rights, you might want to
call
Log::Log4perl::Config->allow_code(0);
before you call init(). Alternatively you can supply a restricted
set of Perl opcodes that can be embedded in the config file as
described in "Restricting what Opcodes can be in a Perl Hook".
All placeholders are quantifiable, just like in *printf*. Following this
tradition, "%-20c" will reserve 20 chars for the category and
left-justify it.
For more details on logging and how to use the flexible and the simple
format, check out the original "log4j" website under
SimpleLayout
and PatternLayout
Penalties
Logging comes with a price tag. "Log::Log4perl" has been optimized to
allow for maximum performance, both with logging enabled and disabled.
But you need to be aware that there's a small hit every time your code
encounters a log statement -- no matter if logging is enabled or not.
"Log::Log4perl" has been designed to keep this so low that it will be
unnoticeable to most applications.
Here's a couple of tricks which help "Log::Log4perl" to avoid
unnecessary delays:
You can save serious time if you're logging something like
# Expensive in non-debug mode!
for (@super_long_array) {
$logger->debug("Element: $_");
}
and @super_long_array is fairly big, so looping through it is pretty
expensive. Only you, the programmer, knows that going through that "for"
loop can be skipped entirely if the current logging level for the actual
component is higher than "debug". In this case, use this instead:
# Cheap in non-debug mode!
if($logger->is_debug()) {
for (@super_long_array) {
$logger->debug("Element: $_");
}
}
If you're afraid that generating the parameters to the logging function
is fairly expensive, use closures:
# Passed as subroutine ref
use Data::Dumper;
$logger->debug(sub { Dumper($data) } );
This won't unravel $data via Dumper() unless it's actually needed
because it's logged.
Also, Log::Log4perl lets you specify arguments to logger functions in
*message output filter syntax*:
$logger->debug("Structure: ",
{ filter => \&Dumper,
value => $someref });
In this way, shortly before Log::Log4perl sending the message out to any
appenders, it will be searching all arguments for hash references and
treat them in a special way:
It will invoke the function given as a reference with the "filter" key
("Data::Dumper::Dumper()") and pass it the value that came with the key
named "value" as an argument. The anonymous hash in the call above will
be replaced by the return value of the filter function.
Categories
Categories are also called "Loggers" in Log4perl, both refer to the same
thing and these terms are used interchangeably. "Log::Log4perl" uses
*categories* to determine if a log statement in a component should be
executed or suppressed at the current logging level. Most of the time,
these categories are just the classes the log statements are located in:
package Candy::Twix;
sub new {
my $logger = Log::Log4perl->get_logger("Candy::Twix");
$logger->debug("Creating a new Twix bar");
bless {}, shift;
}
# ...
package Candy::Snickers;
sub new {
my $logger = Log::Log4perl->get_logger("Candy.Snickers");
$logger->debug("Creating a new Snickers bar");
bless {}, shift;
}
# ...
package main;
Log::Log4perl->init("mylogdefs.conf");
# => "LOG> Creating a new Snickers bar"
my $first = Candy::Snickers->new();
# => "LOG> Creating a new Twix bar"
my $second = Candy::Twix->new();
Note that you can separate your category hierarchy levels using either
dots like in Java (.) or double-colons (::) like in Perl. Both notations
are equivalent and are handled the same way internally.
However, categories are just there to make use of inheritance: if you
invoke a logger in a sub-category, it will bubble up the hierarchy and
call the appropriate appenders. Internally, categories are not related
to the class hierarchy of the program at all -- they're purely virtual.
You can use arbitrary categories -- for example in the following
program, which isn't oo-style, but procedural:
sub print_portfolio {
my $log = Log::Log4perl->get_logger("user.portfolio");
$log->debug("Quotes requested: @_");
for(@_) {
print "$_: ", get_quote($_), "\n";
}
}
sub get_quote {
my $log = Log::Log4perl->get_logger("internet.quotesystem");
$log->debug("Fetching quote: $_[0]");
return yahoo_quote($_[0]);
}
The logger in first function, "print_portfolio", is assigned the
(virtual) "user.portfolio" category. Depending on the "Log4perl"
configuration, this will either call a "user.portfolio" appender, a
"user" appender, or an appender assigned to root -- without
"user.portfolio" having any relevance to the class system used in the
program. The logger in the second function adheres to the
"internet.quotesystem" category -- again, maybe because it's bundled
with other Internet functions, but not because there would be a class of
this name somewhere.
However, be careful, don't go overboard: if you're developing a system
in object-oriented style, using the class hierarchy is usually your best
choice. Think about the people taking over your code one day: The class
hierarchy is probably what they know right up front, so it's easy for
them to tune the logging to their needs.
Turn off a component
"Log4perl" doesn't only allow you to selectively switch *on* a category
of log messages, you can also use the mechanism to selectively *disable*
logging in certain components whereas logging is kept turned on in
higher-level categories. This mechanism comes in handy if you find that
while bumping up the logging level of a high-level (i. e. close to root)
category, that one component logs more than it should,
Here's how it works:
############################################################
# Turn off logging in a lower-level category while keeping
# it active in higher-level categories.
############################################################
log4perl.rootLogger=DEBUG, LOGFILE
log4perl.logger.deep.down.the.hierarchy = ERROR, LOGFILE
# ... Define appenders ...
This way, log messages issued from within "Deep::Down::The::Hierarchy"
and below will be logged only if they're "ERROR" or worse, while in all
other system components even "DEBUG" messages will be logged.
Return Values
All logging methods return values indicating if their message actually
reached one or more appenders. If the message has been suppressed
because of level constraints, "undef" is returned.
For example,
my $ret = $logger->info("Message");
will return "undef" if the system debug level for the current category
is not "INFO" or more permissive. If Log::Log4perl forwarded the message
to one or more appenders, the number of appenders is returned.
If appenders decide to veto on the message with an appender threshold,
the log method's return value will have them excluded. This means that
if you've got one appender holding an appender threshold and you're
logging a message which passes the system's log level hurdle but not the
appender threshold, 0 will be returned by the log function.
The bottom line is: Logging functions will return a *true* value if the
message made it through to one or more appenders and a *false* value if
it didn't. This allows for constructs like
$logger->fatal("@_") or print STDERR "@_\n";
which will ensure that the fatal message isn't lost if the current level
is lower than FATAL or printed twice if the level is acceptable but an
appender already points to STDERR.
Pitfalls with Categories
Be careful with just blindly reusing the system's packages as
categories. If you do, you'll get into trouble with inherited methods.
Imagine the following class setup:
use Log::Log4perl;
###########################################
package Bar;
###########################################
sub new {
my($class) = @_;
my $logger = Log::Log4perl::get_logger(__PACKAGE__);
$logger->debug("Creating instance");
bless {}, $class;
}
###########################################
package Bar::Twix;
###########################################
our @ISA = qw(Bar);
###########################################
package main;
###########################################
Log::Log4perl->init(\ qq{
log4perl.category.Bar.Twix = DEBUG, Screen
log4perl.appender.Screen = Log::Log4perl::Appender::Screen
log4perl.appender.Screen.layout = SimpleLayout
});
my $bar = Bar::Twix->new();
"Bar::Twix" just inherits everything from "Bar", including the
constructor "new()". Contrary to what you might be thinking at first,
this won't log anything. Reason for this is the "get_logger()" call in
package "Bar", which will always get a logger of the "Bar" category,
even if we call "new()" via the "Bar::Twix" package, which will make
perl go up the inheritance tree to actually execute "Bar::new()". Since
we've only defined logging behaviour for "Bar::Twix" in the
configuration file, nothing will happen.
This can be fixed by changing the "get_logger()" method in "Bar::new()"
to obtain a logger of the category matching the *actual* class of the
object, like in
# ... in Bar::new() ...
my $logger = Log::Log4perl::get_logger( $class );
In a method other than the constructor, the class name of the actual
object can be obtained by calling "ref()" on the object reference, so
package BaseClass;
use Log::Log4perl qw( get_logger );
sub new {
bless {}, shift;
}
sub method {
my( $self ) = @_;
get_logger( ref $self )->debug( "message" );
}
package SubClass;
our @ISA = qw(BaseClass);
is the recommended pattern to make sure that
my $sub = SubClass->new();
$sub->meth();
starts logging if the "SubClass" category (and not the "BaseClass"
category has logging enabled at the DEBUG level.
Initialize once and only once
It's important to realize that Log::Log4perl gets initialized once and
only once, typically at the start of a program or system. Calling
"init()" more than once will cause it to clobber the existing
configuration and *replace* it by the new one.
If you're in a traditional CGI environment, where every request is
handled by a new process, calling "init()" every time is fine. In
persistent environments like "mod_perl", however, Log::Log4perl should
be initialized either at system startup time (Apache offers startup
handlers for that) or via
# Init or skip if already done
Log::Log4perl->init_once($conf_file);
"init_once()" is identical to "init()", just with the exception that it
will leave a potentially existing configuration alone and will only call
"init()" if Log::Log4perl hasn't been initialized yet.
If you're just curious if Log::Log4perl has been initialized yet, the
check
if(Log::Log4perl->initialized()) {
# Yes, Log::Log4perl has already been initialized
} else {
# No, not initialized yet ...
}
can be used.
If you're afraid that the components of your system are stepping on each
other's toes or if you are thinking that different components should
initialize Log::Log4perl separately, try to consolidate your system to
use a centralized Log4perl configuration file and use Log4perl's
*categories* to separate your components.
Custom Filters
Log4perl allows the use of customized filters in its appenders to
control the output of messages. These filters might grep for certain
text chunks in a message, verify that its priority matches or exceeds a
certain level or that this is the 10th time the same message has been
submitted -- and come to a log/no log decision based upon these
circumstantial facts.
Check out Log::Log4perl::Filter for detailed instructions on how to use
them.
Performance
The performance of Log::Log4perl calls obviously depends on a lot of
things. But to give you a general idea, here's some rough numbers:
On a Pentium 4 Linux box at 2.4 GHz, you'll get through
* 500,000 suppressed log statements per second
* 30,000 logged messages per second (using an in-memory appender)
* init_and_watch delay mode: 300,000 suppressed, 30,000 logged.
init_and_watch signal mode: 450,000 suppressed, 30,000 logged.
Numbers depend on the complexity of the Log::Log4perl configuration. For
a more detailed benchmark test, check the "docs/benchmark.results.txt"
document in the Log::Log4perl distribution.
Cool Tricks
Here's a collection of useful tricks for the advanced "Log::Log4perl"
user. For more, check the FAQ, either in the distribution
(Log::Log4perl::FAQ) or on .
Shortcuts
When getting an instance of a logger, instead of saying
use Log::Log4perl;
my $logger = Log::Log4perl->get_logger();
it's often more convenient to import the "get_logger" method from
"Log::Log4perl" into the current namespace:
use Log::Log4perl qw(get_logger);
my $logger = get_logger();
Please note this difference: To obtain the root logger, please use
"get_logger("")", call it without parameters ("get_logger()"), you'll
get the logger of a category named after the current package.
"get_logger()" is equivalent to "get_logger(__PACKAGE__)".
Alternative initialization
Instead of having "init()" read in a configuration file by specifying a
file name or passing it a reference to an open filehandle
("Log::Log4perl->init( \*FILE )"), you can also pass in a reference to a
string, containing the content of the file:
Log::Log4perl->init( \$config_text );
Also, if you've got the "name=value" pairs of the configuration in a
hash, you can just as well initialize "Log::Log4perl" with a reference
to it:
my %key_value_pairs = (
"log4perl.rootLogger" => "ERROR, LOGFILE",
"log4perl.appender.LOGFILE" => "Log::Log4perl::Appender::File",
...
);
Log::Log4perl->init( \%key_value_pairs );
Or also you can use a URL, see below:
Using LWP to parse URLs
(This section borrowed from XML::DOM::Parser by T.J. Mather).
The init() function now also supports URLs, e.g.
*http://www.erols.com/enno/xsa.xml*. It uses LWP to download the file
and then calls parse() on the resulting string. By default it will use a
LWP::UserAgent that is created as follows:
use LWP::UserAgent;
$LWP_USER_AGENT = LWP::UserAgent->new;
$LWP_USER_AGENT->env_proxy;
Note that env_proxy reads proxy settings from environment variables,
which is what Log4perl needs to do to get through our firewall. If you
want to use a different LWP::UserAgent, you can set it with
Log::Log4perl::Config::set_LWP_UserAgent($my_agent);
Currently, LWP is used when the filename (passed to parsefile) starts
with one of the following URL schemes: http, https, ftp, wais, gopher,
or file (followed by a colon.)
Don't use this feature with init_and_watch().
Automatic reloading of changed configuration files
Instead of just statically initializing Log::Log4perl via
Log::Log4perl->init($conf_file);
there's a way to have Log::Log4perl periodically check for changes in
the configuration and reload it if necessary:
Log::Log4perl->init_and_watch($conf_file, $delay);
In this mode, Log::Log4perl will examine the configuration file
$conf_file every $delay seconds for changes via the file's last
modification timestamp. If the file has been updated, it will be
reloaded and replace the current Log::Log4perl configuration.
The way this works is that with every logger function called (debug(),
is_debug(), etc.), Log::Log4perl will check if the delay interval has
expired. If so, it will run a -M file check on the configuration file.
If its timestamp has been modified, the current configuration will be
dumped and new content of the file will be loaded.
This convenience comes at a price, though: Calling time() with every
logging function call, especially the ones that are "suppressed" (!),
will slow down these Log4perl calls by about 40%.
To alleviate this performance hit a bit, "init_and_watch()" can be
configured to listen for a Unix signal to reload the configuration
instead:
Log::Log4perl->init_and_watch($conf_file, 'HUP');
This will set up a signal handler for SIGHUP and reload the
configuration if the application receives this signal, e.g. via the
"kill" command:
kill -HUP pid
where "pid" is the process ID of the application. This will bring you
back to about 85% of Log::Log4perl's normal execution speed for
suppressed statements. For details, check out "Performance". For more
info on the signal handler, look for "SIGNAL MODE" in
Log::Log4perl::Config::Watch.
If you have a somewhat long delay set between physical config file
checks or don't want to use the signal associated with the config file
watcher, you can trigger a configuration reload at the next possible
time by calling "Log::Log4perl::Config->watcher->force_next_check()".
One thing to watch out for: If the configuration file contains a syntax
or other fatal error, a running application will stop with "die" if this
damaged configuration will be loaded during runtime, triggered either by
a signal or if the delay period expired and the change is detected. This
behaviour might change in the future.
To allow the application to intercept and control a configuration reload
in init_and_watch mode, a callback can be specified:
Log::Log4perl->init_and_watch($conf_file, 10, {
preinit_callback => \&callback });
If Log4perl determines that the configuration needs to be reloaded, it
will call the "preinit_callback" function without parameters. If the
callback returns a true value, Log4perl will proceed and reload the
configuration. If the callback returns a false value, Log4perl will keep
the old configuration and skip reloading it until the next time around.
Inside the callback, an application can run all kinds of checks,
including accessing the configuration file, which is available via
"Log::Log4perl::Config->watcher()->file()".
Variable Substitution
To avoid having to retype the same expressions over and over again,
Log::Log4perl's configuration files support simple variable
substitution. New variables are defined simply by adding
varname = value
lines to the configuration file before using
${varname}
afterwards to recall the assigned values. Here's an example:
layout_class = Log::Log4perl::Layout::PatternLayout
layout_pattern = %d %F{1} %L> %m %n
log4perl.category.Bar.Twix = WARN, Logfile, Screen
log4perl.appender.Logfile = Log::Log4perl::Appender::File
log4perl.appender.Logfile.filename = test.log
log4perl.appender.Logfile.layout = ${layout_class}
log4perl.appender.Logfile.layout.ConversionPattern = ${layout_pattern}
log4perl.appender.Screen = Log::Log4perl::Appender::Screen
log4perl.appender.Screen.layout = ${layout_class}
log4perl.appender.Screen.layout.ConversionPattern = ${layout_pattern}
This is a convenient way to define two appenders with the same layout
without having to retype the pattern definitions.
Variable substitution via "${varname}" will first try to find an
explicitly defined variable. If that fails, it will check your shell's
environment for a variable of that name. If that also fails, the program
will "die()".
Perl Hooks in the Configuration File
If some of the values used in the Log4perl configuration file need to be
dynamically modified by the program, use Perl hooks:
log4perl.appender.File.filename = \
sub { return getLogfileName(); }
Each value starting with the string "sub {..." is interpreted as Perl
code to be executed at the time the application parses the configuration
via "Log::Log4perl::init()". The return value of the subroutine is used
by Log::Log4perl as the configuration value.
The Perl code is executed in the "main" package, functions in other
packages have to be called in fully-qualified notation.
Here's another example, utilizing an environment variable as a username
for a DBI appender:
log4perl.appender.DB.username = \
sub { $ENV{DB_USER_NAME } }
However, please note the difference between these code snippets and
those used for user-defined conversion specifiers as discussed in
Log::Log4perl::Layout::PatternLayout: While the snippets above are run
*once* when "Log::Log4perl::init()" is called, the conversion specifier
snippets are executed *each time* a message is rendered according to the
PatternLayout.
SECURITY NOTE: this feature means arbitrary perl code can be embedded in
the config file. In the rare case where the people who have access to
your config file are different from the people who write your code and
shouldn't have execute rights, you might want to set
Log::Log4perl::Config->allow_code(0);
before you call init(). Alternatively you can supply a restricted set of
Perl opcodes that can be embedded in the config file as described in
"Restricting what Opcodes can be in a Perl Hook".
Restricting what Opcodes can be in a Perl Hook
The value you pass to Log::Log4perl::Config->allow_code() determines
whether the code that is embedded in the config file is eval'd
unrestricted, or eval'd in a Safe compartment. By default, a value of
'1' is assumed, which does a normal 'eval' without any restrictions. A
value of '0' however prevents any embedded code from being evaluated.
If you would like fine-grained control over what can and cannot be
included in embedded code, then please utilize the following methods:
Log::Log4perl::Config->allow_code( $allow );
Log::Log4perl::Config->allowed_code_ops($op1, $op2, ... );
Log::Log4perl::Config->vars_shared_with_safe_compartment( [ \%vars | $package, \@vars ] );
Log::Log4perl::Config->allowed_code_ops_convenience_map( [ \%map | $name, \@mask ] );
Log::Log4perl::Config->allowed_code_ops() takes a list of opcode masks
that are allowed to run in the compartment. The opcode masks must be
specified as described in Opcode:
Log::Log4perl::Config->allowed_code_ops(':subprocess');
This example would allow Perl operations like backticks, system, fork,
and waitpid to be executed in the compartment. Of course, you probably
don't want to use this mask -- it would allow exactly what the Safe
compartment is designed to prevent.
Log::Log4perl::Config->vars_shared_with_safe_compartment() takes the
symbols which should be exported into the Safe compartment before the
code is evaluated. The keys of this hash are the package names that the
symbols are in, and the values are array references to the literal
symbol names. For convenience, the default settings export the '%ENV'
hash from the 'main' package into the compartment:
Log::Log4perl::Config->vars_shared_with_safe_compartment(
main => [ '%ENV' ],
);
Log::Log4perl::Config->allowed_code_ops_convenience_map() is an accessor
method to a map of convenience names to opcode masks. At present, the
following convenience names are defined:
safe = [ ':browse' ]
restrictive = [ ':default' ]
For convenience, if Log::Log4perl::Config->allow_code() is called with a
value which is a key of the map previously defined with
Log::Log4perl::Config->allowed_code_ops_convenience_map(), then the
allowed opcodes are set according to the value defined in the map. If
this is confusing, consider the following:
use Log::Log4perl;
my $config = <<'END';
log4perl.logger = INFO, Main
log4perl.appender.Main = Log::Log4perl::Appender::File
log4perl.appender.Main.filename = \
sub { "example" . getpwuid($<) . ".log" }
log4perl.appender.Main.layout = Log::Log4perl::Layout::SimpleLayout
END
$Log::Log4perl::Config->allow_code('restrictive');
Log::Log4perl->init( \$config ); # will fail
$Log::Log4perl::Config->allow_code('safe');
Log::Log4perl->init( \$config ); # will succeed
The reason that the first call to ->init() fails is because the
'restrictive' name maps to an opcode mask of ':default'. getpwuid() is
not part of ':default', so ->init() fails. The 'safe' name maps to an
opcode mask of ':browse', which allows getpwuid() to run, so ->init()
succeeds.
allowed_code_ops_convenience_map() can be invoked in several ways:
allowed_code_ops_convenience_map()
Returns the entire convenience name map as a hash reference in
scalar context or a hash in list context.
allowed_code_ops_convenience_map( \%map )
Replaces the entire convenience name map with the supplied hash
reference.
allowed_code_ops_convenience_map( $name )
Returns the opcode mask for the given convenience name, or undef if
no such name is defined in the map.
allowed_code_ops_convenience_map( $name, \@mask )
Adds the given name/mask pair to the convenience name map. If the
name already exists in the map, it's value is replaced with the new
mask.
as can vars_shared_with_safe_compartment():
vars_shared_with_safe_compartment()
Return the entire map of packages to variables as a hash reference
in scalar context or a hash in list context.
vars_shared_with_safe_compartment( \%packages )
Replaces the entire map of packages to variables with the supplied
hash reference.
vars_shared_with_safe_compartment( $package )
Returns the arrayref of variables to be shared for a specific
package.
vars_shared_with_safe_compartment( $package, \@vars )
Adds the given package / varlist pair to the map. If the package
already exists in the map, it's value is replaced with the new
arrayref of variable names.
For more information on opcodes and Safe Compartments, see Opcode and
Safe.
Changing the Log Level on a Logger
Log4perl provides some internal functions for quickly adjusting the log
level from within a running Perl program.
Now, some people might argue that you should adjust your levels from
within an external Log4perl configuration file, but Log4perl is
everybody's darling.
Typically run-time adjusting of levels is done at the beginning, or in
response to some external input (like a "more logging" runtime command
for diagnostics).
You get the log level from a logger object with:
$current_level = $logger->level();
and you may set it with the same method, provided you first imported the
log level constants, with:
use Log::Log4perl::Level;
Then you can set the level on a logger to one of the constants,
$logger->level($ERROR); # one of DEBUG, INFO, WARN, ERROR, FATAL
To increase the level of logging currently being done, use:
$logger->more_logging($delta);
and to decrease it, use:
$logger->less_logging($delta);
$delta must be a positive integer (for now, we may fix this later ;).
There are also two equivalent functions:
$logger->inc_level($delta);
$logger->dec_level($delta);
They're included to allow you a choice in readability. Some folks will
prefer more/less_logging, as they're fairly clear in what they do, and
allow the programmer not to worry too much about what a Level is and
whether a higher level means more or less logging. However, other folks
who do understand and have lots of code that deals with levels will
probably prefer the inc_level() and dec_level() methods as they want to
work with Levels and not worry about whether that means more or less
logging. :)
That diatribe aside, typically you'll use more_logging() or inc_level()
as such:
my $v = 0; # default level of verbosity.
GetOptions("v+" => \$v, ...);
if( $v ) {
$logger->more_logging($v); # inc logging level once for each -v in ARGV
}
Custom Log Levels
First off, let me tell you that creating custom levels is heavily
deprecated by the log4j folks. Indeed, instead of creating additional
levels on top of the predefined DEBUG, INFO, WARN, ERROR and FATAL, you
should use categories to control the amount of logging smartly, based on
the location of the log-active code in the system.
Nevertheless, Log4perl provides a nice way to create custom levels via
the create_custom_level() routine function. However, this must be done
before the first call to init() or get_logger(). Say you want to create
a NOTIFY logging level that comes after WARN (and thus before INFO).
You'd do such as follows:
use Log::Log4perl;
use Log::Log4perl::Level;
Log::Log4perl::Logger::create_custom_level("NOTIFY", "WARN");
And that's it! "create_custom_level()" creates the following functions /
variables for level FOO:
$FOO_INT # integer to use in L4p::Level::to_level()
$logger->foo() # log function to log if level = FOO
$logger->is_foo() # true if current level is >= FOO
These levels can also be used in your config file, but note that your
config file probably won't be portable to another log4perl or log4j
environment unless you've made the appropriate mods there too.
Since Log4perl translates log levels to syslog and Log::Dispatch if
their appenders are used, you may add mappings for custom levels as
well:
Log::Log4perl::Level::add_priority("NOTIFY", "WARN",
$syslog_equiv, $log_dispatch_level);
For example, if your new custom "NOTIFY" level is supposed to map to
syslog level 2 ("LOG_NOTICE") and Log::Dispatch level 2 ("notice"), use:
Log::Log4perl::Logger::create_custom_level("NOTIFY", "WARN", 2, 2);
System-wide log levels
As a fairly drastic measure to decrease (or increase) the logging level
all over the system with one single configuration option, use the
"threshold" keyword in the Log4perl configuration file:
log4perl.threshold = ERROR
sets the system-wide (or hierarchy-wide according to the log4j
documentation) to ERROR and therefore deprives every logger in the
system of the right to log lower-prio messages.
Easy Mode
For teaching purposes (especially for [1]), I've put ":easy" mode into
"Log::Log4perl", which just initializes a single root logger with a
defined priority and a screen appender including some nice standard
layout:
### Initialization Section
use Log::Log4perl qw(:easy);
Log::Log4perl->easy_init($ERROR); # Set priority of root logger to ERROR
### Application Section
my $logger = get_logger();
$logger->fatal("This will get logged.");
$logger->debug("This won't.");
This will dump something like
2002/08/04 11:43:09 ERROR> script.pl:16 main::function - This will get logged.
to the screen. While this has been proven to work well familiarizing
people with "Log::Logperl" slowly, effectively avoiding to clobber them
over the head with a plethora of different knobs to fiddle with
(categories, appenders, levels, layout), the overall mission of
"Log::Log4perl" is to let people use categories right from the start to
get used to the concept. So, let's keep this one fairly hidden in the
man page (congrats on reading this far :).
Stealth loggers
Sometimes, people are lazy. If you're whipping up a 50-line script and
want the comfort of Log::Log4perl without having the burden of carrying
a separate log4perl.conf file or a 5-liner defining that you want to
append your log statements to a file, you can use the following
features:
use Log::Log4perl qw(:easy);
Log::Log4perl->easy_init( { level => $DEBUG,
file => ">>test.log" } );
# Logs to test.log via stealth logger
DEBUG("Debug this!");
INFO("Info this!");
WARN("Warn this!");
ERROR("Error this!");
some_function();
sub some_function {
# Same here
FATAL("Fatal this!");
}
In ":easy" mode, "Log::Log4perl" will instantiate a *stealth logger* and
introduce the convenience functions "TRACE", "DEBUG()", "INFO()",
"WARN()", "ERROR()", "FATAL()", and "ALWAYS" into the package namespace.
These functions simply take messages as arguments and forward them to
the stealth loggers methods ("debug()", "info()", and so on).
If a message should never be blocked, regardless of the log level, use
the "ALWAYS" function which corresponds to a log level of "OFF":
ALWAYS "This will be printed regardless of the log level";
The "easy_init" method can be called with a single level value to create
a STDERR appender and a root logger as in
Log::Log4perl->easy_init($DEBUG);
or, as shown below (and in the example above) with a reference to a
hash, specifying values for "level" (the logger's priority), "file" (the
appender's data sink), "category" (the logger's category and "layout"
for the appender's pattern layout specification. All key-value pairs are
optional, they default to $DEBUG for "level", "STDERR" for "file", ""
(root category) for "category" and "%d %m%n" for "layout":
Log::Log4perl->easy_init( { level => $DEBUG,
file => ">test.log",
utf8 => 1,
category => "Bar::Twix",
layout => '%F{1}-%L-%M: %m%n' } );
The "file" parameter takes file names preceded by ">" (overwrite) and
">>" (append) as arguments. This will cause
"Log::Log4perl::Appender::File" appenders to be created behind the
scenes. Also the keywords "STDOUT" and "STDERR" (no ">" or ">>") are
recognized, which will utilize and configure
"Log::Log4perl::Appender::Screen" appropriately. The "utf8" flag, if set
to a true value, runs a "binmode" command on the file handle to
establish a utf8 line discipline on the file, otherwise you'll get a
'wide character in print' warning message and probably not what you'd
expect as output.
The stealth loggers can be used in different packages, you just need to
make sure you're calling the "use" function in every package you're
using "Log::Log4perl"'s easy services:
package Bar::Twix;
use Log::Log4perl qw(:easy);
sub eat { DEBUG("Twix mjam"); }
package Bar::Mars;
use Log::Log4perl qw(:easy);
sub eat { INFO("Mars mjam"); }
package main;
use Log::Log4perl qw(:easy);
Log::Log4perl->easy_init( { level => $DEBUG,
file => ">>test.log",
category => "Bar::Twix",
layout => '%F{1}-%L-%M: %m%n' },
{ level => $DEBUG,
file => "STDOUT",
category => "Bar::Mars",
layout => '%m%n' },
);
Bar::Twix::eat();
Bar::Mars::eat();
As shown above, "easy_init()" will take any number of different logger
definitions as hash references.
Also, stealth loggers feature the functions "LOGWARN()", "LOGDIE()", and
"LOGEXIT()", combining a logging request with a subsequent Perl warn()
or die() or exit() statement. So, for example
if($all_is_lost) {
LOGDIE("Terrible Problem");
}
will log the message if the package's logger is at least "FATAL" but
"die()" (including the traditional output to STDERR) in any case
afterwards.
See "Log and die or warn" for the similar "logdie()" and "logwarn()"
functions of regular (i.e non-stealth) loggers.
Similarily, "LOGCARP()", "LOGCLUCK()", "LOGCROAK()", and "LOGCONFESS()"
are provided in ":easy" mode, facilitating the use of "logcarp()",
"logcluck()", "logcroak()", and "logconfess()" with stealth loggers.
When using Log::Log4perl in easy mode, please make sure you understand
the implications of "Pitfalls with Categories".
By the way, these convenience functions perform exactly as fast as the
standard Log::Log4perl logger methods, there's *no* performance penalty
whatsoever.
Nested Diagnostic Context (NDC)
If you find that your application could use a global (thread-specific)
data stack which your loggers throughout the system have easy access to,
use Nested Diagnostic Contexts (NDCs). Also check out "Mapped Diagnostic
Context (MDC)", this might turn out to be even more useful.
For example, when handling a request of a web client, it's probably
useful to have the user's IP address available in all log statements
within code dealing with this particular request. Instead of passing
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