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< ? php
namespace Friendica\Core ;
use Friendica\App ;
use Friendica\Core\System ;
use Friendica\Core\Config ;
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use Friendica\Core\Worker ;
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use Friendica\Util\Lock ;
use dba ;
use dbm ;
/**
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* @ file src / Core / Worker . php
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*
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* @ brief Contains the class for the worker background job processing
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*/
/**
* @ brief Worker methods
*/
class Worker {
private static $up_start ;
private static $db_duration ;
private static $last_update ;
private static $lock_duration ;
/**
* @ brief Processes the tasks that are in the workerqueue table
*
* @ param boolean $run_cron Should the cron processes be executed ?
*/
public static function processQueue ( $run_cron = true ) {
$a = get_app ();
self :: $up_start = microtime ( true );
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// At first check the maximum load. We shouldn't continue with a high load
if ( $a -> maxload_reached ()) {
logger ( 'Pre check: maximum load reached, quitting.' , LOGGER_DEBUG );
return ;
}
// We now start the process. This is done after the load check since this could increase the load.
$a -> start_process ();
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// Kill stale processes every 5 minutes
$last_cleanup = Config :: get ( 'system' , 'poller_last_cleaned' , 0 );
if ( time () > ( $last_cleanup + 300 )) {
Config :: set ( 'system' , 'poller_last_cleaned' , time ());
self :: killStaleWorkers ();
}
// Count active workers and compare them with a maximum value that depends on the load
if ( self :: tooMuchWorkers ()) {
logger ( 'Pre check: Active worker limit reached, quitting.' , LOGGER_DEBUG );
return ;
}
// Do we have too few memory?
if ( $a -> min_memory_reached ()) {
logger ( 'Pre check: Memory limit reached, quitting.' , LOGGER_DEBUG );
return ;
}
// Possibly there are too much database connections
if ( self :: maxConnectionsReached ()) {
logger ( 'Pre check: maximum connections reached, quitting.' , LOGGER_DEBUG );
return ;
}
// Possibly there are too much database processes that block the system
if ( $a -> max_processes_reached ()) {
logger ( 'Pre check: maximum processes reached, quitting.' , LOGGER_DEBUG );
return ;
}
// Now we start additional cron processes if we should do so
if ( $run_cron ) {
self :: runCron ();
}
$starttime = time ();
// We fetch the next queue entry that is about to be executed
while ( $r = self :: workerProcess ( $passing_slow )) {
// When we are processing jobs with a lower priority, we don't refetch new jobs
// Otherwise fast jobs could wait behind slow ones and could be blocked.
$refetched = $passing_slow ;
foreach ( $r AS $entry ) {
// Assure that the priority is an integer value
$entry [ 'priority' ] = ( int ) $entry [ 'priority' ];
// The work will be done
if ( ! self :: execute ( $entry )) {
logger ( 'Process execution failed, quitting.' , LOGGER_DEBUG );
return ;
}
// If possible we will fetch new jobs for this worker
if ( ! $refetched && Lock :: set ( 'poller_worker_process' , 0 )) {
$stamp = ( float ) microtime ( true );
$refetched = self :: findWorkerProcesses ( $passing_slow );
self :: $db_duration += ( microtime ( true ) - $stamp );
Lock :: remove ( 'poller_worker_process' );
}
}
// To avoid the quitting of multiple pollers only one poller at a time will execute the check
if ( Lock :: set ( 'poller_worker' , 0 )) {
$stamp = ( float ) microtime ( true );
// Count active workers and compare them with a maximum value that depends on the load
if ( self :: tooMuchWorkers ()) {
logger ( 'Active worker limit reached, quitting.' , LOGGER_DEBUG );
return ;
}
// Check free memory
if ( $a -> min_memory_reached ()) {
logger ( 'Memory limit reached, quitting.' , LOGGER_DEBUG );
return ;
}
Lock :: remove ( 'poller_worker' );
self :: $db_duration += ( microtime ( true ) - $stamp );
}
// Quit the poller once every 5 minutes
if ( time () > ( $starttime + 300 )) {
logger ( 'Process lifetime reached, quitting.' , LOGGER_DEBUG );
return ;
}
}
logger ( " Couldn't select a workerqueue entry, quitting. " , LOGGER_DEBUG );
}
/**
* @ brief Returns the number of non executed entries in the worker queue
*
* @ return integer Number of non executed entries in the worker queue
*/
private static function totalEntries () {
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$s = dba :: fetch_first ( " SELECT COUNT(*) AS `total` FROM `workerqueue` WHERE `executed` <= ? AND NOT `done` " , NULL_DATE );
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if ( dbm :: is_result ( $s )) {
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return $s [ " total " ];
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} else {
return 0 ;
}
}
/**
* @ brief Returns the highest priority in the worker queue that isn ' t executed
*
* @ return integer Number of active poller processes
*/
private static function highestPriority () {
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$condition = array ( " `executed` <= ? AND NOT `done` " , NULL_DATE );
$s = dba :: select ( 'workerqueue' , array ( 'priority' ), $condition , array ( 'limit' => 1 , 'order' => array ( 'priority' )));
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if ( dbm :: is_result ( $s )) {
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return $s [ " priority " ];
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} else {
return 0 ;
}
}
/**
* @ brief Returns if a process with the given priority is running
*
* @ param integer $priority The priority that should be checked
*
* @ return integer Is there a process running with that priority ?
*/
private static function processWithPriorityActive ( $priority ) {
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$condition = array ( " `priority` <= ? AND `executed` > ? AND NOT `done` " , $priority , NULL_DATE );
return dba :: exists ( 'workerqueue' , $condition );
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}
/**
* @ brief Execute a worker entry
*
* @ param array $queue Workerqueue entry
*
* @ return boolean " true " if further processing should be stopped
*/
public static function execute ( $queue ) {
$a = get_app ();
$mypid = getmypid ();
// Quit when in maintenance
if ( Config :: get ( 'system' , 'maintenance' , true )) {
logger ( " Maintenance mode - quit process " . $mypid , LOGGER_DEBUG );
return false ;
}
// Constantly check the number of parallel database processes
if ( $a -> max_processes_reached ()) {
logger ( " Max processes reached for process " . $mypid , LOGGER_DEBUG );
return false ;
}
// Constantly check the number of available database connections to let the frontend be accessible at any time
if ( self :: maxConnectionsReached ()) {
logger ( " Max connection reached for process " . $mypid , LOGGER_DEBUG );
return false ;
}
$argv = json_decode ( $queue [ " parameter " ]);
// Check for existance and validity of the include file
$include = $argv [ 0 ];
// The script could be provided as full path or only with the function name
if ( $include == basename ( $include )) {
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$include = " include/ " . $include . " .php " ;
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}
if ( ! validate_include ( $include )) {
logger ( " Include file " . $argv [ 0 ] . " is not valid! " );
dba :: delete ( 'workerqueue' , array ( 'id' => $queue [ " id " ]));
return true ;
}
require_once ( $include );
$funcname = str_replace ( " .php " , " " , basename ( $argv [ 0 ])) . " _run " ;
if ( function_exists ( $funcname )) {
// We constantly update the "executed" date every minute to avoid being killed too soon
if ( ! isset ( self :: $last_update )) {
self :: $last_update = strtotime ( $queue [ " executed " ]);
}
$age = ( time () - self :: $last_update ) / 60 ;
self :: $last_update = time ();
if ( $age > 1 ) {
$stamp = ( float ) microtime ( true );
dba :: update ( 'workerqueue' , array ( 'executed' => datetime_convert ()), array ( 'pid' => $mypid , 'done' => false ));
self :: $db_duration += ( microtime ( true ) - $stamp );
}
self :: execFunction ( $queue , $funcname , $argv );
$stamp = ( float ) microtime ( true );
if ( dba :: update ( 'workerqueue' , array ( 'done' => true ), array ( 'id' => $queue [ " id " ]))) {
Config :: set ( 'system' , 'last_poller_execution' , datetime_convert ());
}
self :: $db_duration = ( microtime ( true ) - $stamp );
} else {
logger ( " Function " . $funcname . " does not exist " );
dba :: delete ( 'workerqueue' , array ( 'id' => $queue [ " id " ]));
}
return true ;
}
/**
* @ brief Execute a function from the queue
*
* @ param array $queue Workerqueue entry
* @ param string $funcname name of the function
* @ param array $argv Array of values to be passed to the function
*/
private static function execFunction ( $queue , $funcname , $argv ) {
$a = get_app ();
$mypid = getmypid ();
$argc = count ( $argv );
$new_process_id = uniqid ( " wrk " , true );
logger ( " Process " . $mypid . " - Prio " . $queue [ " priority " ] . " - ID " . $queue [ " id " ] . " : " . $funcname . " " . $queue [ " parameter " ] . " - Process PID: " . $new_process_id );
$stamp = ( float ) microtime ( true );
// We use the callstack here to analyze the performance of executed worker entries.
// For this reason the variables have to be initialized.
if ( Config :: get ( " system " , " profiler " )) {
$a -> performance [ " start " ] = microtime ( true );
$a -> performance [ " database " ] = 0 ;
$a -> performance [ " database_write " ] = 0 ;
$a -> performance [ " network " ] = 0 ;
$a -> performance [ " file " ] = 0 ;
$a -> performance [ " rendering " ] = 0 ;
$a -> performance [ " parser " ] = 0 ;
$a -> performance [ " marktime " ] = 0 ;
$a -> performance [ " markstart " ] = microtime ( true );
$a -> callstack = array ();
}
// For better logging create a new process id for every worker call
// But preserve the old one for the worker
$old_process_id = $a -> process_id ;
$a -> process_id = $new_process_id ;
$a -> queue = $queue ;
$up_duration = number_format ( microtime ( true ) - self :: $up_start , 3 );
// Reset global data to avoid interferences
unset ( $_SESSION );
$funcname ( $argv , $argc );
$a -> process_id = $old_process_id ;
unset ( $a -> queue );
$duration = number_format ( microtime ( true ) - $stamp , 3 );
self :: $up_start = microtime ( true );
/* With these values we can analyze how effective the worker is .
* The database and rest time should be low since this is the unproductive time .
* The execution time is the productive time .
* By changing parameters like the maximum number of workers we can check the effectivness .
*/
logger ( 'DB: ' . number_format ( self :: $db_duration , 2 ) .
' - Lock: ' . number_format ( self :: $lock_duration , 2 ) .
' - Rest: ' . number_format ( $up_duration - self :: $db_duration - self :: $lock_duration , 2 ) .
' - Execution: ' . number_format ( $duration , 2 ), LOGGER_DEBUG );
self :: $lock_duration = 0 ;
if ( $duration > 3600 ) {
logger ( " Prio " . $queue [ " priority " ] . " : " . $queue [ " parameter " ] . " - longer than 1 hour ( " . round ( $duration / 60 , 3 ) . " ) " , LOGGER_DEBUG );
} elseif ( $duration > 600 ) {
logger ( " Prio " . $queue [ " priority " ] . " : " . $queue [ " parameter " ] . " - longer than 10 minutes ( " . round ( $duration / 60 , 3 ) . " ) " , LOGGER_DEBUG );
} elseif ( $duration > 300 ) {
logger ( " Prio " . $queue [ " priority " ] . " : " . $queue [ " parameter " ] . " - longer than 5 minutes ( " . round ( $duration / 60 , 3 ) . " ) " , LOGGER_DEBUG );
} elseif ( $duration > 120 ) {
logger ( " Prio " . $queue [ " priority " ] . " : " . $queue [ " parameter " ] . " - longer than 2 minutes ( " . round ( $duration / 60 , 3 ) . " ) " , LOGGER_DEBUG );
}
logger ( " Process " . $mypid . " - Prio " . $queue [ " priority " ] . " - ID " . $queue [ " id " ] . " : " . $funcname . " - done in " . $duration . " seconds. Process PID: " . $new_process_id );
// Write down the performance values into the log
if ( Config :: get ( " system " , " profiler " )) {
$duration = microtime ( true ) - $a -> performance [ " start " ];
if ( Config :: get ( " rendertime " , " callstack " )) {
if ( isset ( $a -> callstack [ " database " ])) {
$o = " \n Database Read: \n " ;
foreach ( $a -> callstack [ " database " ] AS $func => $time ) {
$time = round ( $time , 3 );
if ( $time > 0 ) {
$o .= $func . " : " . $time . " \n " ;
}
}
}
if ( isset ( $a -> callstack [ " database_write " ])) {
$o .= " \n Database Write: \n " ;
foreach ( $a -> callstack [ " database_write " ] AS $func => $time ) {
$time = round ( $time , 3 );
if ( $time > 0 ) {
$o .= $func . " : " . $time . " \n " ;
}
}
}
if ( isset ( $a -> callstack [ " network " ])) {
$o .= " \n Network: \n " ;
foreach ( $a -> callstack [ " network " ] AS $func => $time ) {
$time = round ( $time , 3 );
if ( $time > 0 ) {
$o .= $func . " : " . $time . " \n " ;
}
}
}
} else {
$o = '' ;
}
logger ( " ID " . $queue [ " id " ] . " : " . $funcname . " : " . sprintf ( " DB: %s/%s, Net: %s, I/O: %s, Other: %s, Total: %s " . $o ,
number_format ( $a -> performance [ " database " ] - $a -> performance [ " database_write " ], 2 ),
number_format ( $a -> performance [ " database_write " ], 2 ),
number_format ( $a -> performance [ " network " ], 2 ),
number_format ( $a -> performance [ " file " ], 2 ),
number_format ( $duration - ( $a -> performance [ " database " ] + $a -> performance [ " network " ] + $a -> performance [ " file " ]), 2 ),
number_format ( $duration , 2 )),
LOGGER_DEBUG );
}
$cooldown = Config :: get ( " system " , " worker_cooldown " , 0 );
if ( $cooldown > 0 ) {
logger ( " Process " . $mypid . " - Prio " . $queue [ " priority " ] . " - ID " . $queue [ " id " ] . " : " . $funcname . " - in cooldown for " . $cooldown . " seconds " );
sleep ( $cooldown );
}
}
/**
* @ brief Checks if the number of database connections has reached a critical limit .
*
* @ return bool Are more than 3 / 4 of the maximum connections used ?
*/
private static function maxConnectionsReached () {
// Fetch the max value from the config. This is needed when the system cannot detect the correct value by itself.
$max = Config :: get ( " system " , " max_connections " );
// Fetch the percentage level where the poller will get active
$maxlevel = Config :: get ( " system " , " max_connections_level " , 75 );
if ( $max == 0 ) {
// the maximum number of possible user connections can be a system variable
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$r = dba :: fetch_first ( " SHOW VARIABLES WHERE `variable_name` = 'max_user_connections' " );
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if ( dbm :: is_result ( $r )) {
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$max = $r [ " Value " ];
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}
// Or it can be granted. This overrides the system variable
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$r = dba :: p ( 'SHOW GRANTS' );
while ( $grants = dba :: fetch ( $r )) {
$grant = array_pop ( $grants );
if ( stristr ( $grant , " GRANT USAGE ON " )) {
if ( preg_match ( " /WITH MAX_USER_CONNECTIONS ( \ d*)/ " , $grant , $match )) {
$max = $match [ 1 ];
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}
}
}
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dba :: close ( $r );
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}
// If $max is set we will use the processlist to determine the current number of connections
// The processlist only shows entries of the current user
if ( $max != 0 ) {
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$r = dba :: p ( 'SHOW PROCESSLIST' );
$used = dba :: num_rows ( $r );
dba :: close ( $r );
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logger ( " Connection usage (user values): " . $used . " / " . $max , LOGGER_DEBUG );
$level = ( $used / $max ) * 100 ;
if ( $level >= $maxlevel ) {
logger ( " Maximum level ( " . $maxlevel . " %) of user connections reached: " . $used . " / " . $max );
return true ;
}
}
// We will now check for the system values.
// This limit could be reached although the user limits are fine.
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$r = dba :: fetch_first ( " SHOW VARIABLES WHERE `variable_name` = 'max_connections' " );
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if ( ! dbm :: is_result ( $r )) {
return false ;
}
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$max = intval ( $r [ " Value " ]);
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if ( $max == 0 ) {
return false ;
}
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$r = dba :: fetch_first ( " SHOW STATUS WHERE `variable_name` = 'Threads_connected' " );
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if ( ! dbm :: is_result ( $r )) {
return false ;
}
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$used = intval ( $r [ " Value " ]);
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if ( $used == 0 ) {
return false ;
}
logger ( " Connection usage (system values): " . $used . " / " . $max , LOGGER_DEBUG );
$level = $used / $max * 100 ;
if ( $level < $maxlevel ) {
return false ;
}
logger ( " Maximum level ( " . $level . " %) of system connections reached: " . $used . " / " . $max );
return true ;
}
/**
* @ brief fix the queue entry if the worker process died
*
*/
private static function killStaleWorkers () {
$entries = dba :: select ( 'workerqueue' , array ( 'id' , 'pid' , 'executed' , 'priority' , 'parameter' ),
array ( '`executed` > ? AND NOT `done` AND `pid` != 0' , NULL_DATE ),
array ( 'order' => array ( 'priority' , 'created' )));
while ( $entry = dba :: fetch ( $entries )) {
if ( ! posix_kill ( $entry [ " pid " ], 0 )) {
dba :: update ( 'workerqueue' , array ( 'executed' => NULL_DATE , 'pid' => 0 ),
array ( 'id' => $entry [ " id " ]));
} else {
// Kill long running processes
// Check if the priority is in a valid range
if ( ! in_array ( $entry [ " priority " ], array ( PRIORITY_CRITICAL , PRIORITY_HIGH , PRIORITY_MEDIUM , PRIORITY_LOW , PRIORITY_NEGLIGIBLE ))) {
$entry [ " priority " ] = PRIORITY_MEDIUM ;
}
// Define the maximum durations
$max_duration_defaults = array ( PRIORITY_CRITICAL => 720 , PRIORITY_HIGH => 10 , PRIORITY_MEDIUM => 60 , PRIORITY_LOW => 180 , PRIORITY_NEGLIGIBLE => 720 );
$max_duration = $max_duration_defaults [ $entry [ " priority " ]];
$argv = json_decode ( $entry [ " parameter " ]);
$argv [ 0 ] = basename ( $argv [ 0 ]);
// How long is the process already running?
$duration = ( time () - strtotime ( $entry [ " executed " ])) / 60 ;
if ( $duration > $max_duration ) {
logger ( " Worker process " . $entry [ " pid " ] . " ( " . implode ( " " , $argv ) . " ) took more than " . $max_duration . " minutes. It will be killed now. " );
posix_kill ( $entry [ " pid " ], SIGTERM );
// We killed the stale process.
// To avoid a blocking situation we reschedule the process at the beginning of the queue.
// Additionally we are lowering the priority. (But not PRIORITY_CRITICAL)
if ( $entry [ " priority " ] == PRIORITY_HIGH ) {
$new_priority = PRIORITY_MEDIUM ;
} elseif ( $entry [ " priority " ] == PRIORITY_MEDIUM ) {
$new_priority = PRIORITY_LOW ;
} elseif ( $entry [ " priority " ] != PRIORITY_CRITICAL ) {
$new_priority = PRIORITY_NEGLIGIBLE ;
}
dba :: update ( 'workerqueue' ,
array ( 'executed' => NULL_DATE , 'created' => datetime_convert (), 'priority' => $new_priority , 'pid' => 0 ),
array ( 'id' => $entry [ " id " ]));
} else {
logger ( " Worker process " . $entry [ " pid " ] . " ( " . implode ( " " , $argv ) . " ) now runs for " . round ( $duration ) . " of " . $max_duration . " allowed minutes. That's okay. " , LOGGER_DEBUG );
}
}
}
}
/**
* @ brief Checks if the number of active workers exceeds the given limits
*
* @ return bool Are there too much workers running ?
*/
public static function tooMuchWorkers () {
$queues = Config :: get ( " system " , " worker_queues " , 4 );
$maxqueues = $queues ;
$active = self :: activeWorkers ();
// Decrease the number of workers at higher load
$load = current_load ();
if ( $load ) {
$maxsysload = intval ( Config :: get ( " system " , " maxloadavg " , 50 ));
$maxworkers = $queues ;
// Some magical mathemathics to reduce the workers
$exponent = 3 ;
$slope = $maxworkers / pow ( $maxsysload , $exponent );
$queues = ceil ( $slope * pow ( max ( 0 , $maxsysload - $load ), $exponent ));
if ( Config :: get ( 'system' , 'worker_debug' )) {
// Create a list of queue entries grouped by their priority
$listitem = array ();
// Adding all processes with no workerqueue entry
$processes = dba :: p ( " SELECT COUNT(*) AS `running` FROM `process` WHERE NOT EXISTS
( SELECT id FROM `workerqueue`
WHERE `workerqueue` . `pid` = `process` . `pid` AND NOT `done` AND `pid` != ? ) " , getmypid());
if ( $process = dba :: fetch ( $processes )) {
$listitem [ 0 ] = " 0: " . $process [ " running " ];
}
dba :: close ( $processes );
// Now adding all processes with workerqueue entries
$entries = dba :: p ( " SELECT COUNT(*) AS `entries`, `priority` FROM `workerqueue` WHERE NOT `done` GROUP BY `priority` " );
while ( $entry = dba :: fetch ( $entries )) {
$processes = dba :: p ( " SELECT COUNT(*) AS `running` FROM `process` INNER JOIN `workerqueue` ON `workerqueue`.`pid` = `process`.`pid` AND NOT `done` WHERE `priority` = ? " , $entry [ " priority " ]);
if ( $process = dba :: fetch ( $processes )) {
$listitem [ $entry [ " priority " ]] = $entry [ " priority " ] . " : " . $process [ " running " ] . " / " . $entry [ " entries " ];
}
dba :: close ( $processes );
}
dba :: close ( $entries );
$intervals = array ( 1 , 10 , 60 );
$jobs_per_minute = array ();
foreach ( $intervals AS $interval ) {
$jobs = dba :: p ( " SELECT COUNT(*) AS `jobs` FROM `workerqueue` WHERE `done` AND `executed` > UTC_TIMESTAMP() - INTERVAL " . intval ( $interval ) . " MINUTE " );
if ( $job = dba :: fetch ( $jobs )) {
$jobs_per_minute [ $interval ] = number_format ( $job [ 'jobs' ] / $interval , 0 );
}
dba :: close ( $jobs );
}
$processlist = ' - jpm: ' . implode ( '/' , $jobs_per_minute ) . ' (' . implode ( ', ' , $listitem ) . ')' ;
}
$entries = self :: totalEntries ();
if ( Config :: get ( " system " , " worker_fastlane " , false ) && ( $queues > 0 ) && ( $entries > 0 ) && ( $active >= $queues )) {
$top_priority = self :: highestPriority ();
$high_running = self :: processWithPriorityActive ( $top_priority );
if ( ! $high_running && ( $top_priority > PRIORITY_UNDEFINED ) && ( $top_priority < PRIORITY_NEGLIGIBLE )) {
logger ( " There are jobs with priority " . $top_priority . " waiting but none is executed. Open a fastlane. " , LOGGER_DEBUG );
$queues = $active + 1 ;
}
}
logger ( " Load: " . $load . " / " . $maxsysload . " - processes: " . $active . " / " . $entries . $processlist . " - maximum: " . $queues . " / " . $maxqueues , LOGGER_DEBUG );
// Are there fewer workers running as possible? Then fork a new one.
if ( ! Config :: get ( " system " , " worker_dont_fork " ) && ( $queues > ( $active + 1 )) && ( $entries > 1 )) {
logger ( " Active workers: " . $active . " / " . $queues . " Fork a new worker. " , LOGGER_DEBUG );
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self :: spawnWorker ();
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}
}
return $active >= $queues ;
}
/**
* @ brief Returns the number of active poller processes
*
* @ return integer Number of active poller processes
*/
private static function activeWorkers () {
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$workers = dba :: fetch_first ( " SELECT COUNT(*) AS `processes` FROM `process` WHERE `command` = 'Worker.php' " );
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return $workers [ " processes " ];
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}
/**
* @ brief Check if we should pass some slow processes
*
* When the active processes of the highest priority are using more than 2 / 3
* of all processes , we let pass slower processes .
*
* @ param string $highest_priority Returns the currently highest priority
* @ return bool We let pass a slower process than $highest_priority
*/
private static function passingSlow ( & $highest_priority ) {
$highest_priority = 0 ;
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$r = dba :: p ( " SELECT `priority`
FROM `process`
INNER JOIN `workerqueue` ON `workerqueue` . `pid` = `process` . `pid` AND NOT `done` " );
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// No active processes at all? Fine
if ( ! dbm :: is_result ( $r )) {
return false ;
}
$priorities = array ();
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while ( $line = dba :: fetch ( $r )) {
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$priorities [] = $line [ " priority " ];
}
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dba :: close ( $r );
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// Should not happen
if ( count ( $priorities ) == 0 ) {
return false ;
}
$highest_priority = min ( $priorities );
// The highest process is already the slowest one?
// Then we quit
if ( $highest_priority == PRIORITY_NEGLIGIBLE ) {
return false ;
}
$high = 0 ;
foreach ( $priorities AS $priority ) {
if ( $priority == $highest_priority ) {
++ $high ;
}
}
logger ( " Highest priority: " . $highest_priority . " Total processes: " . count ( $priorities ) . " Count high priority processes: " . $high , LOGGER_DEBUG );
$passing_slow = (( $high / count ( $priorities )) > ( 2 / 3 ));
if ( $passing_slow ) {
logger ( " Passing slower processes than priority " . $highest_priority , LOGGER_DEBUG );
}
return $passing_slow ;
}
/**
* @ brief Find and claim the next worker process for us
*
* @ param boolean $passing_slow Returns if we had passed low priority processes
* @ return boolean Have we found something ?
*/
private static function findWorkerProcesses ( & $passing_slow ) {
$mypid = getmypid ();
// Check if we should pass some low priority process
$highest_priority = 0 ;
$found = false ;
$passing_slow = false ;
// The higher the number of parallel workers, the more we prefetch to prevent concurring access
// We decrease the limit with the number of entries left in the queue
$worker_queues = Config :: get ( " system " , " worker_queues " , 4 );
$queue_length = Config :: get ( 'system' , 'worker_fetch_limit' , 1 );
$lower_job_limit = $worker_queues * $queue_length * 2 ;
$jobs = self :: totalEntries ();
// Now do some magic
$exponent = 2 ;
$slope = $queue_length / pow ( $lower_job_limit , $exponent );
$limit = min ( $queue_length , ceil ( $slope * pow ( $jobs , $exponent )));
logger ( 'Total: ' . $jobs . ' - Maximum: ' . $queue_length . ' - jobs per queue: ' . $limit , LOGGER_DEBUG );
if ( self :: passingSlow ( $highest_priority )) {
// Are there waiting processes with a higher priority than the currently highest?
$result = dba :: select ( 'workerqueue' , array ( 'id' ), array ( " `executed` <= ? AND `priority` < ? AND NOT `done` " , NULL_DATE , $highest_priority ),
array ( 'limit' => $limit , 'order' => array ( 'priority' , 'created' ), 'only_query' => true ));
while ( $id = dba :: fetch ( $result )) {
$ids [] = $id [ " id " ];
}
dba :: close ( $result );
$found = ( count ( $ids ) > 0 );
if ( ! $found ) {
// Give slower processes some processing time
$result = dba :: select ( 'workerqueue' , array ( 'id' ), array ( " `executed` <= ? AND `priority` > ? AND NOT `done` " , NULL_DATE , $highest_priority ),
array ( 'limit' => $limit , 'order' => array ( 'priority' , 'created' ), 'only_query' => true ));
while ( $id = dba :: fetch ( $result )) {
$ids [] = $id [ " id " ];
}
dba :: close ( $result );
$found = ( count ( $ids ) > 0 );
$passing_slow = $found ;
}
}
// If there is no result (or we shouldn't pass lower processes) we check without priority limit
if ( ! $found ) {
$result = dba :: select ( 'workerqueue' , array ( 'id' ), array ( " `executed` <= ? AND NOT `done` " , NULL_DATE ),
array ( 'limit' => $limit , 'order' => array ( 'priority' , 'created' ), 'only_query' => true ));
while ( $id = dba :: fetch ( $result )) {
$ids [] = $id [ " id " ];
}
dba :: close ( $result );
$found = ( count ( $ids ) > 0 );
}
if ( $found ) {
$condition = " `id` IN ( " . substr ( str_repeat ( " ?, " , count ( $ids )), 0 , - 2 ) . " ) AND `pid` = 0 AND NOT `done` " ;
array_unshift ( $ids , $condition );
dba :: update ( 'workerqueue' , array ( 'executed' => datetime_convert (), 'pid' => $mypid ), $ids );
}
return $found ;
}
/**
* @ brief Returns the next worker process
*
* @ param boolean $passing_slow Returns if we had passed low priority processes
* @ return string SQL statement
*/
public static function workerProcess ( & $passing_slow ) {
$stamp = ( float ) microtime ( true );
// There can already be jobs for us in the queue.
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$r = dba :: select ( 'workerqueue' , array (), array ( 'pid' => getmypid (), 'done' => false ));
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if ( dbm :: is_result ( $r )) {
self :: $db_duration += ( microtime ( true ) - $stamp );
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return dba :: inArray ( $r );
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}
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dba :: close ( $r );
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$stamp = ( float ) microtime ( true );
if ( ! Lock :: set ( 'poller_worker_process' )) {
return false ;
}
self :: $lock_duration = ( microtime ( true ) - $stamp );
$stamp = ( float ) microtime ( true );
$found = self :: findWorkerProcesses ( $passing_slow );
self :: $db_duration += ( microtime ( true ) - $stamp );
Lock :: remove ( 'poller_worker_process' );
if ( $found ) {
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$r = dba :: select ( 'workerqueue' , array (), array ( 'pid' => getmypid (), 'done' => false ));
return dba :: inArray ( $r );
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}
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return false ;
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}
/**
* @ brief Removes a workerqueue entry from the current process
*/
public static function unclaimProcess () {
$mypid = getmypid ();
dba :: update ( 'workerqueue' , array ( 'executed' => NULL_DATE , 'pid' => 0 ), array ( 'pid' => $mypid , 'done' => false ));
}
/**
* @ brief Call the front end worker
*/
public static function callWorker () {
if ( ! Config :: get ( " system " , " frontend_worker " )) {
return ;
}
$url = System :: baseUrl () . " /worker " ;
fetch_url ( $url , false , $redirects , 1 );
}
/**
* @ brief Call the front end worker if there aren ' t any active
*/
public static function executeIfIdle () {
if ( ! Config :: get ( " system " , " frontend_worker " )) {
return ;
}
// Do we have "proc_open"? Then we can fork the poller
if ( function_exists ( " proc_open " )) {
// When was the last time that we called the worker?
// Less than one minute? Then we quit
if (( time () - Config :: get ( " system " , " worker_started " )) < 60 ) {
return ;
}
set_config ( " system " , " worker_started " , time ());
// Do we have enough running workers? Then we quit here.
if ( self :: tooMuchWorkers ()) {
// Cleaning dead processes
self :: killStaleWorkers ();
get_app () -> remove_inactive_processes ();
return ;
}
self :: runCron ();
logger ( 'Call poller' , LOGGER_DEBUG );
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self :: spawnWorker ();
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return ;
}
// We cannot execute background processes.
// We now run the processes from the frontend.
// This won't work with long running processes.
self :: runCron ();
self :: clearProcesses ();
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$workers = dba :: fetch_first ( " SELECT COUNT(*) AS `processes` FROM `process` WHERE `command` = 'worker.php' " );
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if ( $workers [ " processes " ] == 0 ) {
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self :: callWorker ();
}
}
/**
* @ brief Removes long running worker processes
*/
public static function clearProcesses () {
$timeout = Config :: get ( " system " , " frontend_worker_timeout " , 10 );
/// @todo We should clean up the corresponding workerqueue entries as well
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$condition = array ( " `created` < ? AND `command` = 'worker.php' " ,
datetime_convert ( 'UTC' , 'UTC' , " now - " . $timeout . " minutes " ));
dba :: delete ( 'process' , $condition );
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}
/**
* @ brief Runs the cron processes
*/
private static function runCron () {
logger ( 'Add cron entries' , LOGGER_DEBUG );
// Check for spooled items
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self :: add ( PRIORITY_HIGH , " spool_post " );
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// Run the cron job that calls all other jobs
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self :: add ( PRIORITY_MEDIUM , " cron " );
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// Run the cronhooks job separately from cron for being able to use a different timing
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self :: add ( PRIORITY_MEDIUM , " cronhooks " );
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// Cleaning dead processes
self :: killStaleWorkers ();
}
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public static function spawnWorker () {
$args = array ( " include/poller.php " , " no_cron " );
get_app () -> proc_run ( $args );
}
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/**
* @ brief Adds tasks to the worker queue
*
* @ param ( integer | array ) priority or parameter array , $cmd atrings are deprecated and are ignored
*
* next args are passed as $cmd command line
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* or : Worker :: add ( PRIORITY_HIGH , " notifier " , " drop " , $drop_id );
* or : Worker :: add ( array ( 'priority' => PRIORITY_HIGH , 'dont_fork' => true ), " create_shadowentry " , $post_id );
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*
* @ note $cmd and string args are surrounded with " "
*
* @ hooks 'proc_run'
* array $arr
*
* @ return boolean " false " if proc_run couldn ' t be executed
*/
public static function add ( $cmd ) {
$proc_args = func_get_args ();
$args = array ();
if ( ! count ( $proc_args )) {
return false ;
}
// Preserve the first parameter
// It could contain a command, the priority or an parameter array
// If we use the parameter array we have to protect it from the following function
$run_parameter = array_shift ( $proc_args );
// expand any arrays
foreach ( $proc_args as $arg ) {
if ( is_array ( $arg )) {
foreach ( $arg as $n ) {
$args [] = $n ;
}
} else {
$args [] = $arg ;
}
}
// Now we add the run parameters back to the array
array_unshift ( $args , $run_parameter );
$arr = array ( 'args' => $args , 'run_cmd' => true );
call_hooks ( " proc_run " , $arr );
if ( ! $arr [ 'run_cmd' ] || ! count ( $args )) {
return true ;
}
$priority = PRIORITY_MEDIUM ;
$dont_fork = get_config ( " system " , " worker_dont_fork " );
$created = datetime_convert ();
if ( is_int ( $run_parameter )) {
$priority = $run_parameter ;
} elseif ( is_array ( $run_parameter )) {
if ( isset ( $run_parameter [ 'priority' ])) {
$priority = $run_parameter [ 'priority' ];
}
if ( isset ( $run_parameter [ 'created' ])) {
$created = $run_parameter [ 'created' ];
}
if ( isset ( $run_parameter [ 'dont_fork' ])) {
$dont_fork = $run_parameter [ 'dont_fork' ];
}
}
$argv = $args ;
array_shift ( $argv );
$parameters = json_encode ( $argv );
$found = dba :: exists ( 'workerqueue' , array ( 'parameter' => $parameters , 'done' => false ));
// Quit if there was a database error - a precaution for the update process to 3.5.3
if ( dba :: errorNo () != 0 ) {
return false ;
}
if ( ! $found ) {
dba :: insert ( 'workerqueue' , array ( 'parameter' => $parameters , 'created' => $created , 'priority' => $priority ));
}
// Should we quit and wait for the poller to be called as a cronjob?
if ( $dont_fork ) {
return true ;
}
// If there is a lock then we don't have to check for too much worker
if ( ! Lock :: set ( 'poller_worker' , 0 )) {
return true ;
}
// If there are already enough workers running, don't fork another one
$quit = self :: tooMuchWorkers ();
Lock :: remove ( 'poller_worker' );
if ( $quit ) {
return true ;
}
// Now call the poller to execute the jobs that we just added to the queue
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self :: spawnWorker ();
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return true ;
}
}