# --
# Copyright (C) 2001-2019 OTRS AG, https://otrs.com/
# --
# This software comes with ABSOLUTELY NO WARRANTY. For details, see
# the enclosed file COPYING for license information (GPL). If you
# did not receive this file, see https://www.gnu.org/licenses/gpl-3.0.txt.
# --
package Kernel::System::Daemon::DaemonModules::SchedulerTaskWorker;
use strict;
use warnings;
use utf8;
use File::Path qw();
use Time::HiRes qw(sleep);
use parent qw(Kernel::System::Daemon::BaseDaemon);
our @ObjectDependencies = (
'Kernel::Config',
'Kernel::System::DB',
'Kernel::System::Daemon::SchedulerDB',
'Kernel::System::DateTime',
'Kernel::System::Cache',
'Kernel::System::Log',
'Kernel::System::Main',
'Kernel::System::Storable',
);
=head1 NAME
Kernel::System::Daemon::DaemonModules::SchedulerTaskWorker - worker daemon for the scheduler
=head1 DESCRIPTION
Scheduler worker daemon
=head1 PUBLIC INTERFACE
=head2 new()
Create scheduler task worker object.
=cut
sub new {
my ( $Type, %Param ) = @_;
# Allocate new hash for object.
my $Self = {};
bless $Self, $Type;
# Get objects in constructor to save performance.
$Self->{ConfigObject} = $Kernel::OM->Get('Kernel::Config');
$Self->{CacheObject} = $Kernel::OM->Get('Kernel::System::Cache');
$Self->{MainObject} = $Kernel::OM->Get('Kernel::System::Main');
$Self->{DBObject} = $Kernel::OM->Get('Kernel::System::DB');
$Self->{StorableObject} = $Kernel::OM->Get('Kernel::System::Storable');
$Self->{SchedulerDBObject} = $Kernel::OM->Get('Kernel::System::Daemon::SchedulerDB');
$Self->{DateTimeObject} = $Kernel::OM->Create('Kernel::System::DateTime');
# Disable in memory cache to be clusterable.
$Self->{CacheObject}->Configure(
CacheInMemory => 0,
CacheInBackend => 1,
);
# Get the NodeID from the SysConfig settings, this is used on High Availability systems.
$Self->{NodeID} = $Self->{ConfigObject}->Get('NodeID') || 1;
# Check NodeID, if does not match is impossible to continue.
if ( $Self->{NodeID} !~ m{ \A \d+ \z }xms && $Self->{NodeID} > 0 && $Self->{NodeID} < 1000 ) {
$Kernel::OM->Get('Kernel::System::Log')->Log(
Priority => 'error',
Message => "NodeID '$Self->{NodeID}' is invalid!",
);
return;
}
# Get pid directory.
my $BaseDir = $Self->{ConfigObject}->Get('Daemon::PID::Path') || $Self->{ConfigObject}->Get('Home') . '/var/run/';
$Self->{PIDDir} = $BaseDir . 'Daemon/Scheduler/';
$Self->{PIDFile} = $Self->{PIDDir} . "Worker-NodeID-$Self->{NodeID}.pid";
# Check pid hash and pid file.
return if !$Self->_WorkerPIDsCheck();
# Get the maximum number of workers (forks to execute the tasks).
$Self->{MaximumWorkers} = $Self->{ConfigObject}->Get('Daemon::SchedulerTaskWorker::MaximumWorkers') || 5;
# Do not change the following values!
# Modulo in PreRun() can be damaged after a change.
$Self->{SleepPost} = 0.25; # sleep 60 seconds after each loop
$Self->{Discard} = 60 * 60; # discard every hour
$Self->{DiscardCount} = $Self->{Discard} / $Self->{SleepPost};
$Self->{Debug} = $Param{Debug};
$Self->{DaemonName} = 'Daemon: SchedulerTaskWorker';
return $Self;
}
sub PreRun {
my ( $Self, %Param ) = @_;
# Check each 10 seconds.
return 1 if $Self->{DiscardCount} % ( 10 / $Self->{SleepPost} );
# Set running daemon cache.
$Self->{CacheObject}->Set(
Type => 'DaemonRunning',
Key => $Self->{NodeID},
Value => 1,
TTL => 30,
CacheInMemory => 0,
CacheInBackend => 1,
);
# Check if database is on-line.
return 1 if $Self->{DBObject}->Ping();
sleep 10;
return;
}
sub Run {
my ( $Self, %Param ) = @_;
$Self->{CurrentWorkersCount} = scalar keys %{ $Self->{CurrentWorkers} };
my @TaskList = $Self->{SchedulerDBObject}->TaskListUnlocked();
TASK:
for my $TaskID (@TaskList) {
last TASK if $Self->{CurrentWorkersCount} >= $Self->{MaximumWorkers};
# Disconnect database before fork.
$Self->{DBObject}->Disconnect();
# Create a fork of the current process
# parent gets the PID of the child
# child gets PID = 0
my $PID = fork;
# At the child, execute task.
if ( !$PID ) {
# Remove the ZZZAAuto.pm from %INC to force reloading it.
delete $INC{'Kernel/Config/Files/ZZZAAuto.pm'};
# Destroy objects.
$Kernel::OM->ObjectsDiscard(
ForcePackageReload => 1,
);
# Disable in memory cache because many processes runs at the same time.
$Kernel::OM->Get('Kernel::System::Cache')->Configure(
CacheInMemory => 0,
CacheInBackend => 1,
);
my $SchedulerDBObject = $Kernel::OM->Get('Kernel::System::Daemon::SchedulerDB');
# Try to lock the task.
my $LockSucess = $SchedulerDBObject->TaskLock(
TaskID => $TaskID,
NodeID => $Self->{NodeID},
PID => $$,
);
exit 1 if !$LockSucess;
my %Task = $SchedulerDBObject->TaskGet(
TaskID => $TaskID,
);
# Do error handling.
if ( !%Task || !$Task{Type} || !$Task{Data} || ref $Task{Data} ne 'HASH' ) {
$SchedulerDBObject->TaskDelete(
TaskID => $TaskID,
);
my $TaskName = $Task{Name} || '';
my $TaskType = $Task{Type} || '';
$Kernel::OM->Get('Kernel::System::Log')->Log(
Priority => 'error',
Message => "Task $TaskType $TaskName ($TaskID) was deleted due missing task data!",
);
exit 1;
}
my $TaskHandlerModule = 'Kernel::System::Daemon::DaemonModules::SchedulerTaskWorker::' . $Task{Type};
my $TaskHandlerObject;
eval {
$Kernel::OM->ObjectParamAdd(
$TaskHandlerModule => {
Debug => $Self->{Debug},
},
);
$TaskHandlerObject = $Kernel::OM->Get($TaskHandlerModule);
};
# Do error handling.
if ( !$TaskHandlerObject ) {
$SchedulerDBObject->TaskDelete(
TaskID => $TaskID,
);
my $TaskName = $Task{Name} || '';
my $TaskType = $Task{Type} || '';
$Kernel::OM->Get('Kernel::System::Log')->Log(
Priority => 'error',
Message => "Task $TaskType $TaskName ($TaskID) was deleted due missing handler object!",
);
exit 1;
}
$TaskHandlerObject->Run(
TaskID => $TaskID,
TaskName => $Task{Name} || '',
Data => $Task{Data},
);
# Force transactional events to run by discarding all objects before deleting the task.
$Kernel::OM->ObjectEventsHandle();
$SchedulerDBObject->TaskDelete(
TaskID => $TaskID,
);
exit 0;
}
# Check if fork was not possible.
if ( $PID < 0 ) {
$Kernel::OM->Get('Kernel::System::Log')->Log(
Priority => 'error',
Message => "Could not create a child process (worker) for task id $TaskID!",
);
next TASK;
}
# Populate current workers hash to the parent knows witch task is executing each worker.
$Self->{CurrentWorkers}->{$PID} = {
PID => $PID,
TaskID => $TaskID,
StartTime => $Self->{DateTimeObject}->ToEpoch(),
};
$Self->{CurrentWorkersCount}++;
}
return 1;
}
sub PostRun {
my ( $Self, %Param ) = @_;
sleep $Self->{SleepPost};
# Check pid hash and pid file after sleep time to give the workers time to finish.
return if !$Self->_WorkerPIDsCheck();
$Self->{DiscardCount}--;
# Update task locks and remove expired each 60 seconds.
if ( !int $Self->{DiscardCount} % ( 60 / $Self->{SleepPost} ) ) {
# Extract current working task IDs.
my @LockedTaskIDs = map { $Self->{CurrentWorkers}->{$_}->{TaskID} } sort keys %{ $Self->{CurrentWorkers} };
# Update locks (only for this node).
if (@LockedTaskIDs) {
$Self->{SchedulerDBObject}->TaskLockUpdate(
TaskIDs => \@LockedTaskIDs,
);
}
# Unlock expired tasks (for all nodes).
$Self->{SchedulerDBObject}->TaskUnlockExpired();
}
# Remove obsolete tasks before destroy.
if ( $Self->{DiscardCount} == 0 ) {
$Self->{SchedulerDBObject}->TaskCleanup();
if ( $Self->{Debug} ) {
print " $Self->{DaemonName} will be stopped and set for restart!\n";
}
}
return if $Self->{DiscardCount} <= 0;
return 1;
}
sub Summary {
my ( $Self, %Param ) = @_;
return $Self->{SchedulerDBObject}->TaskSummary();
}
sub _WorkerPIDsCheck {
my ( $Self, %Param ) = @_;
# Check pid directory.
if ( !-e $Self->{PIDDir} ) {
File::Path::mkpath( $Self->{PIDDir}, 0, 0770 ); ## no critic
if ( !-e $Self->{PIDDir} ) {
$Kernel::OM->Get('Kernel::System::Log')->Log(
Priority => 'error',
Message => "Can't create directory '$Self->{PIDDir}': $!",
);
return;
}
}
# Load current workers initially.
if ( !defined $Self->{CurrentWorkers} ) {
# read pid file
if ( -e $Self->{PIDFile} ) {
my $PIDFileContent = $Self->{MainObject}->FileRead(
Location => $Self->{PIDFile},
Mode => 'binmode',
Type => 'Local',
Result => 'SCALAR',
DisableWarnings => 1,
);
# Deserialize the content of the PID file.
if ($PIDFileContent) {
my $WorkerPIDs = $Self->{StorableObject}->Deserialize(
Data => ${$PIDFileContent},
) || {};
$Self->{CurrentWorkers} = $WorkerPIDs;
}
}
$Self->{CurrentWorkers} ||= {};
}
# Check worker PIDs.
WORKERPID:
for my $WorkerPID ( sort keys %{ $Self->{CurrentWorkers} } ) {
# Check if PID is still alive.
next WORKERPID if kill 0, $WorkerPID;
delete $Self->{CurrentWorkers}->{$WorkerPID};
}
$Self->{WrittenPids} //= 'REWRITE REQUIRED';
my $PidsString = join '-', sort keys %{ $Self->{CurrentWorkers} };
$PidsString ||= '';
# Return if nothing has changed.
return 1 if $PidsString eq $Self->{WrittenPids};
# Update pid file.
if ( %{ $Self->{CurrentWorkers} } ) {
# Serialize the current worker hash.
my $CurrentWorkersString = $Self->{StorableObject}->Serialize(
Data => $Self->{CurrentWorkers},
);
# Write new pid file.
my $Success = $Self->{MainObject}->FileWrite(
Location => $Self->{PIDFile},
Content => \$CurrentWorkersString,
Mode => 'binmode',
Type => 'Local',
Permission => '600',
);
return if !$Success;
}
elsif ( -e $Self->{PIDFile} ) {
# Remove empty file.
return if !unlink $Self->{PIDFile};
}
# Save last written PIDs.
$Self->{WrittenPids} = $PidsString;
return 1;
}
sub DESTROY {
my $Self = shift;
return 1;
}
1;
=head1 TERMS AND CONDITIONS
This software is part of the OTRS project (L).
This software comes with ABSOLUTELY NO WARRANTY. For details, see
the enclosed file COPYING for license information (GPL). If you
did not receive this file, see L.
=cut