#!/usr/bin/perl # (c) Artica Soluciones Tecnologicas 2010 # This script is licensed under GPL v2 licence. use strict; use POSIX qw(floor); # TODO: Let more massive changes (fields) to be changed. # Used to calculate the MD5 checksum of a string use constant MOD232 => 2**32; if ($#ARGV != 1) { print "This tool is used to do a massive change in all remote configuration\n"; print "files for the remote agents, and change a list of files, given it's \n"; print "agent name (case sensisitive)\n\n"; print "Usage: change_remoteconfig.pl \n\n"; exit; } my $fichero_nombres = $ARGV[0]; my $servidor_destino = $ARGV[1]; # Ruta al directorio data_in my $data_in = "/var/spool/pandora/data_in"; print "Massive changes are set. Ready to modify files at $data_in/conf and the MD5 hashes in $data_in/md5\n"; md5_init(); open (NOMBRES, $fichero_nombres) or die ("File $fichero_nombres not readable : $!"); my @servidores = ; close (NOMBRES); print "Server IP address '$servidor_destino' is about to be changed in these agents:\n"; print "Total agents: ". scalar(@servidores)."\n"; print @servidores; print "Waiting 10 seconds. Press ^C to cancel.n\n"; sleep (10); foreach (@servidores) { my $servidor = $_; chomp ($servidor); print "Procesing: $servidor " ; my $nombre_md5 = md5($servidor); my $fichero_conf = "$data_in/conf/$nombre_md5.conf"; # Se lee el fichero y se cambia la linea correspondiente open (CONF_FILE, $fichero_conf)or print ("Could not open file '$fichero_conf': $!."); open (NEW_CONF_FILE, '>', "$fichero_conf.new")or print ("Could not open file '$fichero_conf.new': $!."); while (my $linea = ) { if ($linea =~ m/^\s*server_ip.*/) { $linea = "server_ip\t$servidor_destino\n"; } print NEW_CONF_FILE $linea; } close (CONF_FILE); close (NEW_CONF_FILE); `mv $fichero_conf.new $fichero_conf`; # Calculate the new configuration file MD5 digest open (CONF_FILE, $fichero_conf)or print ("Could not open file '$fichero_conf': $!."); binmode(CONF_FILE); my $conf_md5 = md5 (join ('', )); close (CONF_FILE); print "Nuevo MD5 : $conf_md5\t"; my $fichero_md5 = "$data_in/md5/$nombre_md5.md5"; `echo -n "$conf_md5" > $fichero_md5`; } ############################################################################### # MD5 leftrotate function. See http://en.wikipedia.org/wiki/MD5#Pseudocode. ############################################################################### sub leftrotate ($$) { my ($x, $c) = @_; return (0xFFFFFFFF & ($x << $c)) | ($x >> (32 - $c)); } ############################################################################### # Initialize some variables needed by the MD5 algorithm. # See http://en.wikipedia.org/wiki/MD5#Pseudocode. ############################################################################### my (@R, @K); sub md5_init () { # R specifies the per-round shift amounts @R = (7, 12, 17, 22, 7, 12, 17, 22, 7, 12, 17, 22, 7, 12, 17, 22, 5, 9, 14, 20, 5, 9, 14, 20, 5, 9, 14, 20, 5, 9, 14, 20, 4, 11, 16, 23, 4, 11, 16, 23, 4, 11, 16, 23, 4, 11, 16, 23, 6, 10, 15, 21, 6, 10, 15, 21, 6, 10, 15, 21, 6, 10, 15, 21); # Use binary integer part of the sines of integers (radians) as constants for (my $i = 0; $i < 64; $i++) { $K[$i] = floor(abs(sin($i + 1)) * MOD232); } } ############################################################################### # Return the MD5 checksum of the given string. # Pseudocode from http://en.wikipedia.org/wiki/MD5#Pseudocode. ############################################################################### sub md5 ($) { my $str = shift; # Note: All variables are unsigned 32 bits and wrap modulo 2^32 when calculating # Initialize variables my $h0 = 0x67452301; my $h1 = 0xEFCDAB89; my $h2 = 0x98BADCFE; my $h3 = 0x10325476; # Pre-processing my $msg = unpack ("B*", pack ("A*", $str)); my $bit_len = length ($msg); # Append "1" bit to message $msg .= '1'; # Append "0" bits until message length in bits â¡ 448 (mod 512) $msg .= '0' while ((length ($msg) % 512) != 448); # Append bit /* bit, not byte */ length of unpadded message as 64-bit little-endian integer to message $msg .= unpack ("B64", pack ("VV", $bit_len)); # Process the message in successive 512-bit chunks for (my $i = 0; $i < length ($msg); $i += 512) { my @w; my $chunk = substr ($msg, $i, 512); # Break chunk into sixteen 32-bit little-endian words w[i], 0 <= i <= 15 for (my $j = 0; $j < length ($chunk); $j += 32) { push (@w, unpack ("V", pack ("B32", substr ($chunk, $j, 32)))); } # Initialize hash value for this chunk my $a = $h0; my $b = $h1; my $c = $h2; my $d = $h3; my $f; my $g; # Main loop for (my $y = 0; $y < 64; $y++) { if ($y <= 15) { $f = $d ^ ($b & ($c ^ $d)); $g = $y; } elsif ($y <= 31) { $f = $c ^ ($d & ($b ^ $c)); $g = (5 * $y + 1) % 16; } elsif ($y <= 47) { $f = $b ^ $c ^ $d; $g = (3 * $y + 5) % 16; } else { $f = $c ^ ($b | (0xFFFFFFFF & (~ $d))); $g = (7 * $y) % 16; } my $temp = $d; $d = $c; $c = $b; $b = ($b + leftrotate (($a + $f + $K[$y] + $w[$g]) % MOD232, $R[$y])) % MOD232; $a = $temp; } # Add this chunk's hash to result so far $h0 = ($h0 + $a) % MOD232; $h1 = ($h1 + $b) % MOD232; $h2 = ($h2 + $c) % MOD232; $h3 = ($h3 + $d) % MOD232; } # Digest := h0 append h1 append h2 append h3 #(expressed as little-endian) return unpack ("H*", pack ("V", $h0)) . unpack ("H*", pack ("V", $h1)) . unpack ("H*", pack ("V", $h2)) . unpack ("H*", pack ("V", $h3)); }