package Log::Dispatch::FileRotate;
require 5.005;
use strict;
use Log::Dispatch::Output;
use base qw( Log::Dispatch::Output );
use Log::Dispatch::File; # We are a wrapper around Log::Dispatch::File
use Date::Manip; # For time based recurring rotations
use File::Spec; # For file-names
use Params::Validate qw(validate SCALAR BOOLEAN);
Params::Validate::validation_options( allow_extra => 1 );
use vars qw[ $VERSION ];
$VERSION = sprintf "%d.%02d", q$Revision: 1.16 $ =~ /: (\d+)\.(\d+)/;
sub new
{
my $proto = shift;
my $class = ref $proto || $proto;
my %p = @_;
my $self = bless {}, $class;
$self->{'debug'} = 0;
$self->_basic_init(%p);
$self->{'LDF'} = Log::Dispatch::File->new(%p); # Our log
# Keep a copy of interesting stuff as well
$self->{params} = \%p;
# Turn ON/OFF debugging as required
$p{'DEBUG'} ? $self->debug(1) : $self->debug(0);
# Size defaults to 10meg in all failure modes, hopefully
my $ten_meg = 1024*1024*10;
my $two_gig = 1024*1024*1024*2;
my $size = $ten_meg;
$size = $p{size} if defined $p{size};
$size = $ten_meg unless $size =~ /^\d+$/ && $size < $two_gig && $size > 0;
$self->{size} = $size;
# Max number of files defaults to 1. No limit enforced here. Only
# positive whole numbers allowed
$self->{max} = $p{max};
$self->{max} = 1 unless $self->{max} =~ /^\d+$/ && $self->{max} ;
# Get a name for our Lock file
my $name = $self->{params}->{filename};
my ($vol, $dir, $f) = File::Spec->splitpath($name);
$dir = '.' unless $dir;
$f = $name unless $f;
my $lockfile = File::Spec->catpath($vol, $dir, ".".$f.".LCK");
warn "Lock file is $lockfile\n" if $self->{'debug'};
$self->{'lf'} = $lockfile;
# Have we been called with a time based rotation pattern then setup
# timebased stuff. TZ is important and must match current TZ or all
# bets are off!
if(defined $p{'TZ'})
{
Date_Init("TZ=".$p{'TZ'}); # EADT or EAST when not in daylight savings
}
if(defined $p{'DatePattern'})
{
$self->setDatePattern($p{'DatePattern'});
}
# Flag this as first creation point
$self->{'new'} = 1;
return $self;
}
###########################################################################
#
# Subroutine setDatePattern
#
# Args: a single string or ArrayRef of strings
#
# Rtns: Nothing
#
# Description:
# Set a recurrance for file rotation. We accept Date::Manip
# recurrances and the log4j/DailyRollingFileAppender patterns
#
# Date:Manip =>
# 0:0:0:0:5:30:0 every 5 hours and 30 minutes
# 0:0:0:2*12:30:0 every 2 days at 12:30 (each day)
# 3*1:0:2:12:0:0 every 3 years on Jan 2 at noon
#
# DailyRollingFileAppender =>
# yyyy-MM
# yyyy-ww
# yyyy-MM-dd
# yyyy-MM-dd-a
# yyyy-MM-dd-HH
# yyyy-MM-dd-HH-MM
#
# To specify multiple recurances in a single string seperate them with a
# comma: yyyy-MM-dd,0:0:0:2*12:30:0
#
sub setDatePattern
{
my $self = shift; # My object
my($arg) = shift;
local($_); # Don't crap on $_
my @pats = ();
my %lookup = (
# Y:M:W:D:H:M:S
'yyyy-mm' => '0:1*0:1:0:0:0', # Every Month
'yyyy-ww' => '0:0:1*0:0:0:0', # Every week
'yyyy-dd' => '0:0:0:1*0:0:0', # Every day
'yyyy-mm-dd' => '0:0:0:1*0:0:0', # Every day
'yyyy-dd-a' => '0:0:0:1*12:0:0', # Every day 12noon
'yyyy-mm-dd-a' => '0:0:0:1*12:0:0', # Every day 12noon
'yyyy-dd-hh' => '0:0:0:0:1*0:0', # Every hour
'yyyy-mm-dd-hh' => '0:0:0:0:1*0:0', # Every hour
'yyyy-dd-hh-mm' => '0:0:0:0:0:1*0', # Every minute
'yyyy-mm-dd-hh-mm' => '0:0:0:0:0:1*0', # Every minute
);
# Convert arg to array
if( ref($arg) eq 'ARRAY' )
{
@pats = @$arg;
}
elsif( !ref($arg) )
{
$arg =~ s/\s+//go;
@pats = split(/;/,$arg);
}
else
{
die "Bad reference type argument ".ref($arg);
}
# Handle (possibly multiple) recurrances
foreach my $pat (@pats)
{
# Convert any log4j patterns across
if($pat =~ /^yyyy/i) # Then log4j style
{
$pat = lc($pat); # Use lowercase lookup
# Default to daily on bad pattern
unless(grep($pat eq $_,keys %lookup))
{
warn "Bad Rotation pattern ($pat) using yyyy-dd\n";
$pat = 'yyyy-dd';
}
$pat = $lookup{$pat};
}
my $abs = $self->_get_next_occurance($pat);
warn "Adding [dates,pat] =>[$abs,$pat]\n" if $self->{debug};
my $ref = [$abs, $pat];
push(@{$self->{'recurrance'}}, $ref);
}
}
sub log_message
{
my $self = shift;
my %p = @_;
my $max_size = $self->{size};
my $numfiles = $self->{max};
my $name = $self->{params}->{filename};
my $fh = $self->{LDF}->{fh};
# Prime our time based data outside the critical code area
my ($in_time_mode,$time_to_rotate) = $self->time_to_rotate();
# Handle critical code for logging. No changes if someone else is in
if( !$self->lfhlock_test() )
{
warn "$$ waiting on lock\n" if $self->{debug};
unless($self->lfhlock())
{
warn "$$ failed to get lock. returning\n" if $self->{debug};
return;
}
warn "$$ got lock after wait\n" if $self->{debug};
}
my $size = (stat($fh))[7]; # Stat the handle to get real size
my $inode = (stat($fh))[1]; # get real inode
my $finode = (stat($name))[1]; # Stat the name for comparision
warn localtime()." $$ s=$size, i=$inode, f=$finode, n=$name\n" if $self->{debug};
# If finode and inode are the same then nobody has done a rename
# under us and we can continue. Otherwise just close and reopen.
# Time mode overrides Size mode
if(!defined($finode) || $inode != $finode)
{
# Oops someone moved things on us. So just reopen our log
delete $self->{LDF}; # Should get rid of current LDF
$self->{LDF} = Log::Dispatch::File->new(%{$self->{params}}); # Our log
warn localtime()." $$ Someone else rotated: normal log\n" if $self->{debug};
$self->logit($p{message});
}
elsif($in_time_mode && !$time_to_rotate)
{
warn localtime()." $$ In time mode: normal log\n" if $self->{debug};
$self->logit($p{message});
}
elsif(!$in_time_mode && defined($size) && $size < $max_size )
{
warn localtime()." $$ In size mode: normal log\n" if $self->{debug};
$self->logit($p{message});
}
# Need to rotate
elsif(($in_time_mode && $time_to_rotate) ||
(!$in_time_mode && $size)
)
{
# Shut down the log
delete $self->{LDF}; # Should get rid of current LDF
my $idx = $numfiles -1;
warn localtime() . " $$ Rotating\n" if $self->{debug};
while($idx >= 0)
{
if($idx <= 0)
{
warn "$$ rename $name $name.1\n" if $self->{debug};
rename($name, "$name.1");
}
else
{
warn "$$ rename $name.$idx $name.".($idx+1)."\n" if $self->{debug};
rename("$name.$idx", "$name.".($idx+1));
}
$idx--;
}
warn localtime() . " $$ Rotating Done\n" if $self->{debug};
# reopen the logfile for writing.
$self->{LDF} = Log::Dispatch::File->new(%{$self->{params}}); # Our log
# Write it out
warn localtime()." $$ rotated: normal log\n" if $self->{debug};
$self->logit($p{message});
}
#else size is zero :-} just don't do anything!
$self->lfhunlock();
}
sub DESTROY
{
my $self = shift;
if ( $self->{LDF} )
{
delete $self->{LDF}; # Should get rid of current LDF
}
# Clean up locks
close $self->{lfh} if $self->{lfh};
unlink $self->{lf} if -f $self->{lf};
}
sub logit
{
my $self = $_[0];
$self->lock();
$self->{LDF}->log_message(message => $_[1]);
$self->unlock();
return;
}
###########################################################################
#
# Subroutine time_to_rotate
#
# Args: none
#
# Rtns: (1,n) if we are in time mode and its time to rotate
# n defines the number of timers that expired
# (1,0) if we are in time mode but not ready to rotate
# (0,0) otherwise
#
# Description:
# time_to_rotate - update internal clocks and return status as
# defined above
#
# If we have just been created then the first recurrance is an indication
# to check against the log file.
#
#
# my ($in_time_mode,$time_to_rotate) = $self->time_to_rotate();
sub time_to_rotate
{
my $self = shift; # My object
my $mode = defined($self->{'recurrance'});
my $rotate = 0;
if($mode)
{
# Then do some checking and update ourselves if we think we need
# to rotate. Wether we rotate or not is up to our caller. We
# assume they know what they are doing!
# Only stat the log file here if we are in our first invocation.
my $ftime = 0;
if($self->{'new'})
{
# Last time the log file was changed
$ftime = (stat($self->{LDF}{fh}))[9];
# In Date::Manip format
# $ftime = ParseDate(scalar(localtime($ftime)));
}
# Check need for rotation. Loop through our recurrances looking
# for expiration times. Any we find that have expired we update.
my $tm = time();
my @recur = @{$self->{'recurrance'}};
@{$self->{'recurrance'}} = ();
for my $rec (@recur)
{
my ($abs,$pat) = @$rec;
# Extra checking
unless(defined $abs && $abs)
{
warn "Bad time found for recurrance pattern $pat: $abs\n";
next;
}
my $dorotate = 0;
# If this is first time through
if($self->{'new'})
{
# If it needs a rotate then flag it
if($ftime <= $abs)
{
# Then we need to rotate
warn "Need rotate file($ftime) <= $abs\n" if $self->{debug};
$rotate++;
$dorotate++; # Just for debugging
}
# Move to next occurance regardless
warn "Dropping initial occurance($abs)\n" if $self->{debug};
$abs = $self->_get_next_occurance($pat);
unless(defined $abs && $abs)
{
warn "Next occurance is null for $pat\n";
$abs = 0;
}
}
# Elsif it is time to rotate
#elsif(Date_Cmp($abs,$tm) <= 0)
elsif($abs <= $tm)
{
# Then we need to rotate
warn "Need rotate $abs <= $tm\n" if $self->{debug};
$abs = $self->_get_next_occurance($pat);
unless(defined $abs && $abs)
{
warn "Next occurance is null for $pat\n";
$abs = 0;
}
$rotate++;
$dorotate++; # Just for debugging
}
push(@{$self->{'recurrance'}},[$abs,$pat]) if $abs;
warn "time_to_rotate(mode,rotate,next) => ($mode,$dorotate,$abs)\n" if $self->{debug};
}
}
$self->{'new'} = 0; # No longer brand-spankers
warn "time_to_rotate(mode,rotate) => ($mode,$rotate)\n" if $self->{debug};
return wantarray ? ($mode,$rotate) : $rotate;
}
###########################################################################
#
# Subroutine _gen_occurance
#
# Args: Date::Manip occurance pattern
#
# Rtns: array of dates for next few events
#
# If asked we will return an inital occurance that is before the current
# time. This can be used to see if we need to rotate on start up. We are
# often called by CGI (short lived) proggies :-(
#
sub _gen_occurance
{
my $self = shift; # My object
my $pat = shift;
# Do we return an initial occurance before the current time?
my $initial = shift || 0;
my $range = '';
my $base = 'now'; # default to calcs based on the current time
if($pat =~ /^0:0:0:0:0/) # Small recurrance less than 1 hour
{
$range = "4 hours later";
$base = "1 hours ago" if $initial;
}
elsif($pat =~ /^0:0:0:0/) # recurrance less than 1 day
{
$range = "4 days later";
$base = "1 days ago" if $initial;
}
elsif($pat =~ /^0:0:0:/) # recurrance less than 1 week
{
$range = "4 weeks later";
$base = "1 weeks ago" if $initial;
}
elsif($pat =~ /^0:0:/) # recurrance less than 1 month
{
$range = "4 months later";
$base = "1 months ago" if $initial;
}
elsif($pat =~ /^0:/) # recurrance less than 1 year
{
$range = "24 months later";
$base = "24 months ago" if $initial;
}
else # years
{
my($yrs) = $pat =~ m/^(\d+):/;
$yrs = 1 unless $yrs;
my $months = $yrs * 4 * 12;
$range = "$months months later";
$base = "$months months ago" if $initial;
}
# The next date must start at least 1 second away from now other wise
# we may rotate for every message we recieve with in this second :-(
my $start = DateCalc($base,"+ 1 second");
warn "ParseRecur($pat,$base,$start,$range);\n" if $self->{debug};
my @dates = ParseRecur($pat,$base,$start,$range);
# Just in case we have a bad parse or our assumptions are wrong.
# We default to days
unless(scalar @dates >= 2)
{
warn "Failed to parse ($pat). Going daily\n";
@dates = ParseRecur('0:0:0:1*0:0:0',"now","now","1 months later");
if($initial)
{
@dates = ParseRecur('0:0:0:1*0:0:0',"2 days ago","2 days ago","1 months later");
}
}
# Convert the dates to seconds since the epoch so we can use
# numerical comparision instead of textual
my @epochs = ();
foreach(@dates)
{
my($y,$m,$d,$h,$mn,$s) = Date::Manip::Date_Split($_, 1);
my $e = Date_SecsSince1970GMT($m,$d,$y,$h,$mn,$s);
if( $self->{debug} )
{
warn "Date to epochs ($_) => ($e)\n";
}
push @epochs, $e;
}
# Clean out all but the one previous to now if we are doing an
# initial occurance
my $now = time();
if($initial)
{
my $before = '';
while(@epochs && ( $epochs[0] <= $now) )
{
$before = shift(@epochs);
#warn "Shifting $before\n";
}
#warn "Unshifting $before\n";
unshift(@epochs,$before) if $before;
}
else
{
# Clean out dates that occur before now, being careful not to loop
# forever (thanks James).
shift(@epochs) while @epochs && ( $epochs[0] <= $now);
}
if($self->{debug})
{
warn "Recurrances are at: ".join("\n\t", @dates),"\n";
}
warn "No recurrances found! Probably a timezone issue!\n" unless @dates;
return @epochs;
}
###########################################################################
#
# Subroutine _get_next_occurance
#
# Args: Date::Manip occurance pattern
#
# Rtns: date
#
# We don't want to call Date::Manip::ParseRecur too often as it is very
# expensive. So, we cache what is returned from _gen_occurance().
sub _get_next_occurance
{
my $self = shift; # My object
my $pat = shift;
# If this is first time then generate some new ones including one
# before our time to test against the log file
if(!defined $self->{'dates'}{$pat})
{
@{$self->{'dates'}{$pat}} = $self->_gen_occurance($pat,1);
}
# Elsif close to the end of what we have
elsif( scalar(@{$self->{'dates'}{$pat}}) < 2)
{
@{$self->{'dates'}{$pat}} = $self->_gen_occurance($pat);
}
return( shift(@{$self->{'dates'}{$pat}}) );
}
# Lock and unlock routines. For when we need to write a message.
use Fcntl ':flock'; # import LOCK_* constants
sub lock
{
my $self = shift;
flock($self->{LDF}->{fh},LOCK_EX);
# Make sure we are at the EOF
seek($self->{LDF}->{fh}, 0, 2);
warn localtime() ." $$ Locked\n" if $self->{debug};
return;
}
sub unlock
{
my $self = shift;
flock($self->{LDF}->{fh},LOCK_UN);
warn localtime() . " $$ unLocked\n" if $self->{debug};
}
# Lock and unlock routines. For when we need to roll the logs.
#
# Note: On May 1, Dan Waldheim's good news was:
# I discovered something interesting about forked processes and locking.
# If the parent "open"s the filehandle and then forks, exclusive locks
# don't work properly between the parent and children. Anyone can grab a
# lock while someone else thinks they have it. To work properly the
# "open" has to be done within each process.
#
# Thanks Dan
sub lfhlock_test
{
my $self = shift;
if (open(LFH, ">>$self->{lf}"))
{
$self->{lfh} = *LFH;
if (flock($self->{lfh}, LOCK_EX | LOCK_NB))
{
warn "$$ got lock on Lock File ".$self->{lfh}."\n" if $self->{debug};
return 1;
}
}
else
{
$self->{lfh} = 0;
warn "$$ couldn't get lock on Lock File\n" if $self->{debug};
return 0;
}
}
sub lfhlock
{
my $self = shift;
if (!$self->{lfh})
{
if (!open(LFH, ">>$self->{lf}"))
{
return 0;
}
$self->{lfh} = *LFH;
}
flock($self->{lfh},LOCK_EX);
}
sub lfhunlock
{
my $self = shift;
if($self->{lfh})
{
flock($self->{lfh},LOCK_UN);
close $self->{lfh};
$self->{lfh} = 0;
}
}
sub debug
{
$_[0]->{'debug'} = $_[1];
}
__END__
=head1 NAME
Log::Dispatch::FileRotate - Log to files that archive/rotate themselves
=head1 SYNOPSIS
use Log::Dispatch::FileRotate;
my $file = Log::Dispatch::FileRotate->new( name => 'file1',
min_level => 'info',
filename => 'Somefile.log',
mode => 'append' ,
size => 10,
max => 6,
);
# or for a time based rotation
my $file = Log::Dispatch::FileRotate->new( name => 'file1',
min_level => 'info',
filename => 'Somefile.log',
mode => 'append' ,
TZ => 'AEDT',
DatePattern => 'yyyy-dd-HH',
);
$file->log( level => 'info', message => "your comment\n" );
=head1 DESCRIPTION
This module provides a simple object for logging to files under the
Log::Dispatch::* system, and automatically rotating them according to
different constraints. This is basically a Log::Dispatch::File wrapper
with additions. To that end the arguments
name, min_level, filename and mode
behave the same as Log::Dispatch::File. So see its man page
(perldoc Log::Dispatch::File)
The arguments size and max specify the maximum size and maximum
number of log files created. The size defaults to 10M and the max number
of files defaults to 1. If DatePattern is not defined then we default to
working in size mode. That is, use size values for deciding when to rotate.
Once DatePattern is defined FileRotate will move into time mode. Once
this happens file rotation ignores size constraints and uses the defined
date pattern constraints.
If you setup a config file using Log::Log4perl::init_and_watch() or the
like, you can switch between modes just by commenting out the DatePattern
line.
When using DatePattern make sure TZ is defined correctly and that the TZ
you use is understood by Date::Manip. We use Date::Manip to generate our
recurrences. Bad TZ equals bad recurrences equals surprises! Read the
Date::Manip man page for more details on TZ.
DatePattern will default to a daily rotate if your entered pattern is
incorrect. You will also get a warning message.
If you have multiple writers that were started at different times you
will find each writer will try to rotate the log file at a recurrence
calculated from its start time. To sync all the writers just use a config
file and update it after starting your last writer. This will cause
Log::Dispatch::FileRotate->new() to be called by each of the writers
close to the same time, and if your recurrences aren't too close together
all should sync up just nicely.
I initially aasumed a long runinng process but it seems people are using
this module as part of short running CGI programs. So, now we look at the
last modified time stamp of the log file and compare it to a previous
occurance of a DatePattern, on startup only. If the file stat shows
the mtime to be earlier than the previous recurrance then I rotate the
log file.
We handle multiple writers using flock().
=head1 DatePattern
As I said earlier we use Date::Manip for generating our recurrence
events. This means we can understand Date::Manip's recurrence patterns
and the normal log4j DatePatterns. We don't use DatePattern to define the
extension of the log file though.
DatePattern can therefore take forms like:
Date::Manip style
0:0:0:0:5:30:0 every 5 hours and 30 minutes
0:0:0:2*12:30:0 every 2 days at 12:30 (each day)
3*1:0:2:12:0:0 every 3 years on Jan 2 at noon
DailyRollingFileAppender log4j style
yyyy-MM every month
yyyy-ww every week
yyyy-MM-dd every day
yyyy-MM-dd-a every day at noon
yyyy-MM-dd-HH every hour
yyyy-MM-dd-HH-MM every minute
To specify multiple recurrences in a single string separate them with a
semicolon:
yyyy-MM-dd; 0:0:0:2*12:30:0
This says we want to rotate every day AND every 2 days at 12:30. Put in
as many as you like.
A complete description of Date::Manip recurrences is beyond us here
except to quote (from the man page):
A recur description is a string of the format
Y:M:W:D:H:MN:S . Exactly one of the colons may
optionally be replaced by an asterisk, or an asterisk
may be prepended to the string.
Any value "N" to the left of the asterisk refers to
the "Nth" one. Any value to the right of the asterisk
refers to a value as it appears on a calendar/clock.
Values to the right can be listed a single values,
ranges (2 numbers separated by a dash "-"), or a comma
separated list of values or ranges. In a few cases,
negative values are appropriate.
This is best illustrated by example.
0:0:2:1:0:0:0 every 2 weeks and 1 day
0:0:0:0:5:30:0 every 5 hours and 30 minutes
0:0:0:2*12:30:0 every 2 days at 12:30 (each day)
3*1:0:2:12:0:0 every 3 years on Jan 2 at noon
0:1*0:2:12,14:0:0 2nd of every month at 12:00 and 14:00
1:0:0*45:0:0:0 45th day of every year
0:1*4:2:0:0:0 4th tuesday (day 2) of every month
0:1*-1:2:0:0:0 last tuesday of every month
0:1:0*-2:0:0:0 2nd to last day of every month
=head1 METHODS
=over 4
=item * new(%p)
This method takes a hash of parameters. The following options are
valid:
=item -- name ($)
The name of the object (not the filename!). Required.
=item -- size ($)
The maxium (or close to) size the log file can grow too.
=item -- max ($)
The maxium number of log files to create.
=item -- TZ ($)
The TimeZone time based calculations should be done in. This should match
Date::Manip's concept of timezones and of course your machines timezone.
Date::Manip will normally work everything out for you. Except in my case
where EST means Eastern Standard Time in Australia not the US! I had to
use AEST or EADT instead. Here is a list of Date::Manip's timezones
straight from its man page.
The following timezone names are currently understood (and
can be used in parsing dates). These are zones defined in
RFC 822.
Universal: GMT, UT
US zones : EST, EDT, CST, CDT, MST, MDT, PST, PDT
Military : A to Z (except J)
Other : +HHMM or -HHMM
ISO 8601 : +HH:MM, +HH, -HH:MM, -HH
In addition, the following timezone abbreviations are also
accepted.
IDLW -1200 International Date Line West
NT -1100 Nome
HST -1000 Hawaii Standard
CAT -1000 Central Alaska
AHST -1000 Alaska-Hawaii Standard
AKST -0900 Alaska Standard
YST -0900 Yukon Standard
HDT -0900 Hawaii Daylight
AKDT -0800 Alaska Daylight
YDT -0800 Yukon Daylight
PST -0800 Pacific Standard
PDT -0700 Pacific Daylight
MST -0700 Mountain Standard
MDT -0600 Mountain Daylight
CST -0600 Central Standard
CDT -0500 Central Daylight
EST -0500 Eastern Standard
SAT -0400 Chile
EDT -0400 Eastern Daylight
AST -0400 Atlantic Standard
ADT -0300 Atlantic Daylight
NDT -0230 Newfoundland Daylight
AT -0200 Azores
WAT -0100 West Africa
GMT +0000 Greenwich Mean
UT +0000 Universal (Coordinated)
UTC +0000 Universal (Coordinated)
WET +0000 Western European
WEST +0000 Alias for Western European
CET +0100 Central European
FWT +0100 French Winter
MET +0100 Middle European
MEZ +0100 Middle European
MEWT +0100 Middle European Winter
SWT +0100 Swedish Winter
BST +0100 British Summer bst=Brazil standard -0300
GB +0100 GMT with daylight savings
CEST +0200 Central European Summer
EET +0200 Eastern Europe, USSR Zone 1
FST +0200 French Summer
MEST +0200 Middle European Summer
MESZ +0200 Middle European Summer
METDST +0200 An alias for MEST used by HP-UX
SAST +0200 South African Standard
SST +0200 Swedish Summer sst=South Sumatra +0700
EEST +0300 Eastern Europe Summer
BT +0300 Baghdad, USSR Zone 2
MSK +0300 Moscow
IT +0330 Iran
ZP4 +0400 USSR Zone 3
MSD +0300 Moscow Daylight
ZP5 +0500 USSR Zone 4
IST +0530 Indian Standard
ZP6 +0600 USSR Zone 5
CCT +0800 China Coast, USSR Zone 7
AWST +0800 West Australian Standard
WST +0800 West Australian Standard
PHT +0800 Asia Manila
JST +0900 Japan Standard, USSR Zone 8
ROK +0900 Republic of Korea
CAST +0930 Central Australian Standard
EAST +1000 Eastern Australian Standard
GST +1000 Guam Standard, USSR Zone 9 gst=Greenland Std
CADT +1030 Central Australian Daylight
EADT +1100 Eastern Australian Daylight
IDLE +1200 International Date Line East
NZST +1200 New Zealand Standard
NZT +1200 New Zealand
NZDT +1300 New Zealand Daylight
=item -- DatePattern ($)
The DatePattern as defined above.
=item -- min_level ($)
The minimum logging level this object will accept. See the
Log::Dispatch documentation for more information. Required.
=item -- max_level ($)
The maximum logging level this obejct will accept. See the
Log::Dispatch documentation for more information. This is not
required. By default the maximum is the highest possible level (which
means functionally that the object has no maximum).
=item -- filename ($)
The filename to be opened for writing. This is the base name. Rotated log
files will be renamed filename.1 thru to filename.C<max>. Where max is the
paramater defined above.
=item -- mode ($)
The mode the file should be opened with. Valid options are 'write',
'>', 'append', '>>', or the relevant constants from Fcntl. The
default is 'write'.
=item -- autoflush ($)
Whether or not the file should be autoflushed. This defaults to true.
=item -- callbacks( \& or [ \&, \&, ... ] )
This parameter may be a single subroutine reference or an array
reference of subroutine references. These callbacks will be called in
the order they are given and passed a hash containing the following keys:
( message => $log_message, level => $log_level )
The callbacks are expected to modify the message and then return a
single scalar containing that modified message. These callbacks will
be called when either the C<log> or C<log_to> methods are called and
will only be applied to a given message once.
=item -- DEBUG ($)
Turn on lots of warning messages to STDERR about what this module is
doing if set to 1. Really only useful to me.
=item * log_message( message => $ )
Sends a message to the appropriate output. Generally this shouldn't
be called directly but should be called through the C<log()> method
(in Log::Dispatch::Output).
=item * setDatePattern( $ or [ $, $, ... ] )
Set a new suite of recurrances for file rotation. You can pass in a
single string or a reference to an array of strings. Multiple recurrences
can also be define within a single string by seperating them with a
semi-colon (;)
See the discussion above regarding the setDatePattern paramater for more
details.
=back
=head1 TODO
compression, signal based rotates, proper test suite
Could possibly use Logfile::Rotate as well/instead.
=head1 AUTHOR
Mark Pfeiffer, <markpf at mlp-consulting dot com dot au> inspired by
Dave Rolsky's, <autarch at urth dot org>, code :-)
Kevin Goess <cpan at goess dot org> suggested multiple writers should be
supported. He also conned me into doing the time based stuff.
Thanks Kevin! :-)
Thanks also to Dan Waldheim for helping with some of the
locking issues in a forked environment.
And thanks to Stephen Gordon for his more portable code on lockfile
naming.
=cut
=head1 Copyright
Copyright 2005-2006, Mark Pfeiffer
This code may be copied only under the terms of the Artistic License, or
GPL License which may be found in the Perl 5 source kit.
Use 'perldoc perlartistic' to see the Artistic License.
Use 'perldoc perlgpl' to see the GNU General Public License.
Complete documentation for Perl, including FAQ lists, should be found on
this system using `man perl' or `perldoc perl'. If you have access to the
Internet, point your browser at http://www.perl.org/, the Perl Home Page.
=cut
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