==== Tester un port en TCP ou UDP ====
#!/bin/perl
use Net::Ping;
my ($host,$port)=(shift,shift);
my $timeout=5;
$p = Net::Ping->new("tcp", $timeout);
$p->{port_num} = $port;
$ret=$p->ping($host);
# 0=ok, 1=non joignable
undef($p);
exit($ret==0);
ou
#!/usr/bin/perl -w
use strict;
use Socket;
use File::Basename;
my ($remote,$port, $iaddr, $paddr, $proto, $ligne,@server);
my $fic = ("serv.txt");
open(FIC,"<$fic") or die "Impossible d'ouvrir $fic";
while()
{
$ligne ="$_";
chomp($ligne);
@server = split(/;/,$ligne);
$remote = $server[0];
$port = $server[1];
if ($port =~ /\D/) { $port = getservbyname($port, 'tcp') }
die "No port" unless $port;
$iaddr = inet_aton($remote);
$paddr = sockaddr_in($port, $iaddr);
$proto = getprotobyname('tcp');
socket(SOCK, PF_INET, SOCK_STREAM, $proto);
print "\n$remote $port :";
connect(SOCK, $paddr) || next;
print "OK";
close (SOCK) || die "close: $!";
}
close(FIC);
print "\n";
On créé un fichier //serv.txt// qui a pour format :
server;port
:!: Aucun soucis en TCP, par contre en UDP ça peut ne pas fonctionner (dépend du serveur et du service en face).
==== Vérifier si un fichier a été modifié depuis n secondes ====
use File::Basename;
use File::Path;
$FILE_FAX="d:\\apps\cft\\temp\\fax.zip";
$FILE_RTG="c:\\apps\\cft\\temp\\rtg.zip";
$FILE_LOG="c:\\apps\\log\\exploit\\surv_seekfax.log";
@temps = localtime(time);
$jour = sprintf("%02d",$temps[3]);
$mois = sprintf("%02d",$temps[4]+1);
$annee = sprintf("%02d",$temps[5]+1900);
$heure = sprintf("%02d",$temps[2]);
$min = sprintf("%02d",$temps[1]);
sub test_fax()
{
($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,$atime,$mtime,$ctime,$blksize,$blocks) = stat($FILE_FAX);
($now) = time();
($delay_fax) = $now - $mtime;
if ($delay_fax > 600) {
print FICLOG "$jour/$mois/$annee $heure:$min ERROR_SEEKFAX_____Un fichier fax.zip est present depuis plus de 5 minutes : $FILE_FAX\n";
}
}
open(FICLOG,">>$FILE_LOG") || die "Impossible d'ouvrir $!";
if (-e $FILE_FAX) { test_fax } else { print FICLOG "$jour/$mois/$annee $heure:$min OK pas de fichier fax.zip\n"; }
if (-e $FILE_RTG) { test_rtg } else { print FICLOG "$jour/$mois/$annee $heure:$min OK pas de fichier rtg.zip\n"; }
close(FICLOG);
== vxtree.pl ==
#!/usr/bin/perl
#
# vxtree.pl - provides a tty version of the "view layout" option in vmsa.
# best viewed in wide xterm
#
# Aug 2003 - Richard Quixley JPMorgan
#
#
# Identifies the following volume types:
#
# 1. concat
# 2. stripe = (raid-0)
# 3. mirror = (raid-1)
# 4. raid = (raid-5)
# 5. mirrored-stripe = (raid-0+1)
# 6. [layered volume] - striped-mirror ("striped-pro") = (raid-1+0 or raid-10)
# 7. [layered volume] - concat-mirror ("concatenated-pro")
# USAGE:
# vxtree.pl -a [dg1 dg2 dg3...] - display all disks and volumes
# vxtree.pl -d [dg1 dg2 dg3...] - display all disks
# vxtree.pl -g [dg1 dg2 dg3...] - display all volumes
# vxtree.pl -v [vol1 vol2 vol3...] - display all listed volumes
# vxtree.pl -s [dg1 dg2 dg3...] - display summary
# vxtree.pl -V - display vxvm version
use Getopt::Std;
sub check_vxvm {
( `swlist VRTSvxvm` ) || die "\nERROR: No Veritas packages installed - exiting...\n\n";
}
sub get_dg {
@dg_list=();
@dg_list=`/usr/sbin/vxprint -thf|grep "^dg" 2> /dev/null`;
my $n=0;
foreach $item (@dg_list) {
my @f = split(" ", $item, 9999) ;
$dg_list[$n] = $f[1];
++$n;
}
}
sub check_root {
my $id=`/usr/xpg4/bin/id -u`;
if ( $id > 0 ) {
print "\nWARNING: disk group free space info not available when run as non-root\n";
}
}
# do disks
sub get_disks {
&check_root;
my $arg;
$arg=scalar (@ARGV);
if ( $arg < 1 ) {
&get_dg;
} else {
@dg_list=@ARGV;
}
foreach $dg (@dg_list) {
$gp_size=0;
$gp_free=0;
my @gp_size=`/usr/sbin/vxprint -thfdg $dg | grep "^dm" 2> /dev/null`;
foreach my $line (@gp_size) {
my @arg=split(" ", $line, 99);
$gp_size += $arg[5] / 2048000;
}
my @gp_free=`/usr/sbin/vxdg -qg $dg free 2> /dev/null`;
foreach my $line (@gp_free) {
my @arg=split(" ", $line, 99);
$gp_free += $arg[4] / 2048000;
}
printf "\nDG %-10s ------------------------------------------------------------------ total/free %.2f/%.2f Gb\n", $dg, $gp_size, $gp_free;
@dg_disks=();
@dg_disks=`/usr/sbin/vxprint -tdg $dg | grep "^dm" 2> /dev/null`;
foreach $line (@dg_disks) {
my @f = split(" ", $line, 9999) ;
$dg_disk = $f[1];
$dg_devices = $f[2];
$disk_size = $f[5]/2048000;
$gp_disk_free=0;
my @gp_disk_free=`/usr/sbin/vxdg -qg $dg free disk $dg_disk 2> /dev/null`;
foreach my $line (@gp_disk_free) {
my @arg=split(" ", $line, 99);
$gp_disk_free += $arg[4] / 2048000;
}
printf " |\n |___ DISK %-10s ( DEVICE %10s ) [size/free %.2f/%.2f Gb]\n", $dg_disk, $dg_devices, $disk_size, $gp_disk_free;
#if ( ! $Options{s} ) {
@sdisk=();
@sdisk=`/usr/sbin/vxprint -tsg $dg | grep $dg_disk 2> /dev/null`;
unless ( $Options{s} ) {
foreach $sdisk (@sdisk) {
my @f = split(" ", $sdisk, 9999) ;
$sd_name = $f[1];
$sd_size = $f[5]/2048000;
$sd_device = $f[7];
printf " |________ sub-disk %-15s device %-10s {size %6.3f Gb}\n", $sd_name, $sd_device, $sd_size;
}
}
}
}
&check_root;
}
# do volumes
sub get_vols {
my $arg;
$arg=scalar (@ARGV);
if ( $Options{g} ) {
if ( $arg >= 1 ) {
@dg_list=@ARGV;
}
}
foreach $dg (@dg_list) {
# remember that getopts -v switch resets $#ARGV and @ARGV to only what comes after the "-v" so look for no args
# i.e. test for a "-v" switch with no args i.e. all vols
my $arg;
$arg=scalar (@ARGV);
if ( $Options{v} ) {
if ( $arg < 1 ) {
@dg_vols=`/usr/sbin/vxprint -nvg $dg 2> /dev/null`;
} else {
@dg_vols=@ARGV;
}
} else {
@dg_vols=`/usr/sbin/vxprint -nvg $dg 2> /dev/null`;
}
print "\nDG $dg \n";
@sub_vol_parent_volname_array=();
@sub_vol_parent_plexname_array=();
@sub_vol_child_volname_array=();
foreach $vol (@dg_vols) {
@dg_vol_array=`/usr/sbin/vxprint -thfg $dg -v $vol 2> /dev/null`;
@format=();
@format=`/usr/sbin/vxprint -lvg $dg -v $vol 2> /dev/null`;
my @format2=split("=", $format[4], 9999) ;
my @format_pl=split(",", @format2[1], 9999) ;
$k=0; # count volumes
$pr=0; ### print array
@print_array=(); # zero array
$sub_vol_flag="false"; # starting condition
# *** $#dg_vol_array is last index of array
# *** whereas "scalar (@dg_vol_array)" is the number of indices
while ($k <= $#dg_vol_array) {
@vol_elements = split(" ", $dg_vol_array[$k], 9999) ;
if ($vol_elements[0] eq "v") {
$reset_plex="true";
$vol_size=($vol_elements[5]/2048000);
$remember_vol="$vol_elements[1]";
$remember_vol_array_no="$pr";
# test whether volume is present in sub-vol array, if it is we won't output it yet
foreach $item (@sub_vol_child_volname_array) {
if ($vol_elements[1] eq $item) {
$sub_vol_flag="true";
last;
}
}
} elsif ($vol_elements[0] eq "pl") {
if ( $reset_plex ne "false" ) {
$vol_format=($vol_elements[6]);
if ( $vol_format eq "CONCAT" ) {
$vol_format="concat"
} elsif ( $vol_format eq "STRIPE" ) {
$vol_format="stripe"
} elsif ( $vol_format eq "RAID" ) {
$vol_format="raid"
}
}
$reset_plex="false";
if (scalar (@format_pl) >=2 && $vol_format ne "raid") {
$vol_mir_format="mirrored-";
# now overwrite our vol line now we know its format
$print_array[$remember_vol_array_no]=sprintf " |\n%14s%-20s%50s%-9s%-15s%11s%6.2f Gb\n",'|___ VOL ', $remember_vol ,'----------------------------------- layout=', $vol_mir_format, $vol_format, '----- size ', $vol_size;
} else {
$vol_mir_format="";
$print_array[$remember_vol_array_no]=sprintf " |\n%14s%-20s%50s%s%-24s%11s%6.2f Gb\n",'|___ VOL ', $remember_vol ,'----------------------------------- layout=', $vol_mir_format, $vol_format, '----- size ', $vol_size;
}
unless ( $Options{s} ) {$print_array[$pr]=sprintf "%25s%-85s[%6.2f Gb]\n",'|___ PLEX ', $vol_elements[1] , $vol_size};
$remember_plex="$vol_elements[1]";
$get_plex_log="$vol_elements[4]";
} elsif ($vol_elements[0] eq "sv") {
$sub_vol_flag="true";
$sub_vol_child_volname="$vol_elements[3]";
$sub_vol_parent_plex="$remember_plex";
$sub_vol_parent_vol="$remember_vol";
push(@sub_vol_parent_volname_array, $sub_vol_parent_vol);
push(@sub_vol_parent_plexname_array, $sub_vol_parent_plex);
push(@sub_vol_child_volname_array, $sub_vol_child_volname);
push(@$remember_vol, $sub_vol_child_volname);
} elsif ($vol_elements[0] eq "sd") {
$size=($vol_elements[5]/2048000);
if ($vol_elements[6] eq "LOG" || $get_plex_log eq "LOG" ) { $log="DRLog" } else { $log=" "}
unless ( $Options{s} ) {$print_array[$pr]=sprintf "%40s%-19s%-10s%-24s{%6.3f Gb}\n",'|___ sub-disk ', $vol_elements[1] , $vol_elements[7], $log, $size};
} # if vol_elements
++$k; # k=number of volumes
++$pr; # pr=load print array
} # while $k <= $#dg_vol_array
# print out our data...
$l=0;
while ($l <= $pr) {
if ( $sub_vol_flag ne "true" && $print_array[$l]) {
print "$print_array[$l]";
}
++$l; # l=unload print array
} # while $l <= $pr
} # foreach @dg_vols
# now process all data for layered volumes...
%seen = ();
@unique_sub_vol_parent_volname_array=();
foreach $item (@sub_vol_parent_volname_array) {
push(@unique_sub_vol_parent_volname_array, $item) unless $seen{$item}++;
} # foreach item
%seen = ();
@unique_sub_vol_parent_plexname_array=();
foreach $item (@sub_vol_parent_plexname_array) {
push(@unique_sub_vol_parent_plexname_array, $item) unless $seen{$item}++;
} # foreach item
if ( scalar (@unique_sub_vol_parent_volname_array) >= 1 ) {
$mm=0;
foreach $svp (@unique_sub_vol_parent_volname_array) {
#print "\n";
my $nn=0;
@svp_vol_array=();
@svp_vol_array=`/usr/sbin/vxprint -thfg $dg -v $svp 2> /dev/null`;
while ($nn <= $#svp_vol_array) {
@vol_elements3 = split(" ", $svp_vol_array[$nn], 9999);
if ( scalar (@$svp) == 1 ) {
$format="concat-mirror";
} else {
$format="striped-mirror";
}
my $size=($vol_elements3[5]/2048000);
if ($vol_elements3[0] eq "v") {
printf " |\n%14s%-20s%50s%-15s%20s%6.2f Gb\n",'|___ VOL ', $vol_elements3[1] , '----------------------------------- layout=', $format, '----- size ', $size;
} elsif ($vol_elements3[0] eq "pl") {
unless ( $Options{s} ) {printf "%25s%-85s[%6.2f Gb]\n",'|___ PLEX ', $vol_elements3[1] , $size};
}
++$nn;
}
foreach $svv (@$svp) {
$n=0;
@sv_vol_array=();
@sv_vol_array=`/usr/sbin/vxprint -thfg $dg -v $svv 2> /dev/null`;
while ($n <= $#sv_vol_array) {
@vol_elements2 = split(" ", $sv_vol_array[$n], 9999);
my $size=($vol_elements2[5]/2048000);
if ($vol_elements2[5] eq "LOGONLY" || $vol_elements2[6] eq "LOG" ) { $log="DRLog " } else { $log=" "}
if ($vol_elements2[0] eq "v") {
printf "%37s%-68s(%6.2f Gb)\n",'|___ S-VOL ', $vol_elements2[1] , $size;
} elsif ($vol_elements2[0] eq "pl") {
unless ( $Options{s} ) {printf "%48s%-25s%-26s[%6.2f Gb]\n",'|___ PLEX ', $vol_elements2[1] ,$log, $size};
} elsif ($vol_elements2[0] eq "sd") {
#if ($vol_elements2[6] eq "LOG" ) { $log="DRLog" } else { $log=" "}
unless ( $Options{s} ) {printf "%63s%-15s%-10s%-6s{%6.3f Gb}\n",'|___ sub-disk ', $vol_elements2[1] , $vol_elements2[7], $log, $size};
} # if
++$n;
} # while
} # foreach $svv (@$svp)
++$mm;
} # foreach unique_sub_vol_parent_volname_array
} # if scalar unique_sub_vol_parent_volname_array
} # foreach (@dg_list)
} # sub get_data
sub do_usage {
print "\nUSAGE:\n\n";
print " \"vxtree.pl -flag [optional args]\"\n\n";
print " \"vxtree.pl -a [dg1 dg2 dg3...]\" - display all disks and volumes\n";
print " \"vxtree.pl -d [dg1 dg2 dg3...]\" - display all disks\n";
print " \"vxtree.pl -g [dg1 dg2 dg3...]\" - display all volumes\n";
print " \"vxtree.pl -v [vol1 vol2 vol3...]\" - display all listed volumes\n";
print " \"vxtree.pl -s [dg1 dg2 dg3...]\" - display summary\n";
print " \"vxtree.pl -V\" - display Veritas vxvm version\n";
print " \"vxtree.pl -h\" - help\n";
print "\n";
}
sub do_help {
print "\nvxtree identifies the following volume types:\n=============================================\n";
print "\n1. concat\n";
print "eg. |___ VOL vol1 ----------------------------------- layout=concat ----- size 0.10 Gb\n";
print " |___ PLEX vol1-01 [ 0.10 Gb]\n";
print " |___ sub-disk testdg03-01 c3t3d0 { 0.102 Gb}\n";
print "\n2. stripe = (raid-0)\n";
print "eg. |___ VOL vol2 ----------------------------------- layout=stripe ----- size 0.10 Gb\n";
print " |___ PLEX vol2-01 [ 0.10 Gb]\n";
print " |___ sub-disk testdg04-01 c3t4d0 { 0.052 Gb}\n";
print " |___ sub-disk testdg03-03 c3t3d0 { 0.052 Gb}\n";
print "\n3. mirror = (raid-1)\n";
print "eg. |___ VOL vol3 ----------------------------------- layout=mirrored-concat ----- size 0.10 Gb\n";
print " |___ PLEX vol3-01 [ 0.10 Gb]\n";
print " |___ sub-disk testdg04-03 c3t4d0 { 0.102 Gb}\n";
print " |___ PLEX vol3-02 [ 0.10 Gb]\n";
print " |___ sub-disk testdg03-04 c3t3d0 { 0.102 Gb}\n";
print "\n4. raid = (raid-5)\n";
print "eg. |___ VOL vol4 ----------------------------------- layout=raid ----- size 0.10 Gb\n";
print " |___ PLEX vol4-01 [ 0.10 Gb]\n";
print " |___ sub-disk testdg04-04 c3t4d0 { 0.052 Gb}\n";
print " |___ sub-disk testdg03-05 c3t3d0 { 0.052 Gb}\n";
print " |___ sub-disk testdg01-01 c2t0d0 { 0.052 Gb}\n";
print "\n5. mirrored-stripe = (raid-0+1)\n";
print "eg. |___ VOL vol5 ----------------------------------- layout=mirrored-stripe ----- size 0.10 Gb\n";
print " |___ PLEX vol5-01 [ 0.10 Gb]\n";
print " |___ sub-disk testdg04-05 c3t4d0 { 0.052 Gb}\n";
print " |___ sub-disk testdg03-06 c3t3d0 { 0.052 Gb}\n";
print " |___ PLEX vol5-02 [ 0.10 Gb]\n";
print " |___ sub-disk testdg01-03 c2t0d0 { 0.052 Gb}\n";
print " |___ sub-disk testdg02-03 c3t0d0 { 0.052 Gb}\n";
print "\n6. [layered volume] - striped-mirror (\"striped-pro\") = (raid-1+0 or raid-10)\n";
print "eg. |___ VOL vol6 ----------------------------------- layout=striped-mirror ----- size 0.10 Gb\n";
print " |___ PLEX vol6-03 [ 0.10 Gb]\n";
print " |___ S-VOL vol6-L01 ( 0.05 Gb)\n";
print " |___ PLEX vol6-P01 [ 0.05 Gb]\n";
print " |___ sub-disk testdg04-06 c3t4d0 { 0.050 Gb}\n";
print " |___ PLEX vol6-P02 [ 0.05 Gb]\n";
print " |___ sub-disk testdg01-04 c2t0d0 { 0.050 Gb}\n";
print " |___ S-VOL vol6-L02 ( 0.05 Gb)\n";
print " |___ PLEX vol6-P03 [ 0.05 Gb]\n";
print " |___ sub-disk testdg03-07 c3t3d0 { 0.050 Gb}\n";
print " |___ PLEX vol6-P04 [ 0.05 Gb]\n";
print " |___ sub-disk testdg02-04 c3t0d0 { 0.050 Gb}\n";
print "\n7. [layered volume] - concat-mirror (\"concatenated-pro\")\n";
print "eg. |___ VOL vol7 ----------------------------------- layout=concat-mirror ----- size 0.10 Gb\n";
print " |___ PLEX vol7-03 [ 0.10 Gb]\n";
print " |___ S-VOL vol7-L01 ( 0.10 Gb)\n";
print " |___ PLEX vol7-P01 [ 0.10 Gb]\n";
print " |___ sub-disk testdg04-07 c3t4d0 { 0.100 Gb}\n";
print " |___ PLEX vol7-P02 [ 0.10 Gb]\n";
print " |___ sub-disk testdg03-08 c3t3d0 { 0.100 Gb}\n";
}
sub get_bighelp {
`man vxintro`;
}
sub get_version {
$version=`swlist -l product VRTSvxvm | grep VRTSvxvm | awk '{print $2}' | cut -d, -f1|cut -d: -f2`;
print "\nVeritas Volume Manager version: $version\n";
}
&check_vxvm;
%Options;
getopts('vdgashVH', \%Options);
if ( $Options{v} ) {
&get_version;
&get_dg;
&get_vols;
} elsif ( $Options{d}) {
&get_version;
&get_disks;
} elsif ( $Options{g}) {
&get_version;
&get_dg;
&get_vols;
} elsif ( $Options{a}) {
&get_version;
&get_disks;
&get_vols;
} elsif ( $Options{s}) {
&get_version;
&get_disks;
&get_vols;
} elsif ( $Options{h}) {
&do_help;
} elsif ( $Options{H}) {
&get_bighelp;
} elsif ( $Options{V}) {
&get_version;
} else {
&do_usage;
}
##############################################################################
### This script is submitted to BigAdmin by a user of the BigAdmin community.
### Sun Microsystems, Inc. is not responsible for the
### contents or the code enclosed.
###
###
### Copyright Sun Microsystems, Inc. ALL RIGHTS RESERVED
### Use of this software is authorized pursuant to the
### terms of the license found at
### http://www.sun.com/bigadmin/common/berkeley_license.jsp
##############################################################################