pandorafms/pandora_agents/unix/pandora_agent

1592 lines
48 KiB
Perl
Executable File

#!/usr/bin/perl
# **********************************************************************
# Pandora FMS Generic Unix/Perl Agent
# (c) 2010 Artica Soluciones Tecnológicas
# with the help of many people. Please see http://pandorafms.org
# This code is licensed under GPL 2.0 license.
# **********************************************************************
=head1 NAME
pandora_agent - Pandora FMS Agent
=head1 VERSION
Version 3.2
=head1 USAGE
C<< pandora_agent F<pandora home> >>
=cut
use strict;
use warnings;
use POSIX qw(strftime floor);
use Sys::Hostname;
use File::Basename;
use File::Copy;
use IO::Socket;
# Agent XML data
my $Xml;
# Semaphore used to acces $Xml
my $Sem = undef;
# Semaphore used to control the number of threads
my $ThreadSem = undef;
# Load thread support
eval {
local $SIG{__DIE__};
require threads;
require threads::shared;
require Thread::Semaphore;
};
if (!$@) {
$Sem = Thread::Semaphore->new;
threads::shared::share (\$Xml);
threads::shared::share (\$Sem);
}
use constant AGENT_VERSION => '3.2';
use constant AGENT_BUILD => '101227';
# Commands to retrieve total memory information in kB
use constant TOTALMEMORY_CMDS => {
linux => 'cat /proc/meminfo | grep MemTotal: | awk \'{ print $2 }\'',
solaris => 'MEM=`prtconf | grep Memory | awk \'{print $3}\'` bash -c \'echo $(( 1024 * $MEM ))\'',
hpux => 'swapinfo -t | grep memory | awk \'{print $2}\'',
freebsd => 'sysctl hw.physmem | awk \'{print $2 / 1024}\''
};
# Commands to retrieve free memory information in kB
use constant FREEMEMORY_CMDS => {
linux => 'cat /proc/meminfo | grep MemFree: | awk \'{ print $2 }\'',
solaris => 'vmstat 1 2 | tail -1 | awk \'{ print $5 }\'',
hpux => 'swapinfo -t | grep memory | awk \'{print $4}\'',
freebsd => 'vmstat -H 1 2 | tail -1 | awk \'{ print $5 }\''
};
# Commands to retrieve cpu information
use constant CPUUSAGE_CMDS => {
linux => 'vmstat 1 2 | tail -1 | awk \'{ print $13 }\'',
solaris => 'vmstat 1 2 | tail -1 | awk \'{ print $21 }\'',
hpux => 'vmstat 1 2 | tail -1 | awk \'{ print $16 }\'',
freebsd => 'vmstat -n 0 1 2 | tail -1 | awk \'{ print $15 }\''
};
# Commands to retrieve process information
use constant PROC_CMDS => {
# cpu usage, memory usage, command name
linux => 'ps aux | awk \'NR > 1 {ps = ""; for (i = 11; i <= NF; ++i) {ps = (ps " " $i) }; print $3, $6, ps}\'',
solaris => 'prstat 1 1 | awk \'NR > 1 {split ($10, ps, "/"); cpu = substr ($9, 1, length ($9) - 1); mem = substr ($3, 1, length ($3) - 1); print cpu, mem, ps[1]}\'',
hpux => 'ps -elf | awk \'NR > 1 {ps = ""; for (i = 15; i <= NF; ++i) {ps = (ps " " $i) }; print 0, $10, ps}\'',
aix => 'ps aux | awk \'NR > 1 {print $3, $6, $11}\'',
freebsd => 'ps -axw -o %cpu,%mem,command | awk \'NR > 1 {ps = ""; for (i = 3; i <= NF; ++i) {ps = (ps " " $i) }; print $1, $2, ps}\''
};
# Commands to retrieve partition information in kB
use constant PART_CMDS => {
# total, available, mount point
linux => 'df -P | awk \'NR > 1 {print $2, $4, $6}\'',
solaris => 'df -k | awk \'NR > 1 {print $2, $4, $6}\'',
hpux => 'df -P | awk \'NR > 1 {print $2, $4, $6}\'',
aix => 'df -kP | awk \'NR > 1 {print $2, $4, $6}\'',
freebsd => 'df -k | awk \'NR > 1 {print $2, $4, $6}\''
};
# OS and OS version
my $OS = $^O;
my $OS_VERSION;
# Used to calculate the MD5 checksum of a string
use constant MOD232 => 2**32;
# Directory where pandora_agent.conf is located
my $ConfDir = '';
# Pandora FMS agent configuration file
my $ConfFile = 'pandora_agent.conf';
# Configuration tokens
my %Conf = (
'server_ip' => 'localhost',
'server_path' => '/var/spool/pandora/data_in',
'logfile' =>'/var/log/pandora/pandora_agent.log',
'temporal' => '/var/spool/pandora',
'interval' => 300,
'debug' => 0,
'agent_name' => hostname (),
'description' => '',
'group' => '',
'encoding' => 'ISO-8859-1',
'server_port' => 41121,
'transfer_mode' => 'tentacle',
'server_pwd' => '',
'server_ssl' => 'no',
'server_opts' => '',
'delayed_startup' => 0,
'pandora_nice' => 10,
'cron_mode' => 0,
'remote_config' => 0,
'secondary_mode' => 'never',
'secondary_server_ip' => 'localhost',
'secondary_server_path' => '/var/spool/pandora/data_in',
'secondary_server_port' => 41121,
'secondary_transfer_mode' => 'tentacle',
'secondary_server_pwd' => 'mypassword',
'secondary_server_ssl' => 'no',
'secondary_server_opts' => '',
'autotime' => 0,
'timezone_offset' => 0,
'pandora_exec' => 'pandora_agent_exec',
'agent_threads' => 1,
'udp_server_port' => 41122,
'udp_server_auth_address' => '0.0.0.0',
'udp_server' => 0,
'proxy_mode' => 0,
'proxy_max_connection' => 10,
'proxy_timeout' => 1,
);
# Modules
my @Modules;
# Plugins
my @Plugins;
# Logfile file handle
my $LogFileFH;
# Agent name MD5;
my $AgentMD5;
# Remote configuration file name
my $RemoteConfFile;
# Remote md5 file name
my $RemoteMD5File;
# Process data
my %Procs = (
'__utimestamp__' => 0
);
# Partition data
my %Parts = (
'__utimestamp__' => 0
);
# Collections
my %Collections;
# $DevNull
my $DevNull = '/dev/null';
# Shell command separator
my $CmdSep = ';';
# PID of tentacle proxy, used in proxy mode
my $tentacle_pid = undef;
################################################################################
# Print usage information and exit.
################################################################################
sub print_usage () {
print "\nUsage: $0 <Pandora home>\n\n";
print "\tPandora home is the directory where pandora_agent.conf is located,\n";
print "\tby default /etc/pandora.\n\n";
exit 1;
}
################################################################################
# Print an error message and exit.
################################################################################
sub error ($) {
my $msg = shift;
print ("[ERROR] $msg\n\n");
exit 1;
}
################################################################################
# Recursively delete files and directories.
################################################################################
sub rmrf {
my $path = shift;
local *DIR;
if (-d $path) {
opendir (DIR, $path) || return;
while (defined (my $file_name = readdir(DIR))) {
next if ($file_name eq '.' || $file_name eq '..');
rmrf ("$path/$file_name");
}
closedir (DIR);
rmdir ($path);
} else {
unlink ($path);
}
}
################################################################################
# Recursively set file permissions.
################################################################################
sub chmodr {
my ($perm, $path) = @_;
local *DIR;
if (-d $path) {
opendir (DIR, $path) || return;
while (defined (my $file_name = readdir(DIR))) {
next if ($file_name eq '.' || $file_name eq '..');
chmodr ($perm, "$path/$file_name");
}
closedir (DIR);
}
chmod ($perm, $path);
}
################################################################################
# Open the agent logfile and start logging.
################################################################################
sub start_log () {
# Get the logfile
my $log_file_name = read_config ('logfile');
$log_file_name = '/var/log/pandora/pandora_agent.log' unless defined ($log_file_name);
# Open it
open ($LogFileFH, "> $log_file_name") or error ("Could not open log file '$log_file_name' for writing: $!.");
print "Logging to $log_file_name\n";
}
################################################################################
# Close the agent logfile and stop logging.
################################################################################
sub stop_log () {
close ($LogFileFH);
}
################################################################################
# Log a message to the agent logfile.
################################################################################
sub log_message ($$;$) {
my ($source, $msg, $dest) = @_;
if (defined ($dest)) {
print $dest strftime ('%Y/%m/%d %H:%M:%S', localtime ()) . " - [$source] - $msg\n";
} else {
print $LogFileFH strftime ('%Y/%m/%d %H:%M:%S', localtime ()) . " - [$source] - $msg\n";
}
}
################################################################################
# Read configuration file. Exit on error.
################################################################################
sub read_config (;$) {
my $token = shift;
my $module;
error ("File '$ConfDir/$ConfFile' not found.") unless (-e "$ConfDir/$ConfFile");
open (CONF_FILE, "$ConfDir/$ConfFile") or error ("Could not open file '$ConfDir/$ConfFile': $!.");
while (my $line = <CONF_FILE>) {
# Skip comments and empty lines
next if ($line =~ m/^\s*#/) or ($line =~ m/^\s*$/);
# Single token search
if (defined ($token)) {
return $2 if ($line =~ /^\s*(\S+)\s+(.*)$/ && $1 eq $token);
next;
}
# Module definition
if ($line =~ /^\s*module_begin\s*$/) {
$module = {
'name' => '',
'type' => 'generic_data',
'description' => '',
'func' => 0,
'params' => '',
'description' => '',
'interval' => 1,
'timeout' => 0,
'counter' => 0,
'max' => undef,
'min' => undef,
'post_process' => undef,
'save' => '',
'conditions' => [],
'cron' => '',
'cron_utimestamp' => 0,
'cron_interval' => -1
};
} elsif ($line =~ /^\s*module_name\s+(.+)$/) {
$module->{'name'} = $1;
} elsif ($line =~ /^\s*module_description\s+(.+)$/) {
$module->{'description'} = $1;
} elsif ($line =~ /^\s*module_type\s+(\S+)\s*$/) {
$module->{'type'} = $1;
} elsif ($line =~ /^\s*module_exec\s+(.+)$/) {
$module->{'func'} = \&module_exec;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*module_cpuusage\s+(.*)$/) {
$module->{'func'} = \&module_cpuusage;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*module_freememory\s+(.*)$/) {
$module->{'func'} = \&module_freememory;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*module_freepercentmemory\s+(.*)$/) {
$module->{'func'} = \&module_freepercentmemory;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*(module_proc|module_service)\s+(.+)$/) {
$module->{'func'} = \&module_proc;
$module->{'params'} = $2;
} elsif ($line =~ /^\s*module_cpuproc\s+(.+)$/) {
$module->{'func'} = \&module_cpuproc;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*module_memproc\s+(.+)$/) {
$module->{'func'} = \&module_memproc;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*module_freedisk\s+(.*)$/) {
$module->{'func'} = \&module_freedisk;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*module_freepercentdisk\s+(.*)$/) {
$module->{'func'} = \&module_freepercentdisk;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*module_occupiedpercentdisk\s+(.*)$/) {
$module->{'func'} = \&module_occupiedpercentdisk;
$module->{'params'} = $1;
} elsif ($line =~ /^\s*module_max\s+(.*)\s*$/) {
$module->{'max'} = $1;
} elsif ($line =~ /^\s*module_min\s+(.*)\s*$/) {
$module->{'min'} = $1;
} elsif ($line =~ /^\s*module_postprocess\s+(.*)\s*$/) {
$module->{'post_process'} = $1;
} elsif ($line =~ /^\s*module_interval\s+(\d+)\s*$/) {
$module->{'interval'} = $1;
# Make the module run the first time
$module->{'counter'} = $1;
} elsif ($line =~ /^\s*module_timeout\s+(\d+)\s*$/) {
$module->{'timeout'} = $1;
} elsif ($line =~ /^\s*module_save\s+(\w+)$/) {
$module->{'save'} = $1;
} elsif ($line =~ /^\s*module_condition\s+(.*)$/) {
my $action = $1;
# Numeric comparison
if ($action =~ /^\s*([<>!=]+)\s+(\d+\.\d*)\s+(.*)$/) {
push (@{$module->{'conditions'}}, {'operator' => $1, 'value_1' => $2, 'command' => $3});
# Interval
} elsif ($action =~ /^\s*[(]\s*(\d+\.\d*)\s*,\s*(\d+\.\d*)\s*[)]\s+(.*)$/) {
push (@{$module->{'conditions'}}, {'operator' => '()', 'value_1' => $1, 'value_2' => $2, 'command' => $3});
# Regular expression
} elsif ($action =~ /^\s*=~\s+(\S*)\s+(.*)$/) {
push (@{$module->{'conditions'}}, {'operator' => '=~', 'value_1' => $1, 'command' => $2});
}
} elsif ($line =~ /^\s*module_crontab\s+(((\*|(\d+(-\d+){0,1}))\s*){5}).*$/) {
$module->{'cron'} = $1;
} elsif ($line =~ /^\s*module_cron_interval\s+(\d+).*$/) {
$module->{'cron_interval'} = $1;
} elsif ($line =~ /^\s*module_end\s*$/) {
next unless ($module->{'name'} ne '') and ($module->{'func'} != 0);
push (@Modules, $module);
# Plugin
} elsif ($line =~ /^\s*module_plugin\s+(.+)$/) {
push (@Plugins, $1);
# Module proc command redefinition
} elsif ($line =~ /^\s*module_proc_cmd\s+(.+)$/) {
PROC_CMDS->{$OS} = $1;
# Module freedisk command redefinition
} elsif ($line =~ /^\s*module_freedisk_cmd\s+(.+)$/) {
PART_CMDS->{$OS} = $1;
# Collection
} elsif ($line =~ /^\s*file_collection\s+(.+)$/) {
my $collection = $1;
# Prevent path traversal attacks
if ($collection !~ m/(\.\.)|\//) {
$Collections{$collection} = 0;
}
# Configuration token
} elsif ($line =~ /^\s*(\S+)\s+(.*)$/) {
log_message ('setup', "$1 is $2");
$Conf{$1} = $2;
# Remove trailing spaces
$Conf{$1} =~ s/\s*$//;
}
}
# Token not found
if (defined ($token)) {
close (CONF_FILE);
return undef;
}
# Update the agent MD5 since agent_name may have changed
$AgentMD5 = md5 ($Conf{'agent_name'});
$RemoteConfFile = "$AgentMD5.conf";
$RemoteMD5File = "$AgentMD5.md5";
# Set the maximun number of threads
$ThreadSem = Thread::Semaphore->new ($Conf{'agent_threads'}) if defined ($Sem);
# Set tentacle client options
if ($Conf{'transfer_mode'} eq 'tentacle') {
$Conf{'server_opts'} = '-x \'' . $Conf{'server_pwd'} . '\' ' . $Conf{'server_opts'} if ($Conf{'server_pwd'} ne '');
$Conf{'server_opts'} = '-c ' . $Conf{'server_opts'} if ($Conf{'server_ssl'} eq 'yes');
}
# Set tentacle client options for secondary server
if ($Conf{'secondary_transfer_mode'} eq 'tentacle') {
$Conf{'secondary_server_opts'} = '-x \'' . $Conf{'secondary_server_pwd'} . '\' ' . $Conf{'secondary_server_opts'} if ($Conf{'secondary_server_pwd'} ne '');
$Conf{'secondary_server_opts'} = '-c ' . $Conf{'secondary_server_opts'} if ($Conf{'secondary_server_ssl'} eq 'yes');
}
close (CONF_FILE);
}
################################################################################
# Remove any trailing / from directory names.
################################################################################
sub fix_directory ($) {
my $dir = shift;
my $char = chop ($dir);
return $dir if ($char eq '/');
return $dir . $char;
}
################################################################################
# Sends a file to the server.
################################################################################
#sub send_file ($;$) {
sub send_file {
my ($file, $secondary) = @_;
my $output;
if ($Conf{'transfer_mode'} eq 'tentacle') {
$output = `tentacle_client -v -a $Conf{'server_ip'} -p $Conf{'server_port'} $Conf{'server_opts'} $file 2>&1 >$DevNull`;
} elsif ($Conf{'transfer_mode'} eq 'ssh') {
$output = `scp -P $Conf{'server_port'} $file pandora@"$Conf{'server_ip'}:$Conf{'server_path'}" 2>&1 >$DevNull`;
} elsif ($Conf{'transfer_mode'} eq 'ftp') {
my $base = basename ($file);
my $dir = dirname ($file);
$output = `ftp -n $Conf{'server_ip'} $Conf{'server_port'} 2>&1 >$DevNull <<FEOF1
quote USER pandora
quote PASS $Conf{'server_pwd'}
lcd "$dir"
cd "$Conf{'server_path'}"
put "$base"
quit
FEOF1`
} elsif ($Conf{'transfer_mode'} eq 'local') {
$output = `cp $file $Conf{'server_path'}/ 2>&1 >$DevNull`;
}
# Get the errorlevel
my $rc = $? >> 8;
if ($rc != 0) {
log_message ('error', "Error sending file '$file': $output");
}
return $rc unless (defined ($secondary));
# Send the file to the secondary server
return $rc unless ($Conf{'secondary_mode'} eq 'always' || ($Conf{'secondary_mode'} eq 'on_error' && $rc != 0));
swap_servers ();
$rc = send_file ($file);
swap_servers ();
return $rc;
}
################################################################################
# Swap primary and secondary servers.
################################################################################
sub swap_servers () {
($Conf{'server_ip'}, $Conf{'secondary_server_ip'}) = ($Conf{'secondary_server_ip'}, $Conf{'server_ip'});
($Conf{'server_path'}, $Conf{'secondary_server_path'}) = ($Conf{'secondary_server_path'}, $Conf{'server_path'});
($Conf{'server_port'}, $Conf{'secondary_server_port'}) = ($Conf{'secondary_server_port'}, $Conf{'server_port'});
($Conf{'server_transfer_mode'}, $Conf{'secondary_server_transfer_mode'}) = ($Conf{'secondary_server_transfer_mode'}, $Conf{'server_transfer_mode'});
($Conf{'server_pwd'}, $Conf{'secondary_server_pwd'}) = ($Conf{'secondary_server_pwd'}, $Conf{'server_pwd'});
($Conf{'server_ssl'}, $Conf{'secondary_server_ssl'}) = ($Conf{'secondary_server_ssl'}, $Conf{'server_ssl'});
($Conf{'server_opts'}, $Conf{'secondary_server_opts'}) = ($Conf{'secondary_server_opts'}, $Conf{'server_opts'});
}
################################################################################
# Receive a file from the server.
################################################################################
sub recv_file ($) {
my $file = shift;
my $output;
if ($Conf{'transfer_mode'} eq 'tentacle') {
$output = `cd "$Conf{'temporal'}"$CmdSep tentacle_client -v -g -a $Conf{'server_ip'} -p $Conf{'server_port'} $Conf{'server_opts'} $file 2>&1 >$DevNull`
} elsif ($Conf{'transfer_mode'} eq 'ssh') {
$output = `scp -P $Conf{'server_port'} pandora@"$Conf{'server_ip'}:$Conf{'server_path'}/$file" $Conf{'temporal'} 2>&1 >$DevNull`;
} elsif ($Conf{'transfer_mode'} eq 'ftp') {
my $base = basename ($file);
my $dir = dirname ($file);
$output = `ftp -n $Conf{'server_ip'} $Conf{'server_port'} 2>&1 >$DevNull <<FEOF1
quote USER pandora
quote PASS $Conf{'server_pwd'}
lcd "$Conf{'temporal'}"
cd "$Conf{'server_path'}"
get "$file"
quit
FEOF1`
} elsif ($Conf{'transfer_mode'} eq 'local') {
$output = `cp $Conf{'server_path'}/$file $Conf{'temporal'} 2>&1 >$DevNull`;
}
# Get the errorlevel
my $rc = $? >> 8;
if ($rc != 0) {
log_message ('error', "Error retrieving file: $output");
}
return $rc;
}
################################################################################
# Check the server for a remote configuration.
################################################################################
sub check_remote_config () {
return unless ($Conf{'remote_config'} eq '1');
# Calculate the configuration file MD5 digest
open (CONF_FILE, "$ConfDir/$ConfFile") or error ("Could not open file '$ConfDir/$ConfFile': $!.");
binmode(CONF_FILE);
my $conf_md5 = md5 (join ('', <CONF_FILE>));
close (CONF_FILE);
# Get the remote MD5 file
if (recv_file ($RemoteMD5File) != 0) {
open (MD5_FILE, "> $Conf{'temporal'}/$RemoteMD5File") || error ("Could not open file '$ConfDir/$RemoteMD5File' for writing: $!.");
print MD5_FILE $conf_md5;
close (MD5_FILE);
copy ("$ConfDir/$ConfFile", "$Conf{'temporal'}/$RemoteConfFile");
send_file ("$Conf{'temporal'}/$RemoteConfFile");
send_file ("$Conf{'temporal'}/$RemoteMD5File");
log_message ('remote config', 'Uploading configuration for the first time.');
unlink ("$Conf{'temporal'}/$RemoteConfFile");
unlink ("$Conf{'temporal'}/$RemoteMD5File");
return;
}
open (MD5_FILE, "< $Conf{'temporal'}/$RemoteMD5File") || error ("Could not open file '$ConfDir/$RemoteMD5File' for writing: $!.");
my $remote_conf_md5 = <MD5_FILE>;
close (MD5_FILE);
# No changes
return if ($remote_conf_md5 eq $conf_md5);
# Get the new configuration file
return if (recv_file ($RemoteConfFile) != 0);
log_message ('remote config', 'Configuration has changed!');
# Empty modules, plugins and collections
@Modules = ();
@Plugins = ();
%Collections = ();
# Save the new configuration and reload it
move ("$Conf{'temporal'}/$RemoteConfFile", "$ConfDir/$ConfFile");
read_config ();
# Log file may have changed
stop_log ();
start_log ();
#Set nice of the pandora_agent
my $PID = $$;
`renice "$Conf{'pandora_nice'}" "$PID"`;
}
################################################################################
# SUB launch_tentacle_proxy
# Launchs tentacle server in proxy mode.
################################################################################
sub launch_tentacle_proxy () {
# Check if proxy server ip is right.
if ($Conf{'server_ip'} ne "localhost") {
#Create a new process and launch tentacle.
$tentacle_pid = fork();
if ($tentacle_pid == 0) {
#Execute tentacle server as a daemon
my $new_process = "tentacle_server -b ".$Conf{'server_ip'}." -g ".$Conf{'server_port'}." -c ".$Conf{'proxy_max_connection'}." -t ".$Conf{'proxy_timeout'};
log_message ('setup', 'Proxy mode enabled');
exec ($new_process);
}
} else {
log_message ('error', 'You can not proxy to localhost');
}
}
################################################################################
# Delete old collections and download new collections.
################################################################################
sub check_collections () {
# Delete old collections
opendir (DIR, "$ConfDir/collections") || return;
while (defined (my $file_name = readdir(DIR))) {
next if ($file_name eq '.' || $file_name eq '..');
# Do not delete md5 files associated to a collection
$file_name =~ s/\.md5$//;
if (! defined ($Collections{$file_name})) {
rmrf ("$ConfDir/collections/$file_name");
unlink ("$ConfDir/collections/$file_name.md5");
}
}
closedir (DIR);
# Download new collections
while (my ($collection, $in_path) = each (%Collections)) {
my $collection_file = $collection . ".zip";
my $collection_md5_file = $collection . ".md5";
# Add the collection directory to the PATH
if ($in_path == 0) {
$Collections{$collection} = 1;
$ENV{'PATH'} .= ":$ConfDir/collections/$collection";
}
# Get remote md5
next unless (recv_file ($collection_md5_file) == 0);
open (MD5_FILE, "< $Conf{'temporal'}/$collection_md5_file") || error ("Could not open file '$Conf{'temporal'}/$collection_md5_file' for reading: $!.");
my $remote_collection_md5 = <MD5_FILE>;
close (MD5_FILE);
unlink ("$Conf{'temporal'}/$collection_md5_file");
# Read local md5
my $local_collection_md5 = '';
if (defined (open (MD5_FILE, "< $ConfDir/collections/$collection_md5_file"))) {
$local_collection_md5 = <MD5_FILE>;
close MD5_FILE;
}
# Check for changes
$local_collection_md5 = $remote_collection_md5 unless defined ($local_collection_md5);
next if ($local_collection_md5 eq $remote_collection_md5);
# Download and unzip
next unless (recv_file ($collection_file) == 0);
rmrf ("$ConfDir/collections/$collection");
`unzip -d "$ConfDir/collections/$collection" "$Conf{'temporal'}/$collection_file" 2>$DevNull`;
unlink ("$Conf{'temporal'}/$collection_file");
# Save the new md5
open (MD5_FILE, "> $ConfDir/collections/$collection_md5_file") || error ("Could not open file '$ConfDir/collections/$collection_md5_file' for writing: $!.");
print MD5_FILE "$remote_collection_md5";
close (MD5_FILE);
# Set proper file permissions
chmodr (0750, "$ConfDir/collections/$collection");
}
}
###############################################################################
# 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 ≡ 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));
}
################################################################################
# Try to guess the OS version.
################################################################################
sub guess_os_version ($) {
my $os = shift;
my $os_version;
# Linux
if ($os eq 'linux') {
$os_version = `lsb_release -sd 2>$DevNull`;
# AIX
} elsif ($os eq 'aix') {
$os_version = "$2.$1" if (`uname -rv` =~ /\s*(\d)\s+(\d)\s*/);
# Windows
} elsif ($os =~ /win/i) {
$os_version = `ver`;
$DevNull = '/Nul';
$CmdSep = '\&';
$OS = "windows";
# Solaris, HP-UX, BSD and others
} else {
$os_version = `uname -r`;
}
# Something went wrong
return '' unless defined ($os_version);
# Remove any trailing new lines
chomp ($os_version);
return $os_version;
}
################################################################################
# Execute the given module.
################################################################################
sub exec_module ($) {
my $module = shift;
# Need something to execute
if ($module->{'func'} == 0) {
$ThreadSem->up () if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1);
return;
}
# Check module interval
if (++($module->{'counter'}) < $module->{'interval'}) {
$ThreadSem->up () if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1);
return;
}
# Check module cron
if (check_module_cron ($module) != 1) {
$ThreadSem->up () if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1);
return;
}
# Reset module counter
$module->{'counter'} = 0;
# Temporarily disable strict refs
no strict 'refs';
# Run
my @value = &{$module->{'func'}}($module);
# Save the module value if needed (only works for the first returned value)
if ($module->{'save'} ne '') {
if (defined ($value[0])) {
$ENV{$module->{'save'}} = $value[0] ;
} else {
$ENV{$module->{'save'}} = '';
}
}
write_module_xml ($module, @value);
$ThreadSem->up () if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1);
}
################################################################################
# Load process information.
################################################################################
sub load_procs () {
my $utimestamp = time ();
# Do we know hoy to get process information in this OS?
return unless defined (PROC_CMDS->{$OS});
# Update at most once every interval
return if ($Procs{'__utimestamp__'} > ($utimestamp - $Conf{'interval'}));
# Get process information
my $cmd = PROC_CMDS->{$OS};
my @procs = `$cmd`;
return undef unless ($? eq 0);
# Discard the header
shift (@procs);
# Parse process information
foreach my $proc (@procs) {
chomp ($proc);
my @proc_info = split (/\s+/, $proc);
next unless ($#proc_info >= 2);
# Process command
my $proc_cmd = join (' ', @proc_info[2..$#proc_info]);
# Process command
$Procs{$proc_cmd} = ();
# Process CPU usage
$Procs{$proc_cmd}{'cpu'} = $proc_info[0];
# Process virtual size
$Procs{$proc_cmd}{'size'} = $proc_info[1];
}
$Procs{'__utimestamp__'} = $utimestamp;
}
################################################################################
# Load partition information.
################################################################################
sub load_parts () {
my $utimestamp = time ();
# Do we know hoy to get partition information in this OS?
return unless defined (PART_CMDS->{$OS});
# Update at most once every interval
return if ($Parts{'__utimestamp__'} > ($utimestamp - $Conf{'interval'}));
# Get partition information
my $cmd = PART_CMDS->{$OS};
my @parts = `$cmd`;
return undef unless ($? eq 0);
# Parse partition information
foreach my $part (@parts) {
chomp ($part);
my @part_info = split (/\s+/, $part);
next unless ($#part_info >= 2);
my $part = join (' ', @part_info[2..$#part_info]);
# Mount point
$Parts{$part} = ();
# Total space in kB
$Parts{$part}{'total'} = $part_info[0];
# Available space in kB
$Parts{$part}{'avail'} = $part_info[1];
}
$Parts{'__utimestamp__'} = $utimestamp;
}
################################################################################
# Execute the given command.
################################################################################
sub module_exec ($) {
my $module = shift;
my @data;
# Check module parameters
return () unless ($module->{'params'} ne '');
# Execute the command
if ($module->{'timeout'} == 0) {
@data = `$module->{'params'} 2> $DevNull`;
} else {
my $cmd = quotemeta ($module->{'params'});
@data = `$Conf{'pandora_exec'} $module->{'timeout'} $cmd 2> $DevNull`;
}
# Something went wrong or no data
return () unless ($? eq 0 && defined ($data[0]));
# Evaluate module conditions
evaluate_module_conditions ($module, $data[0]);
return @data;
}
################################################################################
# Get the status of a process. 1 running, 0 not running.
################################################################################
sub module_proc ($) {
my $module = shift;
# Check module parameters
return () unless ($module->{'params'} ne '');
# Data collection layer
load_procs ();
return (1) if defined ($Procs{$module->{'params'}});
return (0);
}
################################################################################
# Get the CPU usage of a process.
################################################################################
sub module_cpuproc ($) {
my $module = shift;
# Check module parameters
return () unless ($module->{'params'} ne '');
return () unless defined ($Procs{$module->{'params'}}) and defined ($Procs{$module->{'params'}}{'cpu'});
return ($Procs{$module->{'params'}}{'cpu'});
}
################################################################################
# Get the memory usage of a process in Mbytes.
################################################################################
sub module_memproc ($) {
my $module = shift;
# Check module parameters
return () unless ($module->{'params'} ne '');
# Data collection layer
load_procs ();
return () unless defined ($Procs{$module->{'params'}}) and defined ($Procs{$module->{'params'}}{'size'});
return (sprintf ("%d", $Procs{$module->{'params'}}{'size'} / 1024));
}
################################################################################
# Get the free space in a partition in Mbytes.
################################################################################
sub module_freedisk ($) {
my $module = shift;
# Check module parameters
return () unless ($module->{'params'} ne '');
# Data collection layer
load_parts ();
return () unless defined ($Parts{$module->{'params'}}) and defined ($Parts{$module->{'params'}}{'avail'});
my $avail = sprintf("%d", $Parts{$module->{'params'}}{'avail'} / 1024);
return ($avail);
}
################################################################################
# Get the free space in a partition in %.
################################################################################
sub module_freepercentdisk ($) {
my $module = shift;
# Check module parameters
return () unless ($module->{'params'} ne '');
# Data collection layer
load_parts ();
return () unless defined ($Parts{$module->{'params'}}) and defined ($Parts{$module->{'params'}}{'avail'});
my $availp = sprintf("%d", $Parts{$module->{'params'}}{'avail'} * 100 / $Parts{$module->{'params'}}{'total'});
return ($availp);
}
################################################################################
# Get the occupied space in a partition in %.
################################################################################
sub module_occupiedpercentdisk ($) {
my $module = shift;
# Check module parameters
return () unless ($module->{'params'} ne '');
# Data collection layer
load_parts ();
return () unless defined ($Parts{$module->{'params'}}) and defined ($Parts{$module->{'params'}}{'avail'});
my $occupiedp = sprintf("%d", ($Parts{$module->{'params'}}{'total'} - $Parts{$module->{'params'}}{'avail'}) * 100 / $Parts{$module->{'params'}}{'total'});
return ($occupiedp);
}
################################################################################
# Get the CPU usage %.
################################################################################
sub module_cpuusage ($) {
my $module = shift;
# Do we know hoy to get CPU usage in this OS?
return unless defined (CPUUSAGE_CMDS->{$OS});
# Get CPU usage
my $cmd = CPUUSAGE_CMDS->{$OS};
my @data = `$cmd 2> $DevNull`;
# Something went wrong or no data
return () unless ($? eq 0 && defined ($data[0]));
return ($data[0]);
}
################################################################################
# Get the free space in a partition in Mbytes.
################################################################################
sub module_freememory ($) {
my $module = shift;
# Do we know hoy to get memory information in this OS?
return () unless defined (FREEMEMORY_CMDS->{$OS});
# Get available memory
my $cmd = FREEMEMORY_CMDS->{$OS};
my @data = `$cmd 2> $DevNull`;
# Something went wrong or no data
return () unless ($? eq 0 && defined ($data[0]));
return (sprintf ("%d", $data[0] / 1024));
}
################################################################################
# Get the free space in a partition in %.
################################################################################
sub module_freepercentmemory ($) {
my $module = shift;
# Do we know hoy to get memory information in this OS?
return unless defined (TOTALMEMORY_CMDS->{$OS});
# Get CPU usage
my $cmd = TOTALMEMORY_CMDS->{$OS};
my @data = `$cmd 2> $DevNull`;
# Something went wrong or no data
return () unless ($? eq 0 && defined ($data[0]));
# Get total memory in MB
my $total = sprintf ("%d", $data[0] / 1024);
# Get available memory in MB
my ($avail) = module_freememory ($module);
return () unless defined ($avail);
return sprintf (("%d", $avail * 100 / $total));
}
################################################################################
# Evaluate and execute module conditions.
################################################################################
sub evaluate_module_conditions ($$) {
my ($module, $data) = @_;
# Evaluate conditions
foreach my $condition (@{$module->{'conditions'}}) {
if (($condition->{'operator'} eq '>' && $data > $condition->{'value_1'}) ||
($condition->{'operator'} eq '<' && $data < $condition->{'value_1'}) ||
($condition->{'operator'} eq '=' && $data == $condition->{'value_1'}) ||
($condition->{'operator'} eq '!=' && $data != $condition->{'value_1'}) ||
($condition->{'operator'} eq '=~' && $data =~ /$condition->{'value_1'}/) ||
($condition->{'operator'} eq '()' && $data > $condition->{'value_1'} && $data < $condition->{'value_2'})) {
`$condition->{'command'} 2> $DevNull`;
}
}
}
################################################################################
# Checks the module's cron string. Returns 1 if the module should be run, 0 if
# not.
################################################################################
sub check_module_cron ($) {
my $module = shift;
# No cron string defined
return 1 unless ($module->{'cron'} ne '');
# Check if the module was already executed
return 0 unless (time() > $module->{'cron_utimestamp'});
# Get cron configuration
my @cron_params = split (/\s/, $module->{'cron'});
# Get current time
my $current_time = time();
my @time = localtime($current_time);
# Minutes, hours, day of the month, month and day of the week
my @time_params = @time[1, 2, 3, 4, 6];
# Fix month (localtime retuns 0..11 and we need 1..12)
$time_params[3] += 1;
# Check cron parameters
for (my $i = 0; $i < 5; $i++) {
# Wildcard
next if ($cron_params[$i] eq '*');
# Get interval
my ($bottom, $top) = split (/-/, $cron_params[$i]);
$top = $bottom unless defined ($top);
# Check interval
if ($bottom <= $top) {
return 0 if ($time_params[$i] < $bottom || $time_params[$i] > $top);
} else {
return 0 if ($time_params[$i] < $bottom && $time_params[$i] > $top);
}
}
# Do not check in the next minute, hour, day or month.
my $offset = 0;
if ($module->{'cron_interval'} >= 0) {
$offset = $module->{'cron_interval'};
} elsif($cron_params[0] ne '*') {
# 1 minute
$offset = 60;
} elsif($cron_params[1] ne '*') {
# 1 hour
$offset = 3600;
} elsif($cron_params[2] ne '*' || $cron_params[4] ne '*') {
# 1 day
$offset = 86400;
} elsif($cron_params[3] ne '*') {
# 31 days
$offset = 2678400;
}
$module->{'cron_utimestamp'} = $current_time + $offset;
return 1;
}
################################################################################
# Write module data in XML format.
################################################################################
sub write_module_xml ($@) {
my ($module, @data) = @_;
# No data
return unless (defined $data[0]);
# Critical section
$Sem->down () if (defined ($Sem));
$Xml .= " <module>\n" .
" <name><![CDATA[" . $module->{'name'} . "]]></name>\n" .
" <description><![CDATA[" . $module->{'description'} . "]]></description>\n" .
" <type>" . $module->{'type'} . "</type>\n";
# Interval
$Xml .= " <module_interval>" . $module->{'interval'} . "</module_interval>\n" if ($module->{'interval'} > 1);
# Min
$Xml .= " <min>" . $module->{'min'} . "</min>\n" if (defined ($module->{'min'}));
# Max
$Xml .= " <max>" . $module->{'max'} . "</max>\n" if (defined ($module->{'max'}));
# Post process
$Xml .= " <post_process>" . $module->{'post_process'} . "</post_process>\n" if (defined ($module->{'post_process'}));
# Data list
if ($#data > 0) {
$Xml .= " <datalist>\n";
foreach my $data_item (@data) {
chomp ($data_item);
$Xml .= " <data><value><![CDATA[$data_item]]></value></data>\n";
}
$Xml .= " </datalist>\n";
# Single data
} else {
chomp ($data[0]);
$Xml .= " <data><![CDATA[$data[0]]]></data>\n";
}
$Xml .= " </module>\n";
$Sem->up () if (defined ($Sem));
}
################################################################################
# Receive a UDP server signal to restart agent
################################################################################
sub udp_server_signal () {
log_message ('udp server', 'Received signal to restart the agent.');
}
################################################################################
# Basic UDP server to restart agent on UDP signal received
################################################################################
sub udp_server ($$) {
my $udp_port = shift;
my $udp_auth_address = shift;
my $parent_pid = getppid();
my($sock, $oldmsg, $newmsg, $hisaddr, $hishost, $MAXLEN);
$MAXLEN = 1024;
log_message ('udp server', 'Starting UDP server listening on '.$udp_auth_address.":".$udp_port);
$sock = IO::Socket::INET->new(LocalPort => $udp_port, Proto => 'udp') or die "socket: $@";
while ($sock->recv($newmsg, $MAXLEN)) {
my($port, $ipaddr) = sockaddr_in($sock->peername);
$hishost = gethostbyaddr($ipaddr, AF_INET);
log_message ('udp server', 'Received signal from '.$hishost);
if (($udp_auth_address eq "0.0.0.0") || ($hishost eq $udp_auth_address)){
if ($newmsg =~ /REFRESH AGENT/){
# Send signal to restart agent
kill 'SIGINT' , $parent_pid;
}
}
}
}
################################################################################
# Execute the given plugin.
################################################################################
sub exec_plugin ($) {
my $plugin = shift;
my $output = `$plugin 2>$DevNull`;
# Do not save the output if there was an error
if ($? != 0) {
$ThreadSem->up () if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1);
return;
}
# Critical section
$Sem->down () if (defined ($Sem));
$Xml .= $output;
$Sem->up () if (defined ($Sem));
$ThreadSem->up () if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1);
}
################################################################################
# TERM Handler
################################################################################
sub kill_signal_handler (){
# Kill tentacle server if it was launched
if (defined ($tentacle_pid)) {
print "kill -9 $tentacle_pid\n";
`kill -9 $tentacle_pid`;
}
exit (0);
}
################################################################################
# Main.
################################################################################
#Handler TERM signal.
$SIG{'TERM'} = \&kill_signal_handler;
# Check command line arguments
print_usage unless ($#ARGV == 0);
$ConfDir = fix_directory ($ARGV[0]);
error ("Directory '$ConfDir' does not exist.") unless (-d "$ConfDir");
# Get user to run as
my $pandora_user = read_config ('pandora_user');
if (defined ($pandora_user)) {
# Change the EUID
my $pandora_user_uid = getpwnam ($pandora_user);
if (!defined ($pandora_user_uid)) {
error ("Cannot get uid for user $pandora_user. Does the user exist and can we read /etc/passwd?");
}
$> = $pandora_user_uid;
if ($> != $pandora_user_uid) {
error ("Cannot run as $pandora_user: Insufficient permissions.");
}
}
# Guess the OS version
$OS_VERSION = guess_os_version ($OS);
# Initialize MD5 variables
md5_init ();
# Start logging
start_log ();
log_message ('log', 'Running as user ' . getpwuid ($>));
# Read configuration file
read_config ();
# Fix directory names
$Conf{'temporal'} = fix_directory ($Conf{'temporal'});
error ("Temporal directory '" . $Conf{'temporal'} . "' does not exist.") unless (-d "$Conf{'temporal'}");
$Conf{'server_path'} = fix_directory ($Conf{'server_path'});
$Conf{'secondary_server_path'} = fix_directory ($Conf{'secondary_server_path'});
# Startup delay
log_message ('log', 'Sleeping for ' . $Conf{'delayed_startup'} . ' seconds.') if ($Conf{'delayed_startup'} > 0);
sleep ($Conf{'delayed_startup'});
#Set nice of the pandora_agent
my $PID = $$;
`renice "$Conf{'pandora_nice'}" "$PID"`;
#Launch tentacle server in proxy mode if configured
if ($Conf{'proxy_mode'}) {
#Check if user is root
if ($< != 0) {
launch_tentacle_proxy();
} else {
log_message ('error', 'Proxy mode can not be launched as root');
}
}
# Add the plugins directory to the PATH
$ENV{'PATH'} .= ":$ConfDir/plugins";
# Start UDP server if configured
if ($Conf{'udp_server'} == 1){
my $pid = fork();
if ($pid == 0){
udp_server ($Conf{'udp_server_port'}, $Conf{'udp_server_auth_address'});
exit;
}
}
# Loop
while (1) {
# Ignore signals from UDP and Tentacle server while processing execution
if ($Conf{'udp_server'} == 1 || $Conf{'proxy_mode'}){
$SIG{'INT'} = 'DEFAULT';
}
# Check for a new configuration
check_remote_config () unless ($Conf{'debug'} eq '1');
# Check file collections
check_collections () unless ($Conf{'debug'} eq '1');
$Xml = "<?xml version='1.0' encoding='" . $Conf{'encoding'} . "'?>\n" .
"<agent_data description='" . $Conf{'description'} ."' group='" . $Conf{'group'} .
"' os_name='$OS' os_version='$OS_VERSION' interval='" . $Conf{'interval'} .
"' version='" . AGENT_VERSION . '(Build ' . AGENT_BUILD . ')' . ($Conf{'autotime'} eq '1' ? '' : "' timestamp='" . strftime ('%Y/%m/%d %H:%M:%S', localtime ())) .
"' agent_name='" . $Conf{'agent_name'} . "' timezone_offset='". $Conf{'timezone_offset'};
if (defined ($Conf{'parent_agent_name'})) {
$Xml .= "' parent_agent_name='" .$Conf{'parent_agent_name'};
}
if (defined ($Conf{'longitude'}) && defined ($Conf{'latitude'})) {
$Xml .= "' longitude='" .$Conf{'longitude'} . "' latitude='" .$Conf{'latitude'};
if (defined ($Conf{'altitude'})) {
$Xml .= "' altitude='" .$Conf{'altitude'};
}
if (defined ($Conf{'position_description'})) {
$Xml .= "' position_description='" .$Conf{'position_description'};
}
}
$Xml .= "'>\n";
# Execute modules
foreach my $module (@Modules) {
# Execute the module in a separate thread
if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1) {
$ThreadSem->down ();
my $thr = threads->create (\&exec_module, $module);
if (! defined ($thr)) {
$ThreadSem->up ();
} else {
$thr->detach();
}
# Execute the module
} else {
exec_module ($module);
}
}
# Execute plugins
foreach my $plugin (@Plugins) {
# Execute the plugin in a separate thread
if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1) {
$ThreadSem->down ();
my $thr = threads->create (\&exec_plugin, $plugin);
if (! defined ($thr)) {
$ThreadSem->up ();
} else {
$thr->detach();
}
# Execute the plugin
} else {
exec_plugin ($plugin);
}
}
# Wait for all the threads
$ThreadSem->down ($Conf{'agent_threads'}) if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1);
$ThreadSem->up ($Conf{'agent_threads'}) if (defined ($ThreadSem) && $Conf{'agent_threads'} > 1);
$Xml .= "</agent_data>";
# Save XML data file
my $temp_file = $Conf{'temporal'} . '/' . $Conf{'agent_name'} . '.' . time () . '.data';
open (TEMP_FILE, "> $temp_file") || error ("Could not write XML data file: $!");
print TEMP_FILE $Xml;
close (TEMP_FILE);
# Debug mode
if ($Conf{'debug'} eq '1') {
log_message ('debug', "Wrote XML data file '$temp_file'");
log_message ('debug', "Wrote XML data file '$temp_file'", *STDOUT);
last;
}
# Send the XML data file
send_file ($temp_file, 1);
unlink ($temp_file);
# Cron mode
last if ($Conf{'cron_mode'} == 1);
# Enable signal capture to break the Sleep interval on UDP signal
if ($Conf{'udp_server'} == 1){
$SIG{'INT'} = \&udp_server_signal;
}
# Go to sleep
#
sleep ($Conf{'interval'});
}
__END__
=head1 EXIT STATUS
=over
=item 0 on Success
=item 1 on Error
=back
=head1 CONFIGURATION
By default pandora_agent uses F</etc/pandora> as B<home configuration directory>. There is the F<pandora_agent.conf> file with all the configuration of the agent.
=head1 DEPENDENCIES
=head1 LICENSE
This is released under the GNU Lesser General Public License.
=head1 SEE ALSO
=head1 COPYRIGHT
Copyright (c) 2005-2010 Artica Soluciones Tecnologicas S.L
=cut