pandorafms/pandora_server/lib/PandoraFMS/PredictionServer.pm

365 lines
12 KiB
Perl

package PandoraFMS::PredictionServer;
########################################################################
# Pandora FMS Prediction Server.
# Pandora FMS. the Flexible Monitoring System. http://www.pandorafms.org
########################################################################
# Copyright (c) 2005-2023 Pandora FMS
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public License
# as published by the Free Software Foundation; version 2
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
##########################################################################
use strict;
use warnings;
use threads;
use threads::shared;
use Thread::Semaphore;
use IO::Socket::INET;
use Net::Ping;
use POSIX qw(floor strftime);
# Default lib dir for RPM and DEB packages
BEGIN { push @INC, '/usr/lib/perl5'; }
use PandoraFMS::Tools;
use PandoraFMS::DB;
use PandoraFMS::Core;
use PandoraFMS::ProducerConsumerServer;
use PandoraFMS::Statistics::Regression;
#For debug
#use Data::Dumper;
# Inherits from PandoraFMS::ProducerConsumerServer
our @ISA = qw(PandoraFMS::ProducerConsumerServer);
# Global variables
my @TaskQueue :shared;
my %PendingTasks :shared;
my $Sem :shared;
my $TaskSem :shared;
########################################################################
# Prediction Server class constructor.
########################################################################
sub new ($$;$) {
my ($class, $config, $dbh) = @_;
return undef unless $config->{'predictionserver'} == 1;
# Initialize semaphores and queues
@TaskQueue = ();
%PendingTasks = ();
$Sem = Thread::Semaphore->new;
$TaskSem = Thread::Semaphore->new (0);
# Call the constructor of the parent class
my $self = $class->SUPER::new($config, PREDICTIONSERVER, \&PandoraFMS::PredictionServer::data_producer, \&PandoraFMS::PredictionServer::data_consumer, $dbh);
bless $self, $class;
return $self;
}
########################################################################
# Run.
########################################################################
sub run ($) {
my $self = shift;
my $pa_config = $self->getConfig ();
print_message ($pa_config, " [*] Starting " . $pa_config->{'rb_product_name'} . " Prediction Server.", 1);
$self->setNumThreads ($pa_config->{'prediction_threads'});
$self->SUPER::run (\@TaskQueue, \%PendingTasks, $Sem, $TaskSem);
}
########################################################################
# Data producer.
########################################################################
sub data_producer ($) {
my $self = shift;
my ($pa_config, $dbh) = ($self->getConfig (), $self->getDBH ());
my @tasks;
my @rows;
if (pandora_is_master($pa_config) == 0) {
@rows = get_db_rows ($dbh, 'SELECT tagente_modulo.id_agente_modulo,
tagente_modulo.flag, last_execution_try
FROM tagente, tagente_modulo, tagente_estado
WHERE server_name = ?
AND tagente_modulo.id_agente = tagente.id_agente
AND tagente.disabled = 0
AND tagente_modulo.prediction_module != 0
AND tagente_modulo.disabled = 0
AND tagente_estado.id_agente_modulo = tagente_modulo.id_agente_modulo
AND tagente_modulo.id_modulo = 5
AND (tagente_modulo.flag = 1
OR (tagente_estado.last_execution_try + tagente_estado.current_interval) < UNIX_TIMESTAMP())
ORDER BY last_execution_try ASC ', safe_input($pa_config->{'servername'}));
}
else {
# If is metaconsole server, will evaluate orphan modules also.
@rows = get_db_rows ($dbh, 'SELECT DISTINCT(tagente_modulo.id_agente_modulo),
tagente_modulo.flag, last_execution_try
FROM tagente, tagente_modulo, tagente_estado
WHERE ((server_name = ?)
OR (server_name NOT IN (SELECT name
FROM tserver
WHERE status = 1 AND server_type = ?))
OR ((server_name = 0 OR server_name IS NULL) AND 1=?)
)
AND tagente_modulo.id_agente = tagente.id_agente
AND tagente.disabled = 0
AND tagente_modulo.disabled = 0
AND tagente_modulo.prediction_module != 0
AND tagente_estado.id_agente_modulo = tagente_modulo.id_agente_modulo
AND tagente_modulo.id_modulo = 5
AND (tagente_modulo.flag = 1
OR (tagente_estado.last_execution_try + tagente_estado.current_interval) < UNIX_TIMESTAMP())
ORDER BY last_execution_try ASC',
safe_input($pa_config->{'servername'}),
PREDICTIONSERVER,
is_metaconsole($pa_config)
);
}
foreach my $row (@rows) {
# Reset forced execution flag
if ($row->{'flag'} == 1) {
db_do ($dbh, 'UPDATE tagente_modulo SET flag = 0 WHERE id_agente_modulo = ?', $row->{'id_agente_modulo'});
}
push (@tasks, $row->{'id_agente_modulo'});
}
return @tasks;
}
########################################################################
# Data consumer.
########################################################################
sub data_consumer ($$) {
my ($self, $task) = @_;
exec_prediction_module ($self->getConfig (), $task, $self->getServerID (), $self->getDBH ());
}
########################################################################
# Execute prediction module.
########################################################################
sub exec_prediction_module ($$$$) {
my ($pa_config, $id_am, $server_id, $dbh) = @_;
# Get a full hash for agent_module record reference ($agent_module)
my $agent_module = get_db_single_row ($dbh, 'SELECT *
FROM tagente_modulo
WHERE id_agente_modulo = ?', $id_am);
return unless defined $agent_module;
# Service modules
if ($agent_module->{'prediction_module'} == 2) {
if ($agent_module->{'custom_string_1'} eq 'SLA') {
logger ($pa_config, "Executing service module SLA " .
$agent_module->{'id_agente_modulo'} . " " .
$agent_module->{'nombre'}, 10);
enterprise_hook ('exec_service_module_sla', [$pa_config, $agent_module, $server_id, $dbh]);
}
elsif ($agent_module->{'custom_string_1'} eq 'SLA_Value') {
#Do none
}
else {
logger ($pa_config, "Executing service module " .
$agent_module->{'id_agente_modulo'} . " " .
$agent_module->{'nombre'}, 10);
enterprise_hook ('exec_service_module', [$pa_config, $agent_module, undef, $server_id, $dbh]);
}
return;
}
# Synthetic modules
if ($agent_module->{'prediction_module'} == 3) {
logger ($pa_config, "Executing synthetic module " . $agent_module->{'nombre'}, 10);
enterprise_hook ('exec_synthetic_module', [$pa_config, $agent_module, $server_id, $dbh]);
return;
}
# Cluster status module.
if ($agent_module->{'prediction_module'} == 5) {
logger ($pa_config, "Executing cluster status module " . $agent_module->{'nombre'}, 10);
exec_cluster_status_module($pa_config, $agent_module, $server_id, $dbh);
return;
}
# Cluster active-active module.
if ($agent_module->{'prediction_module'} == 6) {
logger ($pa_config, "Executing cluster active-active module " . $agent_module->{'nombre'}, 10);
exec_cluster_aa_module($pa_config, $agent_module, $server_id, $dbh);
return;
}
# Cluster active-passive module.
if ($agent_module->{'prediction_module'} == 7) {
logger ($pa_config, "Executing cluster active-passive module " . $agent_module->{'nombre'}, 10);
exec_cluster_ap_module($pa_config, $agent_module, $server_id, $dbh);
return;
}
# Trend module.
if ($agent_module->{'prediction_module'} == 8) {
logger ($pa_config, "Executing trend module " . $agent_module->{'nombre'}, 10);
enterprise_hook ('exec_trend_module', [$pa_config, $agent_module, $server_id, $dbh]);
return;
}
# Capacity planning module.
exec_capacity_planning_module($pa_config, $agent_module, $server_id, $dbh);
}
########################################################################
# Execute a capacity planning module.
########################################################################
sub exec_capacity_planning_module($$$$) {
my ($pa_config, $module, $server_id, $dbh) = @_;
my $pred;
# Retrieve the target module.
my $target_module = get_db_single_row($dbh, 'SELECT * FROM tagente_modulo WHERE id_agente_modulo = ?', $module->{'custom_integer_1'});
if (!defined($target_module)) {
pandora_update_module_on_error ($pa_config, $module, $dbh);
return;
}
# Set the period.
my $period;
# Weekly.
if ($module->{'custom_integer_2'} == 0) {
$period = 604800;
}
# Monthly.
elsif ($module->{'custom_integer_2'} == 1) {
$period = 2678400;
}
# Daily.
else {
$period = 86400;
}
# Set other parameters.
my $now = time();
my $from = $now - $period;
my $type = $module->{'custom_string_2'};
my $target_value = $module->{'custom_string_1'};
# Fit a line of the form: y = theta_0 + x * theta_1
my ($theta_0, $theta_1);
eval {
($theta_0, $theta_1) = linear_regression($target_module, $from, $now, $dbh);
};
if (!defined($theta_0) || !defined($theta_1)) {
pandora_update_module_on_error ($pa_config, $module, $dbh);
return;
}
# Predict the value.
if ($type eq 'estimation_absolute') {
# y = theta_0 + x * theta_1
$pred = $theta_0 + ($now + $target_value) * $theta_1;
# Clip predictions.
if ($target_module->{'max'} != $target_module->{'min'}) {
if ($pred < $target_module->{'min'}) {
$pred = $target_module->{'min'};
}
elsif ($pred > $target_module->{'max'}) {
$pred = $target_module->{'max'};
}
}
}
# Predict the date.
else {
# Infinity.
if ($theta_1 == 0) {
$pred = -1;
} else {
# x = (y - theta_0) / theta_1
$pred = ($target_value - $theta_0) / $theta_1;
# Convert the prediction from a unix timestamp to days from now.
$pred = ($pred - $now) / 86400;
# We are not interested in past dates.
if ($pred < 0) {
$pred = -1;
}
}
}
# Update the module.
my %data = ("data" => $pred);
my $utimestamp = time ();
my $timestamp = strftime ("%Y-%m-%d %H:%M:%S", localtime($utimestamp));
pandora_process_module ($pa_config, \%data, '', $module, '', $timestamp, $utimestamp, $server_id, $dbh);
# Update the agent.
my $agent_os_version = get_db_value ($dbh, 'SELECT os_version FROM tagente WHERE id_agente = ?', $module->{'id_agente'});
if ($agent_os_version eq ''){
$agent_os_version = $pa_config->{'servername'}.'_Prediction';
}
pandora_update_agent ($pa_config, $timestamp, $module->{'id_agente'}, undef, undef, -1, $dbh);
}
########################################################################
# Perform linear regression on the given module.
########################################################################
sub linear_regression($$$$) {
my ($module, $from, $to, $dbh) = @_;
# Should not happen.
return if ($module->{'module_interval'} < 1);
# Retrieve the data.
my @rows = get_db_rows($dbh, 'SELECT datos, utimestamp FROM tagente_datos WHERE id_agente_modulo = ? AND utimestamp > ? AND utimestamp < ? ORDER BY utimestamp ASC', $module->{'id_agente_modulo'}, $from, $to);
return if scalar(@rows) <= 0;
# Perform linear regression on the data.
my $reg = PandoraFMS::Statistics::Regression->new( "linear regression", ["const", "x"] );
my $prev_utimestamp = $from;
foreach my $row (@rows) {
my ($utimestamp, $data) = ($row->{'utimestamp'}, $row->{'datos'});
# Elapsed time.
my $elapsed = $utimestamp - $prev_utimestamp;
$elapsed = 1 unless $elapsed > 0;
$prev_utimestamp = $utimestamp;
# Number of points (Pandora compresses data!)
my $local_count = floor($elapsed / $module->{'module_interval'});
$local_count = 1 if $local_count <= 0;
# Add the points.
for (my $i = 0; $i < $local_count; $i++) {
$reg->include($data, [1.0, $utimestamp]);
}
}
return $reg->theta();
}
1;
__END__