Added support for the xz compression.

This commit is contained in:
依瑪貓 2022-03-19 21:13:23 +08:00
parent fb37d091d6
commit 67dca3926a
9 changed files with 650 additions and 36 deletions

View File

@ -63,6 +63,7 @@ my $build = Module::Build->new(
"File::MMagic" => 0,
"Compress::Zlib" => 0,
"Compress::Bzip2" => 2,
"IO::Compress::Xz" => 0,
"Term::ReadKey" => 0,
},
build_requires => {

View File

@ -1,5 +1,8 @@
reslog change log
2022-03-19
1. Added support for the xz compression.
2020-02-06 version 3.17
1. Replaced the messy GNU-styled, multi-lingual documents with a
single Markdown README.md.

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@ -54,6 +54,7 @@ our (%OPT_PREREQ);
"File::MMagic" => 0,
"Compress::Zlib" => 0,
"Compress::Bzip2" => 2,
"IO::Compress::Xz" => 0,
"Term::ReadKey" => 0,
);
delete $OPT_PREREQ{$_}

View File

@ -40,10 +40,10 @@ Caution
* I suggest that you install [File::MMagic] instead of counting on the
`file` executable. The internal magic file of File::MMagic works
better than the `file` executable. `reslog` treats everything not
gzip nor bzip2 compressed as plain text. When a compressed log file
is wrongly recognized as an image, `reslog` treats it as plain text,
reads directly from it, and fails. This does not hurt the source
log files, but is still annoying.
gzip, bzip2, nor xz compressed as plain text. When a compressed log
file is wrongly recognized as an image, `reslog` treats it as plain
text, reads directly from it, and fails. This does not hurt the
source log files, but is still annoying.
[File::MMagic]: https://metacpan.org/release/File-MMagic
@ -171,6 +171,42 @@ System Requirement
[the bzip2 website]. Be sure to save it as `bzip2.exe` somewhere
in your `PATH`.
* [IO::Compress::Xz] and [IO::Uncompress::UnXz]
They are used to support reading/writing the xz compressed
files. It is only needed when xz compressed files are
encountered. If it is not available, `arclog` tries the `xz`
executable instead. If that is not available, too, `arclog`
fails. They are contained in the [IO-Compress-Lzma] distribution.
You can download and install it from the CPAN archive, or install
them with the CPAN shell:
cpan IO::Compress::Xz
or with the CPANPLUS shell:
cpanp i IO::Compress::Xz
For Debian/Ubuntu:
sudo apt install libio-compress-lzma-perl
For Red Hat/Fedora/CentOS:
sudo yum install perl-IO-Compress-Lzma
For FreeBSD:
ports install p5-IO-Compress-Lzma
For ActivePerl:
ppm install IO-Compress-Lzma
The alternative `xz.exe` for MS-Windows can be obtained from
[the XZ Utils website]. Be sure to save it as `xz.exe`
somewhere in your `PATH`.
* [Term::ReadKey]
This is used to display the progress bar. The progress bar is a
@ -211,6 +247,10 @@ System Requirement
[IO-Compress]: https://metacpan.org/release/IO-Compress
[Compress::Bzip2]: https://metacpan.org/pod/Compress::Bzip2
[the bzip2 website]: http://www.bzip.org
[IO::Compress::Xz]: https://metacpan.org/pod/IO::Compress::Xz
[IO::Uncompress::UnXz]: https://metacpan.org/pod/IO::Uncompress::UnXz
[IO-Compress-Lzma]: https://metacpan.org/dist/IO-Compress-Lzma
[the XZ Utils website]: https://tukaani.org/xz/
[Term::ReadKey]: https://metacpan.org/pod/Term::ReadKey
@ -373,7 +413,8 @@ Options
The log file to be resolved. You can specify multiple log files.
If not specified, it reads from `STDIN` and outputs to `STDOUT`.
You can also specify `-` to read from `STDIN`. Result of `STDIN`
goes to `STDOUT`. `gzip` or `bzip2` compressed files are supported.
goes to `STDOUT`. `gzip`, `bzip2`, or `xz` compressed files are
supported.
* `-k`, `--keep mode`
@ -480,7 +521,7 @@ Thanks
License
-------
Copyright (C) 2000-2021 imacat.
Copyright (C) 2000-2022 imacat.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.

513
reslog
View File

@ -1,7 +1,7 @@
#! /usr/bin/perl -w
# reslog: Reverse-resolve IP in Apache log files
# Copyright (c) 2000-2021 imacat.
# Copyright (c) 2000-2022 imacat.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
@ -27,7 +27,7 @@ BEGIN {
@EXPORT = qw();
push @EXPORT, qw(OVERRIDE_OVERWRITE OVERRIDE_APPEND OVERRIDE_FAIL);
push @EXPORT, qw(KEEP_ALL KEEP_RESTART KEEP_DELETE);
push @EXPORT, qw(TYPE_TEXT TYPE_GZIP TYPE_BZIP2);
push @EXPORT, qw(TYPE_TEXT TYPE_GZIP TYPE_BZIP2 TYPE_XZ);
push @EXPORT, qw(TMP_SUFFIX where_is rel2abs);
@EXPORT_OK = @EXPORT;
# Prototype declaration
@ -68,6 +68,7 @@ use constant DEFAULT_KEEP => KEEP_DELETE;
use constant TYPE_TEXT => "text/plain";
use constant TYPE_GZIP => "application/x-gzip";
use constant TYPE_BZIP2 => "application/x-bzip2";
use constant TYPE_XZ => "application/x-xz";
# Other constants
use constant TMP_SUFFIX => ".tmp-reslog";
use constant DEFAULT_SUFFIX => ".resolved";
@ -566,6 +567,7 @@ sub check_type : method {
if (-z $FH || $MAGIC_METHOD eq MAGIC_SUFFIX) {
return TYPE_GZIP if $file =~ /\.gz$/;
return TYPE_BZIP2 if $file =~ /\.bz2$/;
return TYPE_XZ if $file =~ /\.xz$/;
# Otherwise we assume it to be text/plain
return TYPE_TEXT;
}
@ -600,6 +602,7 @@ sub check_type : method {
# Check the returned file type text
return TYPE_GZIP if /gzip/i;
return TYPE_BZIP2 if /bzip2/i;
return TYPE_XZ if /xz/i;
# Default everything to text/plain
return TYPE_TEXT;
}
@ -613,6 +616,8 @@ sub check_io : method {
return _private::IO->check_gzip if $self->{"type"} eq TYPE_GZIP;
# We need a bzip2 compression I/O handler
return _private::IO->check_bzip2 if $self->{"type"} eq TYPE_BZIP2;
# We need a xz compression I/O handler
return _private::IO->check_xz if $self->{"type"} eq TYPE_XZ;
# We need a plain I/O handler
return _private::IO::Plain->new;
}
@ -627,6 +632,8 @@ sub check_output : method {
($file, $dir, $suf) = fileparse $self->{"file"}, ".gz";
} elsif ($self->{"type"} eq TYPE_BZIP2) {
($file, $dir, $suf) = fileparse $self->{"file"}, ".bz2";
} elsif ($self->{"type"} eq TYPE_XZ) {
($file, $dir, $suf) = fileparse $self->{"file"}, ".xz";
} else {
($file, $dir, $suf) = fileparse $self->{"file"};
}
@ -823,10 +830,11 @@ BEGIN {
import main;
}
our ($GZIP_IO, $BZIP2_IO);
our ($GZIP_IO, $BZIP2_IO, $XZ_IO);
BEGIN {
undef $GZIP_IO;
undef $BZIP2_IO;
undef $XZ_IO;
}
# Initialize the I/O handler interface
@ -902,6 +910,41 @@ sub check_bzip2 : method {
die "$THIS_FILE: Necessary Compress::Bzip2 or bzip2 not available.\n$SHORT_HELP\n";
}
# Check for compression method of xz
sub check_xz : method {
local ($_, %_);
# Checked before
return ref($XZ_IO)->new if defined $XZ_IO;
# See whether IO::Compress::Xz or xz
print STDERR "Checking xz I/O handler to use ... " if $VERBOSE > 1;
print STDERR "\n Checking IO::Compress::Xz ... " if $VERBOSE > 2;
# Check if we have IO::Compress::Xz
if (eval { require IO::Compress::Xz; require IO::Uncompress::UnXz; 1; }) {
print STDERR "OK\nfound " if $VERBOSE > 2;
print STDERR "IO::Compress::Xz\n" if $VERBOSE > 1;
return ($XZ_IO = _private::IO::Xz::PM->new);
}
# Not found
print STDERR "no\n" if $VERBOSE > 2;
# It's OK not to warn
# Looking for xz from PATH
print STDERR " Checking xz... " if $VERBOSE > 2;
# Found in PATH
if (defined($_ = where_is "xz")) {
print STDERR "$_\nfound " if $VERBOSE > 2;
print STDERR "$_\n" if $VERBOSE > 1;
return ($XZ_IO = _private::IO::Xz::Exec->new);
}
# Not found
print STDERR "no\n" if $VERBOSE > 2;
print STDERR "not found\n" if $VERBOSE > 1;
die "$THIS_FILE: Necessary IO::Compress::Xz or xz not available.\n$SHORT_HELP\n";
}
# _private::IO::Plain: The plain I/O handle
package _private::IO::Plain;
@ -1928,6 +1971,456 @@ sub close : method {
}
# _private::IO::Xz::PM: The xz module compression I/O handler
package _private::IO::Xz::PM;
use 5.008;
use strict;
use warnings;
use base qw(_private::IO);
BEGIN {
import main;
}
use Fcntl qw(:flock :seek);
use File::Temp qw(tempfile);
# Open the file for reading
sub open_read : method {
local ($_, %_);
my ($self, $file, $FH);
($self, $file, $FH) = @_;
# Open the file if it is not opened yet
if (!defined $FH) {
print STDERR " Opening file in read mode ... " if $VERBOSE > 2;
open $FH, "+<", $file or die "$THIS_FILE: $file: $!";
binmode $FH or die "$THIS_FILE: $file: $!";
flock $FH, LOCK_EX;
print STDERR "done\n" if $VERBOSE > 2;
}
($self->{"file"}, $self->{"FH"}) = ($file, $FH);
print STDERR " Attaching file with IO::Uncompress::UnXz ... " if $VERBOSE > 2;
$self->{"xz"} = IO::Uncompress::UnXz->new($FH)
or die "$THIS_FILE: $file: $IO::Uncompress::UnXz::UnXzError";
print STDERR "done\n" if $VERBOSE > 2;
return;
}
# Open the file for writing
sub open_write : method {
local ($_, %_);
my ($self, $file, $FH);
($self, $file, $FH) = @_;
# Open the file if it is not opened yet
if (!defined $FH) {
print STDERR " Creating file in write mode ... " if $VERBOSE > 2;
open $FH, "+>", $file or die "$THIS_FILE: $file: $!";
binmode $FH or die "$THIS_FILE: $file: $!";
flock $FH, LOCK_EX;
print STDERR "done\n" if $VERBOSE > 2;
}
($self->{"file"}, $self->{"FH"}) = ($file, $FH);
print STDERR " Attaching file with IO::Compress::Xz ... " if $VERBOSE > 2;
$self->{"xz"} = IO::Compress::Xz->new($FH, Extreme => 1)
or die "$THIS_FILE: $file: $IO::Compress::Xz::XzError";
print STDERR "done\n" if $VERBOSE > 2;
return;
}
# Open the file for appending
sub open_append : method {
local ($_, %_);
my ($self, $file, $FH, $xz);
($self, $file, $FH) = @_;
# Open the file if it is not opened yet
if (!defined $FH) {
print STDERR " Opening file in read/write mode ... " if $VERBOSE > 2;
open $FH, "+<", $file or die "$THIS_FILE: $file: $!";
binmode $FH or die "$THIS_FILE: $file: $!";
flock $FH, LOCK_EX;
print STDERR "done\n" if $VERBOSE > 2;
}
($self->{"file"}, $self->{"FH"}) = ($file, $FH);
# Save the original data if file has content so that file size is
# greater than 0. STDOUT is always of size 0.
if ((stat $FH)[7] > 0) {
my ($count, $FHT, $xzt, $n);
seek $FH, 0, SEEK_SET or die "$THIS_FILE: $file: $!";
# Copy the original content to a buffer
print STDERR " Reading compressed data to the buffer ... " if $VERBOSE > 2;
$FHT = tempfile or die "$THIS_FILE: tempfile: $!";
while (defined($_ = <$FH>)) {
print $FHT $_ or die "$THIS_FILE: tempfile: $!";
}
print STDERR "done\n" if $VERBOSE > 2;
print STDERR " Restarting file ... " if $VERBOSE > 2;
seek $FHT, 0, SEEK_SET or die "$THIS_FILE: tempfile: $!";
seek $FH, 0, SEEK_SET or die "$THIS_FILE: $file: $!";
truncate $FH, 0 or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
# Decompress the buffer and save to our file
print STDERR " Attaching buffer with IO::Uncompress::UnXz ... " if $VERBOSE > 2;
$xzt = IO::Uncompress::UnXz->new($FHT)
or die "$THIS_FILE: tempfile: $IO::Uncompress::UnXz::UnXzError";
print STDERR "done\n" if $VERBOSE > 2;
print STDERR " Attaching file with IO::Compress::Xz ... " if $VERBOSE > 2;
$xz = IO::Compress::Xz->new($FH, Extreme => 1)
or die "$THIS_FILE: $file: $IO::Compress::Xz::XzError";
print STDERR "done\n" if $VERBOSE > 2;
print STDERR " Reading old records back from the buffer ... " if $VERBOSE > 2;
$count = 0;
while (defined($_ = $xzt->getline)) {
($xz->write($_) == length $_)
or die "$THIS_FILE: $file: $IO::Compress::Xz::XzError";
$count++;
}
close $FHT or die "$THIS_FILE: tempfile: $!";
print STDERR "$count records\n" if $VERBOSE > 2;
# A whole new file
} else {
print STDERR " Attaching file with IO::Compress::Xz ... " if $VERBOSE > 2;
$xz = IO::Compress::Xz->new($FH, Extreme => 1)
or die "$THIS_FILE: $file: $IO::Compress::Xz::XzError";
print STDERR "done\n" if $VERBOSE > 2;
}
$self->{"xz"} = $xz;
return;
}
# Read a line from the I/O stream
sub readline : method { $_[0]->{"xz"}->getline; }
# Output data to the I/O stream
sub write : method {
local ($_, %_);
my ($self, $file, $xz);
($self, $_) = @_;
($file, $xz) = ($self->{"file"}, $self->{"xz"});
($xz->write($_) == length $_) or die "$THIS_FILE: $file: $IO::Compress::Xz::XzError";
return;
}
# Close the I/O stream
sub close : method {
local ($_, %_);
my ($self, $keep, $tmp, $file, $FH, $xz);
($self, $keep, $tmp) = @_;
$keep = KEEP_ALL if @_ < 2;
($file, $FH, $xz) = ($self->{"file"}, $self->{"FH"}, $self->{"xz"});
# Restart the file
if ($keep eq KEEP_RESTART) {
# Empty the source file
print STDERR " Emptying file ... " if $VERBOSE > 2;
seek $FH, 0, SEEK_SET or die "$THIS_FILE: $file: $!";
truncate $FH, 0 or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
# Create empty compressed content
print STDERR " Applying empty compressed content ... " if $VERBOSE > 2;
$_ = IO::Compress::Xz->new($FH, Extreme => 1)
or die "$THIS_FILE: $file: $IO::Compress::Xz::XzError";
$_->close or die "$THIS_FILE: $file: $IO::Compress::Xz::XzError";
undef $_;
undef $xz;
print STDERR "done\n" if $VERBOSE > 2;
}
if (defined $xz) {
$xz->close or die "$THIS_FILE: $file: $IO::Compress::Xz::XzError";
}
CORE::close $self->{"FH"} if $self->{"FH"}->opened;
delete $self->{"xz"};
delete $self->{"FH"};
delete $self->{"file"};
# Delete the file
if ($keep eq KEEP_DELETE) {
print STDERR " Deleting file ... " if $VERBOSE > 2;
unlink $file or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
}
# Delete the temporary file if needed
if (defined $tmp && -e $tmp) {
unlink $tmp or die "$THIS_FILE: $tmp: $!";
}
return;
}
# _private::IO::Xz::Exec: The xz executable compression I/O handler
package _private::IO::Xz::Exec;
use 5.008;
use strict;
use warnings;
use base qw(_private::IO);
BEGIN {
import main;
}
use Fcntl qw(:flock :seek);
use File::Temp qw(tempfile);
our ($EXEC);
BEGIN {
undef $EXEC;
}
# Open the file for reading
sub open_read : method {
local ($_, %_);
my ($self, $file, $FH, $PH, $CMD);
($self, $file, $FH) = @_;
# Open the file if it is not opened yet
if (!defined $FH) {
print STDERR " Opening file in read mode ... " if $VERBOSE > 2;
open $FH, "+<", $file or die "$THIS_FILE: $file: $!";
binmode $FH or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
} else {
flock $FH, LOCK_UN;
}
($self->{"file"}, $self->{"FH"}) = ($file, $FH);
$EXEC = where_is "xz" if !defined $EXEC;
@_ = ($EXEC, "-cdf");
@_ = map "\"$_\"", @_ if $^O eq "MSWin32";
$CMD = join " ", @_;
print STDERR " Starting $CMD from file ... " if $VERBOSE > 2;
# Redirect STDIN to $FH
open STDIN, "<&", $FH or die "$THIS_FILE: $file: $!";
# Start the process
if ($^O eq "MSWin32") {
open $PH, "$CMD |" or die "$THIS_FILE: $CMD: $!";
} else {
open $PH, "-|", @_ or die "$THIS_FILE: $CMD: $!";
}
# Restore STDIN
open STDIN, "<&", $STDIN or die "$THIS_FILE: STDIN: $!";
print STDERR "done\n" if $VERBOSE > 2;
($self->{"CMD"}, $self->{"PH"}) = ([@_], $PH);
return;
}
# Open the file for writing
sub open_write : method {
local ($_, %_);
my ($self, $file, $FH, $PH, $CMD);
($self, $file, $FH) = @_;
# Open the file if it is not opened yet
if (!defined $FH) {
print STDERR " Creating file in write mode ... " if $VERBOSE > 2;
open $FH, "+>", $file or die "$THIS_FILE: $file: $!";
binmode $FH or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
} else {
flock $FH, LOCK_UN;
}
($self->{"file"}, $self->{"FH"}) = ($file, $FH);
$EXEC = where_is "xz" if !defined $EXEC;
@_ = ($EXEC, "-c9f");
@_ = map "\"$_\"", @_ if $^O eq "MSWin32";
$CMD = join " ", @_;
print STDERR " Starting $CMD to file ... " if $VERBOSE > 2;
# Redirect STDOUT to $FH
open STDOUT, ">&", $FH or die "$THIS_FILE: $file: $!";
# Start the process
if ($^O eq "MSWin32") {
open $PH, "| $CMD" or die "$THIS_FILE: $CMD: $!";
} else {
open $PH, "|-", @_ or die "$THIS_FILE: $CMD: $!";
}
# Restore STDOUT
open STDOUT, ">&", $STDOUT or die "$THIS_FILE: STDOUT: $!";
print STDERR "done\n" if $VERBOSE > 2;
($self->{"CMD"}, $self->{"PH"}) = ([@_], $PH);
return;
}
# Open the file for appending
sub open_append : method {
local ($_, %_);
my ($self, $file, $FH, $PH, $CMD);
($self, $file, $FH) = @_;
# Open the file if it is not opened yet
if (!defined $FH) {
print STDERR " Opening file in read/write mode ... " if $VERBOSE > 2;
open $FH, "+<", $file or die "$THIS_FILE: $file: $!";
binmode $FH or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
} else {
flock $FH, LOCK_UN;
}
($self->{"file"}, $self->{"FH"}) = ($file, $FH);
$EXEC = where_is "xz" if !defined $EXEC;
# Save the original data if file has content so that file size is
# greater than 0. STDOUT is always of size 0.
if ((stat $FH)[7] > 0) {
my ($count, $FHT, $PHT, $CMD_T);
seek $FH, 0, SEEK_SET or die "$THIS_FILE: $file: $!";
# Copy the original content to a buffer
print STDERR " Reading compressed data to the buffer ... " if $VERBOSE > 2;
$FHT = tempfile or die "$THIS_FILE: tempfile: $!";
while (defined($_ = <$FH>)) {
print $FHT $_ or die "$THIS_FILE: tempfile: $!";
}
print STDERR "done\n" if $VERBOSE > 2;
print STDERR " Restarting file ... " if $VERBOSE > 2;
seek $FHT, 0, SEEK_SET or die "$THIS_FILE: tempfile: $!";
seek $FH, 0, SEEK_SET or die "$THIS_FILE: $file: $!";
truncate $FH, 0 or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
# Decompress the buffer and save to our file
@_ = ($EXEC, "-cdf");
@_ = map "\"$_\"", @_ if $^O eq "MSWin32";
$CMD_T = join " ", @_;
print STDERR " Starting $CMD_T from buffer ... " if $VERBOSE > 2;
# Redirect STDIN to $FH
open STDIN, "<&", $FHT or die "$THIS_FILE: tempfile: $!";
# Start the process
if ($^O eq "MSWin32") {
open $PHT, "$CMD_T |" or die "$THIS_FILE: $CMD_T: $!";
} else {
open $PHT, "-|", @_ or die "$THIS_FILE: $CMD_T: $!";
}
# Restore STDIN
open STDIN, "<&", $STDIN or die "$THIS_FILE: STDIN: $!";
print STDERR "done\n" if $VERBOSE > 2;
@_ = ($EXEC, "-c9f");
@_ = map "\"$_\"", @_ if $^O eq "MSWin32";
$CMD = join " ", @_;
print STDERR " Starting $CMD to file ... " if $VERBOSE > 2;
# Redirect STDOUT to $FH
open STDOUT, ">&", $FH or die "$THIS_FILE: $file: $!";
# Start the process
if ($^O eq "MSWin32") {
open $PH, "| $CMD" or die "$THIS_FILE: $CMD: $!";
} else {
open $PH, "|-", @_ or die "$THIS_FILE: $CMD: $!";
}
# Restore STDOUT
open STDOUT, ">&", $STDOUT or die "$THIS_FILE: STDOUT: $!";
print STDERR "done\n" if $VERBOSE > 2;
print STDERR " Reading old records back from the buffer ... " if $VERBOSE > 2;
$count = 0;
while (defined($_ = <$PHT>)) {
print $PH $_ or die "$THIS_FILE: $file: $!";
$count++;
}
close $PHT or die "$THIS_FILE: $CMD_T: $!";
close $FHT or die "$THIS_FILE: tempfile: $!";
print STDERR "$count records\n" if $VERBOSE > 2;
# A whole new file
} else {
@_ = ($EXEC, "-c9f");
@_ = map "\"$_\"", @_ if $^O eq "MSWin32";
$CMD = join " ", @_;
print STDERR " Starting $CMD to file ... " if $VERBOSE > 2;
# Redirect STDOUT to $FH
open STDOUT, ">&", $FH or die "$THIS_FILE: $file: $!";
# Start the process
if ($^O eq "MSWin32") {
open $PH, "| $CMD" or die "$THIS_FILE: $CMD: $!";
} else {
open $PH, "|-", @_ or die "$THIS_FILE: $CMD: $!";
}
# Restore STDOUT
open STDOUT, ">&", $STDOUT or die "$THIS_FILE: STDOUT: $!";
print STDERR "done\n" if $VERBOSE > 2;
}
($self->{"CMD"}, $self->{"PH"}) = ([@_], $PH);
return;
}
# Read a line from the I/O stream
sub readline : method {
local ($_, %_);
my ($self, $PH);
$self = $_[0];
$PH = $self->{"PH"};
return <$PH>;
}
# Output data to the I/O stream
sub write : method {
local ($_, %_);
my ($self, $CMD, $PH);
($self, $_) = @_;
($CMD, $PH) = (join(" ", @{$self->{"CMD"}}), $self->{"PH"});
print $PH $_ or die "$THIS_FILE: $CMD: $!";
return;
}
# Close the I/O stream
sub close : method {
local ($_, %_);
my ($self, $keep, $tmp, $file, $FH, $CMD, $PH);
($self, $keep, $tmp) = @_;
$keep = KEEP_ALL if @_ < 2;
($file, $FH) = ($self->{"file"}, $self->{"FH"});
# Restart the file
if ($keep eq KEEP_RESTART) {
my ($CMD, $PH);
# Empty the source file
print STDERR " Emptying file ... " if $VERBOSE > 2;
seek $FH, 0, SEEK_SET or die "$THIS_FILE: $file: $!";
truncate $FH, 0 or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
# Create empty compressed content
print STDERR " Applying empty compressed content ... " if $VERBOSE > 2;
$EXEC = where_is "xz" if !defined $EXEC;
@_ = ($EXEC, "-c9f");
@_ = map "\"$_\"", @_ if $^O eq "MSWin32";
$CMD = join " ", @_;
# Redirect STDOUT to $FH
open STDOUT, ">&", $FH or die "$THIS_FILE: $file: $!";
# Start the process and end it
if ($^O eq "MSWin32") {
open $PH, "| $CMD" or die "$THIS_FILE: $CMD: $!";
} else {
open $PH, "|-", @_ or die "$THIS_FILE: $CMD: $!";
}
close $PH or die "$THIS_FILE: $CMD: $!";
# Restore STDOUT
open STDOUT, ">&", $STDOUT or die "$THIS_FILE: STDOUT: $!";
print STDERR "done\n" if $VERBOSE > 2;
}
($CMD, $PH) = (join(" ", @{$self->{"CMD"}}), $self->{"PH"});
CORE::close $PH or die "$THIS_FILE: $CMD: $!";
CORE::close $FH or die "$THIS_FILE: $file: $!";
delete $self->{"PH"};
delete $self->{"CMD"};
delete $self->{"FH"};
delete $self->{"file"};
# Delete the file
if ($keep eq KEEP_DELETE) {
print STDERR " Deleting file ... " if $VERBOSE > 2;
unlink $file or die "$THIS_FILE: $file: $!";
print STDERR "done\n" if $VERBOSE > 2;
}
# Delete the temporary file if needed
if (defined $tmp && -e $tmp) {
unlink $tmp or die "$THIS_FILE: $tmp: $!";
}
return;
}
# _private::Filter: The log file filter
# The filter can be override to implementing different log file formats.
# Maybe GeoIP. Or MS-Extended, in the future.
@ -2292,10 +2785,11 @@ I suggest that you install L<File::MMagic(3)|File::MMagic/3> instead
of counting on the L<file(1)|file/1> executable. The internal magic
file of L<File::MMagic(3)|File::MMagic/3> works better than the
L<file(1)|file/1> executable. F<reslog> treats everything not
L<gzip(1)|gzip/1> nor L<bzip2(1)|bzip2/1> compressed as plain text.
When a compressed log file is wrongly recognized as an image,
F<reslog> treats it as plain text, reads directly from it, and fails.
This does not hurt the source log files, but is still annoying.
L<gzip(1)|gzip/1>, L<bzip2(1)|bzip2/1>, nor L<xz(1)|xz/1> compressed
as plain text. When a compressed log file is wrongly recognized as
an image, F<reslog> treats it as plain text, reads directly from it,
and fails. This does not hurt the source log files, but is still
annoying.
=head1 OPTIONS
@ -2306,7 +2800,8 @@ This does not hurt the source log files, but is still annoying.
The log file to be resolved. You can specify multiple log files. If
not specified, it reads from C<STDIN> and outputs to C<STDOUT>. You
can also specify C<-> to read from C<STDIN>. Result of C<STDIN>
goes to C<STDOUT>. gzip or bzip2 compressed files are supported.
goes to C<STDOUT>. gzip, bzip2, or xz compressed files are
supported.
=item -k, --keep mode
@ -2429,6 +2924,8 @@ messages.
L<Compress::Zlib(3)>,
L<Compress::Bzip2(3)>,
L<xz(1)|xz/1>, L<IO::Compress::Xz(3)|IO::Compress::Xz/3>,
L<IO::Uncompress::UnXz(3)|IO::Uncompress::UnXz/3>,
L<perlthrtut(1)>, L<gzip(1)>, L<zlib(3)>,
L<bzip2(1)>.

View File

@ -1,7 +1,7 @@
#! /usr/bin/perl -w
# Test all the possible combination of options
# Copyright (c) 2005-2021 imacat.
# Copyright (c) 2005-2022 imacat.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
@ -23,7 +23,7 @@ use warnings;
use diagnostics;
use Test;
BEGIN { plan tests => 1341 }
BEGIN { plan tests => 1788 }
use File::Basename qw(basename);
use File::Path qw(mkpath rmtree);
@ -193,7 +193,7 @@ foreach my $st (@SOURCE_TYPES) {
die unless $_ || $$st{"skip"};
}
# 85: From STDIN to STDOUT
# 149: From STDIN to STDOUT
$_ = eval {
return if $$st{"skip"};
my ($title, $cmd, $ret_no, $out, $err, $logfile, $result);

View File

@ -1,7 +1,7 @@
#! /usr/bin/perl -w
# Test processing several log files at once
# Copyright (c) 2007-2021 imacat.
# Copyright (c) 2007-2022 imacat.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
@ -23,7 +23,7 @@ use warnings;
use diagnostics;
use Test;
BEGIN { plan tests => 4 }
BEGIN { plan tests => 5 }
use File::Basename qw(basename);
use File::Path qw(mkpath rmtree);
@ -48,13 +48,15 @@ $_ = eval {
$suf = "." . random_word;
do { $trim_suf = "." . random_word; } until $trim_suf ne $suf;
# (2-4 times available compression) log files
$_ = 2 + (has_no_gzip? 0: 2) + (has_no_bzip2? 0: 2);
$_ = 2 + (has_no_gzip? 0: 2) + (has_no_bzip2? 0: 2)
+ (has_no_xz? 0: 2);
$num = $_ + int rand $_;
my %types = qw();
# At least 2 files for each available compression
foreach my $st (@SOURCE_TYPES) {
next if ($$st{"type"} eq TYPE_GZIP && has_no_gzip)
|| ($$st{"type"} eq TYPE_BZIP2 && has_no_bzip2);
|| ($$st{"type"} eq TYPE_BZIP2 && has_no_bzip2)
|| ($$st{"type"} eq TYPE_XZ && has_no_xz);
@_ = grep !exists $types{$_}, (0...$num-1);
$types{$_[int rand @_]} = $st;
@_ = grep !exists $types{$_}, (0...$num-1);
@ -65,7 +67,8 @@ $_ = eval {
do {
$types{$_} = $SOURCE_TYPES[int rand @SOURCE_TYPES];
} until !(${$types{$_}}{"type"} eq TYPE_GZIP && has_no_gzip)
&& !(${$types{$_}}{"type"} eq TYPE_BZIP2 && has_no_bzip2);
&& !(${$types{$_}}{"type"} eq TYPE_BZIP2 && has_no_bzip2)
&& !(${$types{$_}}{"type"} eq TYPE_XZ && has_no_xz);
}
@st = map $types{$_}, (0...$num-1);
@fs = qw();
@ -122,14 +125,15 @@ $_ = eval {
ok($_, 1, $@);
clean_up $_, $WORKDIR, ++$tno;
# 2-4: One of the source log files is read from STDIN
# 2-5: One of the source log files is read from STDIN
# The file type at STDIN
foreach my $st_stdin (@SOURCE_TYPES) {
my $skip;
$skip = 0;
$_ = eval {
if ( ($$st_stdin{"type"} eq TYPE_GZIP && has_no_gzip)
|| ($$st_stdin{"type"} eq TYPE_BZIP2 && has_no_bzip2)) {
|| ($$st_stdin{"type"} eq TYPE_BZIP2 && has_no_bzip2)
|| ($$st_stdin{"type"} eq TYPE_XZ && has_no_xz)) {
$skip = 1;
return;
}
@ -143,13 +147,15 @@ foreach my $st_stdin (@SOURCE_TYPES) {
$suf = "." . random_word;
do { $trim_suf = "." . random_word; } until $trim_suf ne $suf;
# (2-4 times available compression) log files
$_ = 2 + (has_no_gzip? 0: 2) + (has_no_bzip2? 0: 2);
$_ = 2 + (has_no_gzip? 0: 2) + (has_no_bzip2? 0: 2)
+ (has_no_xz? 0: 2);
$num = $_ + int rand $_;
my %types = qw();
# At least 2 files for each available compression
foreach my $st (@SOURCE_TYPES) {
next if ($$st{"type"} eq TYPE_GZIP && has_no_gzip)
|| ($$st{"type"} eq TYPE_BZIP2 && has_no_bzip2);
|| ($$st{"type"} eq TYPE_BZIP2 && has_no_bzip2)
|| ($$st{"type"} eq TYPE_XZ && has_no_xz);
@_ = grep !exists $types{$_}, (0...$num-1);
$types{$_[int rand @_]} = $st;
@_ = grep !exists $types{$_}, (0...$num-1);
@ -160,7 +166,8 @@ foreach my $st_stdin (@SOURCE_TYPES) {
do {
$types{$_} = $SOURCE_TYPES[int rand @SOURCE_TYPES];
} until !(${$types{$_}}{"type"} eq TYPE_GZIP && has_no_gzip)
&& !(${$types{$_}}{"type"} eq TYPE_BZIP2 && has_no_bzip2);
&& !(${$types{$_}}{"type"} eq TYPE_BZIP2 && has_no_bzip2)
&& !(${$types{$_}}{"type"} eq TYPE_XZ && has_no_xz);
}
# Choose the STDIN from the matching compression
@_ = grep ${$types{$_}}{"type"} eq $$st_stdin{"type"}, (0...$num-1);

View File

@ -1,7 +1,7 @@
#! /usr/bin/perl -w
# Test the errors that should be captured.
# Copyright (c) 2007-2021 imacat.
# Copyright (c) 2007-2022 imacat.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
@ -21,7 +21,7 @@ use warnings;
use diagnostics;
use Test;
BEGIN { plan tests => 7 }
BEGIN { plan tests => 9 }
use File::Basename qw(basename);
use File::Path qw(mkpath rmtree);
@ -35,7 +35,7 @@ $WORKDIR = catdir($FindBin::Bin, "logs");
$reslog = catfile($FindBin::Bin, updir, "blib", "script", "reslog");
$tno = 0;
# 1-6: Trim suffix is the same as suffix
# 1-8: Trim suffix is the same as suffix
foreach my $st (@SOURCE_TYPES) {
# 1: Trim suffix is the same as suffix
$_ = eval {
@ -126,7 +126,7 @@ foreach my $st (@SOURCE_TYPES) {
clean_up $_ || $$st{"skip"}, $WORKDIR, ++$tno;
}
# 7: A same log file is specified more than once
# 9: A same log file is specified more than once
$_ = eval {
my ($title, $cmd, $ret_no, $out, $err, %logfiles);
my ($fr, $frb, @fle, $fle, $flr, %cef, %crf, %tef, %trf);

View File

@ -1,6 +1,6 @@
# _helper.pm - A simple test suite helper
# Copyright (c) 2005-2021 imacat
# Copyright (c) 2005-2022 imacat
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
@ -25,10 +25,10 @@ $VERSION = "0.05";
@EXPORT = qw(
read_file read_raw_file write_file write_raw_file
run_cmd where_is file_type list_files preserve_source clean_up
has_no_file has_no_gzip has_no_bzip2
has_no_file has_no_gzip has_no_bzip2 has_no_xz
make_log_file make_resolved_log_file make_empty_log_file
random_word
TYPE_TEXT TYPE_GZIP TYPE_BZIP2
TYPE_TEXT TYPE_GZIP TYPE_BZIP2 TYPE_XZ
@CONTENT_TYPES @SOURCE_TYPES @KEEP_MODES @OVERRIDE_MODES @SUFFICES @TRIM_SUFFIX);
# Prototype declaration
sub this_file();
@ -45,6 +45,7 @@ sub clean_up($$$);
sub has_no_file();
sub has_no_gzip();
sub has_no_bzip2();
sub has_no_xz();
sub make_log_file($);
sub make_resolved_log_file($);
sub make_empty_log_file($);
@ -60,16 +61,18 @@ use File::Spec::Functions qw(splitdir catdir catfile path);
use File::Temp qw(tempfile);
use Socket;
our (%WHERE_IS, $HAS_NO_FILE, $HAS_NO_GZIP, $HAS_NO_BZIP2, $RANDOM_IP);
our (%WHERE_IS, $HAS_NO_FILE, $HAS_NO_GZIP, $HAS_NO_BZIP2, $HAS_NO_XZ, $RANDOM_IP);
%WHERE_IS = qw();
undef $HAS_NO_FILE;
undef $HAS_NO_GZIP;
undef $HAS_NO_BZIP2;
undef $HAS_NO_XZ;
undef $RANDOM_IP;
use constant TYPE_TEXT => "text/plain";
use constant TYPE_GZIP => "application/x-gzip";
use constant TYPE_BZIP2 => "application/x-bzip2";
use constant TYPE_XZ => "application/x-xz";
our (@CONTENT_TYPES, @SOURCE_TYPES, @KEEP_MODES, @OVERRIDE_MODES, @SUFFICES,
@TRIM_SUFFIX);
@ -94,7 +97,11 @@ our (@CONTENT_TYPES, @SOURCE_TYPES, @KEEP_MODES, @OVERRIDE_MODES, @SUFFICES,
{ "title" => "bzip2 source",
"type" => TYPE_BZIP2,
"suf" => ".bz2",
"skip" => has_no_bzip2, }, );
"skip" => has_no_bzip2, },
{ "title" => "xz source",
"type" => TYPE_XZ,
"suf" => ".xz",
"skip" => has_no_xz, }, );
# All the keep mode information
@KEEP_MODES = (
{ "title" => "keep default",
@ -239,6 +246,29 @@ sub read_file($) {
return $content;
}
# an xz compressed file
} elsif ($file =~ /\.xz$/) {
# IO::Uncompress::UnXz
if (eval { require IO::Uncompress::UnXz; 1; }) {
my $xz;
$content = "";
$xz = IO::Uncompress::UnXz->new($file)
or die this_file . ": $file: $IO::Uncompress::UnXz::UnXzError";
$content = join "", <$xz>;
$xz->close or die this_file . ": $file: $IO::Uncompress::UnXz::UnXzError";
return $content;
# xz executable
} else {
my ($PH, $CMD);
$CMD = where_is "xz";
$CMD = "\"$CMD\" -cdf \"$file\"";
open $PH, "$CMD |" or die this_file . ": $CMD: $!";
$content = join "", <$PH>;
close $PH or die this_file . ": $CMD: $!";
return $content;
}
# a plain text file
} else {
my $FH;
@ -326,6 +356,29 @@ sub write_file($$) {
return;
}
# an xz compressed file
} elsif ($file =~ /\.xz$/) {
# IO::Compress::Xz
if (eval { require IO::Compress::Xz; 1; }) {
my $xz;
$xz = IO::Compress::Xz->new($file, Extreme => 1)
or die this_file . ": $file: $IO::Compress::Xz::XzError";
($xz->write($content) == length $content)
or die this_file . ": $file: $IO::Compress::Xz::XzError";
$xz->close or die this_file . ": $file: $IO::Compress::Xz::XzError";
return;
# xz executable
} else {
my ($PH, $CMD);
$CMD = where_is "xz";
$CMD = "\"$CMD\" -c9f > \"$file\"";
open $PH, "| $CMD" or die this_file . ": $CMD: $!";
print $PH $content or die this_file . ": $CMD: $!";
close $PH or die this_file . ": $CMD: $!";
return;
}
# a plain text file
} else {
my $FH;
@ -418,6 +471,7 @@ sub file_type($) {
$_ = File::MMagic->new->checktype_filename($file);
return TYPE_GZIP if /gzip/;
return TYPE_BZIP2 if /bzip2/;
return TYPE_XZ if /xz/;
# All else are text/plain
return TYPE_TEXT;
}
@ -426,6 +480,7 @@ sub file_type($) {
$_ = join "", `"$_" "$file"`;
return TYPE_GZIP if /gzip/;
return TYPE_BZIP2 if /bzip2/;
return TYPE_XZ if /: XZ/;
# All else are text/plain
return TYPE_TEXT;
}
@ -515,6 +570,15 @@ sub has_no_bzip2() {
return $HAS_NO_BZIP2;
}
# If we have xz support somewhere
sub has_no_xz() {
$HAS_NO_XZ = eval { require IO::Compress::Xz; require IO::Uncompress::UnXz; 1; }
|| defined where_is "xz"?
0: "IO::Compress::Xz or xz executable not available"
if !defined $HAS_NO_XZ;
return $HAS_NO_XZ;
}
# Create a normal random log file
sub make_log_file($) {
local ($_, %_);