27 Jun 2019 13:12:46 UTC
- Distribution: File-Write-Rotate
- Module version: 0.321
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File::Write::Rotate - Write to files that archive/rotate themselves
This document describes version 0.321 of File::Write::Rotate (from Perl distribution File-Write-Rotate), released on 2019-06-27.
use File::Write::Rotate; my $fwr = File::Write::Rotate->new( dir => '/var/log', # required prefix => 'myapp', # required #suffix => '.log', # default is '' size => 25*1024*1024, # default is 10MB, unless period is set histories => 12, # default is 10 #buffer_size => 100, # default is none ); # write, will write to /var/log/myapp.log, automatically rotate old log files # to myapp.log.1 when myapp.log reaches 25MB. will keep old log files up to # myapp.log.12. $fwr->write("This is a line\n"); $fwr->write("This is", " another line\n");
To compressing old log files:
This is usually done in a separate process, because it potentially takes a long time if the files to compress are large; we are rotating automatically in write() so doing automatic compression too would annoyingly block writer for a potentially long time.
This module can be used to write to file, usually for logging, that can rotate itself. File will be opened in append mode. By default, locking will be done to avoid conflict when there are multiple writers. Rotation can be done by size (after a certain size is reached), by time (daily/monthly/yearly), or both.
I first wrote this module for logging script STDERR output to files (see Tie::Handle::FileWriteRotate).
Get or set buffer size. If set to a value larger than 0, then when a write() failed, instead of dying, the message will be stored in an internal buffer first (a regular Perl array). When the number of items in the buffer exceeds this size, then write() will die upon failure. Otherwise, every write() will try to flush the buffer.
Can be used for example when a program runs as superuser/root then temporarily drops privilege to a normal user. During this period, logging can fail because the program cannot lock the lock file or write to the logging directory. Before dropping privilege, the program can set buffer_size to some larger-than-zero value to hold the messages emitted during dropping privilege. The next write() as the superuser/root will succeed and flush the buffer to disk (provided there is no other error condition, of course).
Current file's path.
Current file handle. You should not use this directly, but use write() instead. This attribute is provided for special circumstances (e.g. in hooks, see example in the hook section).
Will be called by write() before actually writing to filehandle (but after locking is done). Code will be passed ($self, \@msgs, $fh) where @msgs is an array of strings to be written (the contents of buffer, if any, plus arguments passed to write()) and $fh is the filehandle.
Will be called by the rotating routine before actually doing rotating. Code will be passed ($self).
This can be used to write a footer to the end of each file, e.g.:
# hook_before_rotate my ($self) = @_; my $fh = $self->handle; print $fh "Some footer\n";
Since this hook is indirectly called by write(), locking is already done.
Will be called by the rotating routine after the rotating process. Code will be passed ($self, \@renamed, \@deleted) where @renamed is array of new filenames that have been renamed, @deleted is array of new filenames that have been deleted.
Will be called by after a new file is created. Code will be passed ($self).
This hook can be used to write a header to each file, e.g.:
# hook_after_create my ($self) = @_; my $fh $self->handle; print $fh "header\n";
Since this is called indirectly by write(), locking is also already done.
If set to "1", will cause the file handle to be set:
which might be necessary on some OS, e.g. Windows when writing binary data. Otherwise, other defined values will cause the file handle to be set:
binmode $fh, $value
which can be used to set PerlIO layer(s).
Create new object. Known arguments:
dir => STR (required)
Directory to put the files in.
prefix => STR (required)
Name of files. The files will be named like the following:
<period>will only be given if the
periodargument is set. If
periodis set to
YYYY(4-digit year). If
YYYY-MM(4-digit year and 2-digit month). If
YYYY-MM-DD(4-digit year, 2-digit month, and 2-digit day).
<rotate_suffix>is either empty string for current file; or
.2and so on for rotated files.
.1is the most recent rotated file,
.2is the next most recent, and so on.
An example, with
myapp # current file myapp.1 # most recently rotated myapp.2 # the next most recently rotated
myapp.2012-12.log # file name for december 2012 myapp.2013-01.log # file name for january 2013
Like previous, but additionally with
sizealso set (which will also rotate each period file if it exceeds specified size):
myapp.2012-12.log # file(s) for december 2012 myapp.2012-12.log.1 myapp.2012-12.log.2 myapp.2013-01.log # file(s) for january 2013
All times will use local time, so you probably want to set
TZenvironment variable or equivalent methods to set time zone.
suffix => STR (default: '')
Suffix to give to file names, usually file extension like
prefixfor more details.
If you use a yearly period, setting suffix is advised to avoid ambiguity with rotate suffix (for example, is
myapp.2012the current file for year 2012 or file with
size => INT (default: 10*1024*1024)
Maximum file size, in bytes, before rotation is triggered. The default is 10MB (10*1024*1024) if
periodis not set. If
periodis set, no default for
sizeis provided, which means files will not be rotated for size (only for period).
period => STR
Can be set to either
yearly. If set, will automatically rotate after period change. See
prefixfor more details.
histories => INT (default: 10)
Number of rotated files to keep. After the number of files exceeds this, the oldest one will be deleted. 0 means not to keep any history, 1 means to only keep
.1file, and so on.
buffer_size => INT (default: 0)
Set initial value of buffer. See the
buffer_sizeattribute for more information.
lock_mode => STR (default: 'write')
Can be set to either
nonedisables locking and increases write performance, but should only be used when there is only one writer.
writeacquires and holds the lock for each write.
exclusiveacquires the lock at object creation and holds it until the the object is destroyed.
Lock file is named
.lck. Will wait for up to 1 minute to acquire lock, will die if failed to acquire lock.
hook_before_write => CODE
hook_before_rotate => CODE
hook_after_rotate => CODE
hook_after_create => CODE
buffer_size => int
rotate_probability => float (between 0 < x < 1)
If set, instruct to only check for rotation under a certain probability, for example if value is set to 0.1 then will only check for rotation 10% of the time.
Returns a string representing the complete pathname to the lock file, based on
Write to file. Will automatically rotate file if period changes or file size exceeds specified limit. When rotating, will only keep a specified number of histories and delete the older ones.
Does not append newline so you'll have to do it yourself.
Compress old rotated files and remove the uncompressed originals. Currently uses IO::Compress::Gzip to do the compression. Extension given to compressed file is
Will not lock writers, but will create
-compress.pidPID file to prevent multiple compression processes running and to signal the writers to postpone rotation.
After compression is finished, will remove the PID file, so rotation can be done again on the next
Mainly convenience and low maintenance. You no longer need a separate rotator process like the Unix logrotate utility (which when accidentally disabled or misconfigured will cause your logs to stop being rotated and grow indefinitely).
Mainly (significant) performance overhead. At (almost) every
write(), FWR needs to check file sizes and/or dates for rotation. Under default configuration (where
write), it also performs locking on each
write()to make it safe to use with multiple processes. Below is a casual benchmark to give a sense of the overhead, tested on my Core i5-2400 3.1GHz desktop:
Writing lines in the size of ~ 200 bytes, raw writing to disk (SSD) has the speed of around 3.4mil/s, while using FWR it goes down to around ~13k/s. Using
exclusive, the speed is ~52k/s.
However, this is not something you'll notice or need to worry about unless you're writing near that speed.
If you need more speed, you can try setting
rotate_probabilitywhich will cause FWR to only check for rotation probabilistically, e.g. if you set this to 0.1 then checks will only be done in about 1 of 10 writes. This can significantly reduce the overhead and increase write speed several times (e.g. 5-8 times), but understand that this will make the writes "overflow" a bit, e.g. file sizes will exceed for a bit if you do size-based rotation. More suitable if you only do size-based rotation since it is usually okay to exceed sizes for a bit.
Please visit the project's homepage at https://metacpan.org/release/File-Write-Rotate.
Source repository is at https://github.com/perlancar/perl-File-Write-Rotate.
Please report any bugs or feature requests on the bugtracker website https://rt.cpan.org/Public/Dist/Display.html?Name=File-Write-Rotate
When submitting a bug or request, please include a test-file or a patch to an existing test-file that illustrates the bug or desired feature.
Log::Dispatch::FileRotate, which inspires this module. Differences between File::Write::Rotate (FWR) and Log::Dispatch::FileRotate (LDFR) are as follows:
FWR is not part of the Log::Dispatch family.
This makes FWR more general to use.
For using together with Log::Dispatch/Log4perl, I have also written Log::Dispatch::FileWriteRotate which is a direct (although not a perfect drop-in) replacement for Log::Dispatch::FileRotate.
Secondly, FWR does not use Date::Manip.
Date::Manip is relatively large (loading Date::Manip 6.37 equals to loading 34 files and ~ 22k lines; while FWR itself is only < 1k lines!)
As a consequence of this, FWR does not support DatePattern; instead, FWR replaces it with a simple daily/monthly/yearly period.
And lastly, FWR supports compressing and rotating compressed old files.
Using separate processes like the Unix logrotate utility means having to deal with yet another race condition. FWR takes care of that for you (see the compress() method). You also have the option to do file compression in the same script/process if you want, which is convenient.
There is no significant overhead difference between FWR and LDFR (FWR is slightly faster than LDFR on my testing).
Tie::Handle::FileWriteRotate and Log::Dispatch::FileWriteRotate, which use this module.
This software is copyright (c) 2019, 2016, 2015, 2014, 2013, 2012 by firstname.lastname@example.org.
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.
Module Install Instructions
To install File::Write::Rotate, copy and paste the appropriate command in to your terminal.
perl -MCPAN -e shell install File::Write::Rotate
For more information on module installation, please visit the detailed CPAN module installation guide.