friendica/src/Core/Worker.php
Josh Soref f6fda5840d spelling: failure
Signed-off-by: Josh Soref <2119212+jsoref@users.noreply.github.com>
2023-03-26 16:03:23 -04:00

1462 lines
46 KiB
PHP

<?php
/**
* @copyright Copyright (C) 2010-2023, the Friendica project
*
* @license GNU AGPL version 3 or any later version
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of the
* License, or (at your option) any later version.
*
* 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
namespace Friendica\Core;
use Friendica\Core\Worker\Entity\Process;
use Friendica\Database\DBA;
use Friendica\DI;
use Friendica\Util\DateTimeFormat;
/**
* Contains the class for the worker background job processing
*/
class Worker
{
/**
* @name Priority
*
* Process priority for the worker
* @{
*/
const PRIORITY_UNDEFINED = 0;
const PRIORITY_CRITICAL = 10;
const PRIORITY_HIGH = 20;
const PRIORITY_MEDIUM = 30;
const PRIORITY_LOW = 40;
const PRIORITY_NEGLIGIBLE = 50;
const PRIORITIES = [self::PRIORITY_CRITICAL, self::PRIORITY_HIGH, self::PRIORITY_MEDIUM, self::PRIORITY_LOW, self::PRIORITY_NEGLIGIBLE];
/* @}*/
const STATE_STARTUP = 1; // Worker is in startup. This takes most time.
const STATE_LONG_LOOP = 2; // Worker is processing the whole - long - loop.
const STATE_REFETCH = 3; // Worker had refetched jobs in the execution loop.
const STATE_SHORT_LOOP = 4; // Worker is processing preassigned jobs, thus saving much time.
const FAST_COMMANDS = ['APDelivery', 'Delivery'];
const LOCK_PROCESS = 'worker_process';
const LOCK_WORKER = 'worker';
private static $up_start;
private static $db_duration = 0;
private static $db_duration_count = 0;
private static $db_duration_write = 0;
private static $db_duration_stat = 0;
private static $lock_duration = 0;
private static $last_update;
private static $state;
/** @var Process */
private static $process;
/**
* Processes the tasks that are in the workerqueue table
*
* @param boolean $run_cron Should the cron processes be executed?
* @param Process $process The current running process
* @return void
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
*/
public static function processQueue(bool $run_cron, Process $process)
{
self::$up_start = microtime(true);
// At first check the maximum load. We shouldn't continue with a high load
if (DI::system()->isMaxLoadReached()) {
Logger::notice('Pre check: maximum load reached, quitting.');
return;
}
// We now start the process. This is done after the load check since this could increase the load.
self::$process = $process;
// Kill stale processes every 5 minutes
$last_cleanup = DI::keyValue()->get('worker_last_cleaned') ?? 0;
if (time() > ($last_cleanup + 300)) {
DI::keyValue()->set( 'worker_last_cleaned', time());
Worker\Cron::killStaleWorkers();
}
// Check if the system is ready
if (!self::isReady()) {
return;
}
// Now we start additional cron processes if we should do so
if ($run_cron) {
Worker\Cron::run();
}
$last_check = $starttime = time();
self::$state = self::STATE_STARTUP;
// We fetch the next queue entry that is about to be executed
while ($r = self::workerProcess()) {
if (Worker\IPC::JobsExists(getmypid())) {
Worker\IPC::DeleteJobState(getmypid());
}
// Don't refetch when a worker fetches tasks for multiple workers
$refetched = DI::config()->get('system', 'worker_multiple_fetch');
foreach ($r as $entry) {
// The work will be done
if (!self::execute($entry)) {
Logger::warning('Process execution failed, quitting.', ['entry' => $entry]);
return;
}
// Trying to fetch new processes - but only once when successful
if (!$refetched && DI::lock()->acquire(self::LOCK_PROCESS, 0)) {
self::findWorkerProcesses();
DI::lock()->release(self::LOCK_PROCESS);
self::$state = self::STATE_REFETCH;
$refetched = true;
} else {
self::$state = self::STATE_SHORT_LOOP;
}
}
// To avoid the quitting of multiple workers only one worker at a time will execute the check
if ((time() > $last_check + 5) && !self::getWaitingJobForPID()) {
self::$state = self::STATE_LONG_LOOP;
if (DI::lock()->acquire(self::LOCK_WORKER, 0)) {
// Count active workers and compare them with a maximum value that depends on the load
if (self::tooMuchWorkers()) {
Logger::info('Active worker limit reached, quitting.');
DI::lock()->release(self::LOCK_WORKER);
return;
}
// Check free memory
if (DI::system()->isMinMemoryReached()) {
Logger::warning('Memory limit reached, quitting.');
DI::lock()->release(self::LOCK_WORKER);
return;
}
DI::lock()->release(self::LOCK_WORKER);
}
$last_check = time();
}
// Quit the worker once every cron interval
if (time() > ($starttime + (DI::config()->get('system', 'cron_interval') * 60)) && !self::systemLimitReached()) {
Logger::info('Process lifetime reached, respawning.');
self::unclaimProcess($process);
if (Worker\Daemon::isMode()) {
Worker\IPC::SetJobState(true);
} else {
self::spawnWorker();
}
return;
}
}
// Cleaning up. Possibly not needed, but it doesn't harm anything.
if (Worker\Daemon::isMode()) {
Worker\IPC::SetJobState(false);
}
Logger::info("Couldn't select a workerqueue entry, quitting process", ['pid' => getmypid()]);
}
/**
* Checks if the system is ready.
*
* Several system parameters like memory, connections and processes are checked.
*
* @return boolean
*/
public static function isReady(): bool
{
// Count active workers and compare them with a maximum value that depends on the load
if (self::tooMuchWorkers()) {
Logger::info('Active worker limit reached, quitting.');
return false;
}
// Do we have too few memory?
if (DI::system()->isMinMemoryReached()) {
Logger::warning('Memory limit reached, quitting.');
return false;
}
// Possibly there are too much database connections
if (self::maxConnectionsReached()) {
Logger::warning('Maximum connections reached, quitting.');
return false;
}
// Possibly there are too much database processes that block the system
if (DI::system()->isMaxProcessesReached()) {
Logger::warning('Maximum processes reached, quitting.');
return false;
}
return true;
}
/**
* Check if non executed tasks do exist in the worker queue
*
* @return boolean Returns "true" if tasks are existing
* @throws \Exception
*/
public static function entriesExists(): bool
{
$stamp = (float)microtime(true);
$exists = DBA::exists('workerqueue', ["NOT `done` AND `pid` = 0 AND `next_try` < ?", DateTimeFormat::utcNow()]);
self::$db_duration += (microtime(true) - $stamp);
return $exists;
}
/**
* Returns the number of deferred entries in the worker queue
*
* @return integer Number of deferred entries in the worker queue
* @throws \Exception
*/
private static function deferredEntries(): int
{
$stamp = (float)microtime(true);
$count = DBA::count('workerqueue', ["NOT `done` AND `pid` = 0 AND `retrial` > ?", 0]);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_count += (microtime(true) - $stamp);
return $count;
}
/**
* Returns the number of non executed entries in the worker queue
*
* @return integer Number of non executed entries in the worker queue
* @throws \Exception
*/
private static function totalEntries(): int
{
$stamp = (float)microtime(true);
$count = DBA::count('workerqueue', ['done' => false, 'pid' => 0]);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_count += (microtime(true) - $stamp);
return $count;
}
/**
* Returns the highest priority in the worker queue that isn't executed
*
* @return integer Number of active worker processes
* @throws \Exception
*/
private static function highestPriority(): int
{
$stamp = (float)microtime(true);
$condition = ["`pid` = 0 AND NOT `done` AND `next_try` < ?", DateTimeFormat::utcNow()];
$workerqueue = DBA::selectFirst('workerqueue', ['priority'], $condition, ['order' => ['priority']]);
self::$db_duration += (microtime(true) - $stamp);
if (DBA::isResult($workerqueue)) {
return $workerqueue['priority'];
} else {
return 0;
}
}
/**
* 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?
* @throws \Exception
*/
private static function processWithPriorityActive(int $priority): int
{
$condition = ["`priority` <= ? AND `pid` != 0 AND NOT `done`", $priority];
return DBA::exists('workerqueue', $condition);
}
/**
* Checks if the given file is valid to be included
*
* @param mixed $file
* @return bool
*/
private static function validateInclude(&$file): bool
{
$orig_file = $file;
$file = realpath($file);
if (strpos($file, getcwd()) !== 0) {
return false;
}
$file = str_replace(getcwd() . '/', '', $file, $count);
if ($count != 1) {
return false;
}
if ($orig_file !== $file) {
return false;
}
return (strpos($file, 'addon/') === 0);
}
/**
* Execute a worker entry
*
* @param array $queue Workerqueue entry
*
* @return boolean "true" if further processing should be stopped
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
*/
public static function execute(array $queue): bool
{
$mypid = getmypid();
// Quit when in maintenance
if (DI::config()->get('system', 'maintenance', false)) {
Logger::notice('Maintenance mode - quit process', ['pid' => $mypid]);
return false;
}
// Constantly check the number of parallel database processes
if (DI::system()->isMaxProcessesReached()) {
Logger::warning('Max processes reached for process', ['pid' => $mypid]);
return false;
}
// Constantly check the number of available database connections to let the frontend be accessible at any time
if (self::maxConnectionsReached()) {
Logger::warning('Max connection reached for process', ['pid' => $mypid]);
return false;
}
$argv = json_decode($queue['parameter'], true);
if (!is_array($argv)) {
$argv = [];
}
if (!empty($queue['command'])) {
array_unshift($argv, $queue['command']);
}
if (empty($argv)) {
Logger::warning('Parameter is empty', ['queue' => $queue]);
return false;
}
// Check for existence and validity of the include file
$include = $argv[0];
if (method_exists(sprintf('Friendica\Worker\%s', $include), 'execute')) {
// We constantly update the "executed" date every minute to avoid being killed too soon
if (!isset(self::$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', ['executed' => DateTimeFormat::utcNow()], ['pid' => $mypid, 'done' => false]);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
}
array_shift($argv);
self::execFunction($queue, $include, $argv, true);
$stamp = (float)microtime(true);
$condition = ["`id` = ? AND `next_try` < ?", $queue['id'], DateTimeFormat::utcNow()];
if (DBA::update('workerqueue', ['done' => true], $condition)) {
DI::keyValue()->set('last_worker_execution', DateTimeFormat::utcNow());
}
self::$db_duration = (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
return true;
}
if (!self::validateInclude($include)) {
Logger::warning('Include file is not valid', ['file' => $argv[0]]);
$stamp = (float)microtime(true);
DBA::delete('workerqueue', ['id' => $queue['id']]);
self::$db_duration = (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
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', ['executed' => DateTimeFormat::utcNow()], ['pid' => $mypid, 'done' => false]);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
}
self::execFunction($queue, $funcname, $argv, false);
$stamp = (float)microtime(true);
if (DBA::update('workerqueue', ['done' => true], ['id' => $queue['id']])) {
DI::keyValue()->set('last_worker_execution', DateTimeFormat::utcNow());
}
self::$db_duration = (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
} else {
Logger::warning('Function does not exist', ['function' => $funcname]);
$stamp = (float)microtime(true);
DBA::delete('workerqueue', ['id' => $queue['id']]);
self::$db_duration = (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
}
return true;
}
/**
* Checks if system limits are reached.
*
* @return boolean
*/
private static function systemLimitReached(): bool
{
$load_cooldown = DI::config()->get('system', 'worker_load_cooldown');
$processes_cooldown = DI::config()->get('system', 'worker_processes_cooldown');
if ($load_cooldown == 0) {
$load_cooldown = DI::config()->get('system', 'maxloadavg');
}
if (($load_cooldown == 0) && ($processes_cooldown == 0)) {
return false;
}
$load = System::getLoadAvg($processes_cooldown != 0);
if (empty($load)) {
return false;
}
if (($load_cooldown > 0) && ($load['average1'] > $load_cooldown)) {
return true;
}
if (($processes_cooldown > 0) && ($load['scheduled'] > $processes_cooldown)) {
return true;
}
return false;
}
/**
* Slow the execution down if the system load is too high
*
* @return void
*/
public static function coolDown()
{
$cooldown = DI::config()->get('system', 'worker_cooldown', 0);
if ($cooldown > 0) {
Logger::debug('Wait for cooldown.', ['cooldown' => $cooldown]);
if ($cooldown < 1) {
usleep($cooldown * 1000000);
} else {
sleep($cooldown);
}
}
$load_cooldown = DI::config()->get('system', 'worker_load_cooldown');
$processes_cooldown = DI::config()->get('system', 'worker_processes_cooldown');
if ($load_cooldown == 0) {
$load_cooldown = DI::config()->get('system', 'maxloadavg');
}
if (($load_cooldown == 0) && ($processes_cooldown == 0)) {
return;
}
$sleeping = false;
while ($load = System::getLoadAvg($processes_cooldown != 0)) {
if (($load_cooldown > 0) && ($load['average1'] > $load_cooldown)) {
if (!$sleeping) {
Logger::info('Load induced pre execution cooldown.', ['max' => $load_cooldown, 'load' => $load, 'called-by' => System::callstack(1)]);
$sleeping = true;
}
sleep(1);
continue;
}
if (($processes_cooldown > 0) && ($load['scheduled'] > $processes_cooldown)) {
if (!$sleeping) {
Logger::info('Process induced pre execution cooldown.', ['max' => $processes_cooldown, 'load' => $load, 'called-by' => System::callstack(1)]);
$sleeping = true;
}
sleep(1);
continue;
}
break;
}
if ($sleeping) {
Logger::info('Cooldown ended.', ['max-load' => $load_cooldown, 'max-processes' => $processes_cooldown, 'load' => $load, 'called-by' => System::callstack(1)]);
}
}
/**
* 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
* @param boolean $method_call boolean
* @return void
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
*/
private static function execFunction(array $queue, string $funcname, array $argv, bool $method_call)
{
$a = DI::app();
self::coolDown();
Logger::enableWorker($funcname);
Logger::info('Process start.', ['priority' => $queue['priority'], 'id' => $queue['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.
DI::profiler()->reset();
$a->setQueue($queue);
$up_duration = microtime(true) - self::$up_start;
// Reset global data to avoid interferences
unset($_SESSION);
// Set the workerLogger as new default logger
if ($method_call) {
try {
call_user_func_array(sprintf('Friendica\Worker\%s::execute', $funcname), $argv);
} catch (\TypeError $e) {
// No need to defer a worker queue entry if the arguments are invalid
Logger::notice('Wrong worker arguments', ['class' => $funcname, 'argv' => $argv, 'queue' => $queue, 'message' => $e->getMessage()]);
} catch (\Throwable $e) {
Logger::error('Uncaught exception in worker execution', ['class' => get_class($e), 'message' => $e->getMessage(), 'code' => $e->getCode(), 'file' => $e->getFile() . ':' . $e->getLine(), 'trace' => $e->getTraceAsString(), 'previous' => $e->getPrevious()]);
Worker::defer();
}
} else {
$funcname($argv, count($argv));
}
Logger::disableWorker();
$a->setQueue([]);
$duration = (microtime(true) - $stamp);
/* 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 effectiveness.
*/
$dbtotal = round(self::$db_duration, 2);
$dbread = round(self::$db_duration - (self::$db_duration_count + self::$db_duration_write + self::$db_duration_stat), 2);
$dbcount = round(self::$db_duration_count, 2);
$dbstat = round(self::$db_duration_stat, 2);
$dbwrite = round(self::$db_duration_write, 2);
$dblock = round(self::$lock_duration, 2);
$rest = round(max(0, $up_duration - (self::$db_duration + self::$lock_duration)), 2);
$exec = round($duration, 2);
Logger::info('Performance:', ['state' => self::$state, 'count' => $dbcount, 'stat' => $dbstat, 'write' => $dbwrite, 'lock' => $dblock, 'total' => $dbtotal, 'rest' => $rest, 'exec' => $exec]);
self::coolDown();
self::$up_start = microtime(true);
self::$db_duration = 0;
self::$db_duration_count = 0;
self::$db_duration_stat = 0;
self::$db_duration_write = 0;
self::$lock_duration = 0;
if ($duration > 3600) {
Logger::info('Longer than 1 hour.', ['priority' => $queue['priority'], 'id' => $queue['id'], 'duration' => round($duration/60, 3)]);
} elseif ($duration > 600) {
Logger::info('Longer than 10 minutes.', ['priority' => $queue['priority'], 'id' => $queue['id'], 'duration' => round($duration/60, 3)]);
} elseif ($duration > 300) {
Logger::info('Longer than 5 minutes.', ['priority' => $queue['priority'], 'id' => $queue['id'], 'duration' => round($duration/60, 3)]);
} elseif ($duration > 120) {
Logger::info('Longer than 2 minutes.', ['priority' => $queue['priority'], 'id' => $queue['id'], 'duration' => round($duration/60, 3)]);
}
Logger::info('Process done.', ['priority' => $queue['priority'], 'id' => $queue['id'], 'duration' => round($duration, 3)]);
DI::profiler()->saveLog(DI::logger(), 'ID ' . $queue['id'] . ': ' . $funcname);
}
/**
* Checks if the number of database connections has reached a critical limit.
*
* @return bool Are more than 3/4 of the maximum connections used?
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
*/
private static function maxConnectionsReached(): bool
{
// Fetch the max value from the config. This is needed when the system cannot detect the correct value by itself.
$max = DI::config()->get('system', 'max_connections');
// Fetch the percentage level where the worker will get active
$maxlevel = DI::config()->get('system', 'max_connections_level', 75);
if ($max == 0) {
// the maximum number of possible user connections can be a system variable
$r = DBA::fetchFirst("SHOW VARIABLES WHERE `variable_name` = 'max_user_connections'");
if (DBA::isResult($r)) {
$max = $r['Value'];
}
// Or it can be granted. This overrides the system variable
$stamp = (float)microtime(true);
$r = DBA::p('SHOW GRANTS');
self::$db_duration += (microtime(true) - $stamp);
while ($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 = $match[1];
}
}
}
DBA::close($r);
}
$stamp = (float)microtime(true);
$used = 0;
$sleep = 0;
$data = DBA::p("SHOW PROCESSLIST");
while ($row = DBA::fetch($data)) {
if ($row['Command'] != 'Sleep') {
++$used;
} else {
++$sleep;
}
}
DBA::close($data);
self::$db_duration += (microtime(true) - $stamp);
// 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) {
Logger::info('Connection usage (user values)', ['working' => $used, 'sleeping' => $sleep, 'max' => $max]);
$level = ($used / $max) * 100;
if ($level >= $maxlevel) {
Logger::warning('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.
$r = DBA::fetchFirst("SHOW VARIABLES WHERE `variable_name` = 'max_connections'");
if (!DBA::isResult($r)) {
return false;
}
$max = intval($r['Value']);
if ($max == 0) {
return false;
}
$r = DBA::fetchFirst("SHOW STATUS WHERE `variable_name` = 'Threads_connected'");
if (!DBA::isResult($r)) {
return false;
}
$used = max($used, intval($r['Value'])) - $sleep;
if ($used == 0) {
return false;
}
Logger::info('Connection usage (system values)', ['working' => $used, 'sleeping' => $sleep, 'max' => $max]);
$level = $used / $max * 100;
if ($level < $maxlevel) {
return false;
}
Logger::warning('Maximum level (' . $level . '%) of system connections reached: ' . $used . '/' . $max);
return true;
}
/**
* Checks if the number of active workers exceeds the given limits
*
* @return bool Are there too much workers running?
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
*/
private static function tooMuchWorkers(): bool
{
$queues = DI::config()->get('system', 'worker_queues', 10);
$maxqueues = $queues;
$active = self::activeWorkers();
// Decrease the number of workers at higher load
$load = System::currentLoad();
if ($load) {
$maxsysload = intval(DI::config()->get('system', 'maxloadavg', 20));
/* Default exponent 3 causes queues to rapidly decrease as load increases.
* If you have 20 max queues at idle, then you get only 5 queues at 37.1% of $maxsysload.
* For some environments, this rapid decrease is not needed.
* With exponent 1, you could have 20 max queues at idle and 13 at 37% of $maxsysload.
*/
$exponent = intval(DI::config()->get('system', 'worker_load_exponent', 3));
$slope = pow(max(0, $maxsysload - $load) / $maxsysload, $exponent);
$queues = intval(ceil($slope * $maxqueues));
$processlist = '';
if (DI::config()->get('system', 'worker_jpm')) {
$intervals = explode(',', DI::config()->get('system', 'worker_jpm_range'));
$jobs_per_minute = [];
foreach ($intervals as $interval) {
if ($interval == 0) {
continue;
} else {
$interval = (int)$interval;
}
$stamp = (float)microtime(true);
$jobs = DBA::count('workerqueue', ["`done` AND `executed` > ?", DateTimeFormat::utc('now - ' . $interval . ' minute')]);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_stat += (microtime(true) - $stamp);
$jobs_per_minute[$interval] = number_format($jobs / $interval, 0);
}
$processlist = ' - jpm: '.implode('/', $jobs_per_minute);
}
// Create a list of queue entries grouped by their priority
$listitem = [0 => ''];
$idle_workers = $active;
$deferred = self::deferredEntries();
if (DI::config()->get('system', 'worker_debug')) {
$waiting_processes = 0;
// Now adding all processes with workerqueue entries
$stamp = (float)microtime(true);
$jobs = DBA::p("SELECT COUNT(*) AS `entries`, `priority` FROM `workerqueue` WHERE NOT `done` GROUP BY `priority`");
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_stat += (microtime(true) - $stamp);
while ($entry = DBA::fetch($jobs)) {
$stamp = (float)microtime(true);
$running = DBA::count('workerqueue-view', ['priority' => $entry['priority']]);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_stat += (microtime(true) - $stamp);
$idle_workers -= $running;
$waiting_processes += $entry['entries'];
$listitem[$entry['priority']] = $entry['priority'] . ':' . $running . '/' . $entry['entries'];
}
DBA::close($jobs);
} else {
$waiting_processes = self::totalEntries();
$stamp = (float)microtime(true);
$jobs = DBA::p("SELECT COUNT(*) AS `running`, `priority` FROM `workerqueue-view` GROUP BY `priority` ORDER BY `priority`");
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_stat += (microtime(true) - $stamp);
while ($entry = DBA::fetch($jobs)) {
$idle_workers -= $entry['running'];
$listitem[$entry['priority']] = $entry['priority'] . ':' . $entry['running'];
}
DBA::close($jobs);
}
$waiting_processes -= $deferred;
$listitem[0] = '0:' . max(0, $idle_workers);
$processlist .= ' ('.implode(', ', $listitem).')';
if (DI::config()->get('system', 'worker_fastlane', false) && ($queues > 0) && ($active >= $queues) && self::entriesExists()) {
$top_priority = self::highestPriority();
$high_running = self::processWithPriorityActive($top_priority);
if (!$high_running && ($top_priority > self::PRIORITY_UNDEFINED) && ($top_priority < self::PRIORITY_NEGLIGIBLE)) {
Logger::info('Jobs with a higher priority are waiting but none is executed. Open a fastlane.', ['priority' => $top_priority]);
$queues = $active + 1;
}
}
Logger::info('Load: ' . $load . '/' . $maxsysload . ' - processes: ' . $deferred . '/' . $active . '/' . $waiting_processes . $processlist . ' - maximum: ' . $queues . '/' . $maxqueues);
// Are there fewer workers running as possible? Then fork a new one.
if (!DI::config()->get('system', 'worker_dont_fork', false) && ($queues > ($active + 1)) && self::entriesExists() && !self::systemLimitReached()) {
Logger::info('There are fewer workers as possible, fork a new worker.', ['active' => $active, 'queues' => $queues]);
if (Worker\Daemon::isMode()) {
Worker\IPC::SetJobState(true);
} else {
self::spawnWorker();
}
}
}
// if there are too much worker, we don't spawn a new one.
if (Worker\Daemon::isMode() && ($active > $queues)) {
Worker\IPC::SetJobState(false);
}
return $active > $queues;
}
/**
* Returns the number of active worker processes
*
* @return integer Number of active worker processes
* @throws \Exception
*/
private static function activeWorkers(): int
{
$stamp = (float)microtime(true);
$count = DI::process()->countCommand('Worker.php');
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_count += (microtime(true) - $stamp);
return $count;
}
/**
* Returns the number of active worker processes
*
* @return array List of worker process ids
* @throws \Exception
*/
private static function getWorkerPIDList(): array
{
$ids = [];
$stamp = (float)microtime(true);
$queues = DBA::p("SELECT `process`.`pid`, COUNT(`workerqueue`.`pid`) AS `entries` FROM `process`
LEFT JOIN `workerqueue` ON `workerqueue`.`pid` = `process`.`pid` AND NOT `workerqueue`.`done`
GROUP BY `process`.`pid`");
while ($queue = DBA::fetch($queues)) {
$ids[$queue['pid']] = $queue['entries'];
}
DBA::close($queues);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_count += (microtime(true) - $stamp);
return $ids;
}
/**
* Returns waiting jobs for the current process id
*
* @return array|bool waiting workerqueue jobs or FALSE on failure
* @throws \Exception
*/
private static function getWaitingJobForPID()
{
$stamp = (float)microtime(true);
$r = DBA::select('workerqueue', [], ['pid' => getmypid(), 'done' => false]);
self::$db_duration += (microtime(true) - $stamp);
if (DBA::isResult($r)) {
return DBA::toArray($r);
}
DBA::close($r);
return false;
}
/**
* Returns the next jobs that should be executed
* @param int $limit
* @return array array with next jobs
* @throws \Exception
*/
private static function nextProcess(int $limit): array
{
$priority = self::nextPriority();
if (empty($priority)) {
Logger::info('No tasks found');
return [];
}
$ids = [];
$stamp = (float)microtime(true);
$condition = ["`priority` = ? AND `pid` = 0 AND NOT `done` AND `next_try` < ?", $priority, DateTimeFormat::utcNow()];
$tasks = DBA::select('workerqueue', ['id', 'command', 'parameter'], $condition, ['limit' => $limit, 'order' => ['retrial', 'created']]);
self::$db_duration += (microtime(true) - $stamp);
while ($task = DBA::fetch($tasks)) {
$ids[] = $task['id'];
// Only continue that loop while we are storing commands that can be processed quickly
if (!empty($task['command'])) {
$command = $task['command'];
} else {
$command = json_decode($task['parameter'])[0];
}
if (!in_array($command, self::FAST_COMMANDS)) {
break;
}
}
DBA::close($tasks);
Logger::info('Found:', ['priority' => $priority, 'id' => $ids]);
return $ids;
}
/**
* Returns the priority of the next workerqueue job
*
* @return string|bool priority or FALSE on failure
* @throws \Exception
*/
private static function nextPriority()
{
$waiting = [];
$priorities = [self::PRIORITY_CRITICAL, self::PRIORITY_HIGH, self::PRIORITY_MEDIUM, self::PRIORITY_LOW, self::PRIORITY_NEGLIGIBLE];
foreach ($priorities as $priority) {
$stamp = (float)microtime(true);
if (DBA::exists('workerqueue', ["`priority` = ? AND `pid` = 0 AND NOT `done` AND `next_try` < ?", $priority, DateTimeFormat::utcNow()])) {
$waiting[$priority] = true;
}
self::$db_duration += (microtime(true) - $stamp);
}
if (!empty($waiting[self::PRIORITY_CRITICAL])) {
return self::PRIORITY_CRITICAL;
}
$running = [];
$running_total = 0;
$stamp = (float)microtime(true);
$processes = DBA::p("SELECT COUNT(DISTINCT(`pid`)) AS `running`, `priority` FROM `workerqueue-view` GROUP BY `priority`");
self::$db_duration += (microtime(true) - $stamp);
while ($process = DBA::fetch($processes)) {
$running[$process['priority']] = $process['running'];
$running_total += $process['running'];
}
DBA::close($processes);
foreach ($priorities as $priority) {
if (!empty($waiting[$priority]) && empty($running[$priority])) {
Logger::info('No running worker found with priority {priority} - assigning it.', ['priority' => $priority]);
return $priority;
}
}
$active = max(self::activeWorkers(), $running_total);
$priorities = max(count($waiting), count($running));
$exponent = 2;
$total = 0;
for ($i = 1; $i <= $priorities; ++$i) {
$total += pow($i, $exponent);
}
$limit = [];
for ($i = 1; $i <= $priorities; ++$i) {
$limit[$priorities - $i] = max(1, round($active * (pow($i, $exponent) / $total)));
}
$i = 0;
foreach ($running as $priority => $workers) {
if ($workers < $limit[$i++]) {
Logger::info('Priority {priority} has got {workers} workers out of a limit of {limit}', ['priority' => $priority, 'workers' => $workers, 'limit' => $limit[$i - 1]]);
return $priority;
}
}
if (!empty($waiting)) {
$priority = array_keys($waiting)[0];
Logger::info('No underassigned priority found, now taking the highest priority.', ['priority' => $priority]);
return $priority;
}
return false;
}
/**
* Find and claim the next worker process for us
*
* @return void
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
*/
private static function findWorkerProcesses()
{
$fetch_limit = DI::config()->get('system', 'worker_fetch_limit', 1);
if (DI::config()->get('system', 'worker_multiple_fetch')) {
$pids = [];
foreach (self::getWorkerPIDList() as $pid => $count) {
if ($count <= $fetch_limit) {
$pids[] = $pid;
}
}
if (empty($pids)) {
return;
}
$limit = $fetch_limit * count($pids);
} else {
$pids = [getmypid()];
$limit = $fetch_limit;
}
$ids = self::nextProcess($limit);
$limit -= count($ids);
// If there is not enough results we check without priority limit
if ($limit > 0) {
$stamp = (float)microtime(true);
$condition = ["`pid` = 0 AND NOT `done` AND `next_try` < ?", DateTimeFormat::utcNow()];
$tasks = DBA::select('workerqueue', ['id', 'command', 'parameter'], $condition, ['limit' => $limit, 'order' => ['priority', 'retrial', 'created']]);
self::$db_duration += (microtime(true) - $stamp);
while ($task = DBA::fetch($tasks)) {
$ids[] = $task['id'];
// Only continue that loop while we are storing commands that can be processed quickly
if (!empty($task['command'])) {
$command = $task['command'];
} else {
$command = json_decode($task['parameter'])[0];
}
if (!in_array($command, self::FAST_COMMANDS)) {
break;
}
}
DBA::close($tasks);
}
if (empty($ids)) {
return;
}
// Assign the task ids to the workers
$worker = [];
foreach (array_unique($ids) as $id) {
$pid = next($pids);
if (!$pid) {
$pid = reset($pids);
}
$worker[$pid][] = $id;
}
$stamp = (float)microtime(true);
foreach ($worker as $worker_pid => $worker_ids) {
Logger::info('Set queue entry', ['pid' => $worker_pid, 'ids' => $worker_ids]);
DBA::update('workerqueue', ['executed' => DateTimeFormat::utcNow(), 'pid' => $worker_pid],
['id' => $worker_ids, 'done' => false, 'pid' => 0]);
}
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
}
/**
* Returns the next worker process
*
* @return array worker processes
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
*/
public static function workerProcess(): array
{
// There can already be jobs for us in the queue.
$waiting = self::getWaitingJobForPID();
if (!empty($waiting)) {
return $waiting;
}
$stamp = (float)microtime(true);
if (!DI::lock()->acquire(self::LOCK_PROCESS)) {
return [];
}
self::$lock_duration += (microtime(true) - $stamp);
self::findWorkerProcesses();
DI::lock()->release(self::LOCK_PROCESS);
// Prevents "Return value of Friendica\Core\Worker::workerProcess() must be of the type array, bool returned"
$process = self::getWaitingJobForPID();
return (is_array($process) ? $process : []);
}
/**
* Removes a workerqueue entry from the current process
*
* @param Process $process the process behind the workerqueue
*
* @return void
* @throws \Exception
*/
public static function unclaimProcess(Process $process)
{
$stamp = (float)microtime(true);
DBA::update('workerqueue', ['executed' => DBA::NULL_DATETIME, 'pid' => 0], ['pid' => $process->pid, 'done' => false]);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
}
/**
* Fork a child process
*
* @param boolean $do_cron
* @return void
*/
private static function forkProcess(bool $do_cron)
{
if (DI::system()->isMinMemoryReached()) {
Logger::warning('Memory limit reached - quitting');
return;
}
// Children inherit their parent's database connection.
// To avoid problems we disconnect and connect both parent and child
DBA::disconnect();
$pid = pcntl_fork();
if ($pid == -1) {
DBA::connect();
Logger::warning('Could not spawn worker');
return;
} elseif ($pid) {
// The parent process continues here
DBA::connect();
Worker\IPC::SetJobState(true, $pid);
Logger::info('Spawned new worker', ['pid' => $pid]);
$cycles = 0;
while (Worker\IPC::JobsExists($pid) && (++$cycles < 100)) {
usleep(10000);
}
Logger::info('Spawned worker is ready', ['pid' => $pid, 'wait_cycles' => $cycles]);
return;
}
// We now are in the new worker
DBA::connect();
DI::flushLogger();
$process = DI::process()->create(getmypid(), basename(__FILE__));
$cycles = 0;
while (!Worker\IPC::JobsExists($process->pid) && (++$cycles < 100)) {
usleep(10000);
}
Logger::info('Worker spawned', ['pid' => $process->pid, 'wait_cycles' => $cycles]);
self::processQueue($do_cron, $process);
self::unclaimProcess($process);
Worker\IPC::SetJobState(false, $process->pid);
DI::process()->delete($process);
Logger::info('Worker ended', ['pid' => $process->pid]);
exit();
}
/**
* Spawns a new worker
*
* @param bool $do_cron
* @return void
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
*/
public static function spawnWorker(bool $do_cron = false)
{
if (Worker\Daemon::isMode() && DI::config()->get('system', 'worker_fork')) {
self::forkProcess($do_cron);
} else {
DI::system()->run('bin/worker.php', ['no_cron' => !$do_cron]);
}
if (Worker\Daemon::isMode()) {
Worker\IPC::SetJobState(false);
}
}
/**
* Adds tasks to the worker queue
*
* @param (integer|array) priority or parameter array, strings are deprecated and are ignored
*
* next args are passed as $cmd command line
* or: Worker::add(Worker::PRIORITY_HIGH, 'Notifier', Delivery::DELETION, $drop_id);
* or: Worker::add(array('priority' => Worker::PRIORITY_HIGH, 'dont_fork' => true), 'Delivery', $post_id);
*
* @return int '0' if worker queue entry already existed or there had been an error, otherwise the ID of the worker task
* @throws \Friendica\Network\HTTPException\InternalServerErrorException
* @note $cmd and string args are surrounded with ''
*
* @hooks 'proc_run'
* array $arr
*
*/
public static function add(...$args)
{
if (!count($args)) {
return 0;
}
$arr = ['args' => $args, 'run_cmd' => true];
Hook::callAll('proc_run', $arr);
if (!$arr['run_cmd'] || !count($args)) {
return 1;
}
$priority = self::PRIORITY_MEDIUM;
// Don't fork from frontend tasks by default
$dont_fork = DI::config()->get('system', 'worker_dont_fork', false) || !DI::mode()->isBackend();
$created = DateTimeFormat::utcNow();
$delayed = DBA::NULL_DATETIME;
$force_priority = false;
$run_parameter = array_shift($args);
if (is_int($run_parameter)) {
$priority = $run_parameter;
} elseif (is_array($run_parameter)) {
if (isset($run_parameter['delayed'])) {
$delayed = $run_parameter['delayed'];
}
if (isset($run_parameter['priority'])) {
$priority = $run_parameter['priority'];
}
if (isset($run_parameter['created'])) {
$created = $run_parameter['created'];
}
if (isset($run_parameter['dont_fork'])) {
$dont_fork = $run_parameter['dont_fork'];
}
if (isset($run_parameter['force_priority'])) {
$force_priority = $run_parameter['force_priority'];
}
} else {
throw new \InvalidArgumentException('Priority number or task parameter array expected as first argument');
}
$command = array_shift($args);
$parameters = json_encode($args);
$queue = DBA::selectFirst('workerqueue', ['id', 'priority'], ['command' => $command, 'parameter' => $parameters, 'done' => false]);
$added = 0;
if (!is_int($priority) || !in_array($priority, self::PRIORITIES)) {
Logger::warning('Invalid priority', ['priority' => $priority, 'command' => $command, 'callstack' => System::callstack(20)]);
$priority = self::PRIORITY_MEDIUM;
}
// Quit if there was a database error - a precaution for the update process to 3.5.3
if (DBA::errorNo() != 0) {
return 0;
}
if (empty($queue)) {
if (!DBA::insert('workerqueue', ['command' => $command, 'parameter' => $parameters, 'created' => $created,
'priority' => $priority, 'next_try' => $delayed])) {
return 0;
}
$added = DBA::lastInsertId();
} elseif ($force_priority) {
$ret = DBA::update('workerqueue', ['priority' => $priority], ['command' => $command, 'parameter' => $parameters, 'done' => false, 'pid' => 0]);
if ($ret && ($priority != $queue['priority'])) {
$added = $queue['id'];
}
}
// Set the IPC flag to ensure an immediate process execution via daemon
if (Worker\Daemon::isMode()) {
Worker\IPC::SetJobState(true);
}
Worker\Daemon::checkState();
// Should we quit and wait for the worker to be called as a cronjob?
if ($dont_fork || self::systemLimitReached()) {
return $added;
}
// If there is a lock then we don't have to check for too much worker
if (!DI::lock()->acquire(self::LOCK_WORKER, 0)) {
return $added;
}
// If there are already enough workers running, don't fork another one
$quit = self::tooMuchWorkers();
DI::lock()->release(self::LOCK_WORKER);
if ($quit) {
return $added;
}
// Quit on daemon mode, except the priority is critical (like for db updates)
if (Worker\Daemon::isMode() && $priority !== self::PRIORITY_CRITICAL) {
return $added;
}
// Now call the worker to execute the jobs that we just added to the queue
self::spawnWorker();
return $added;
}
public static function countWorkersByCommand(string $command): int
{
return DBA::count('workerqueue', ['done' => false, 'pid' => 0, 'command' => $command]);
}
/**
* Returns the next retrial level for worker jobs.
* This function will skip levels when jobs are older.
*
* @param array $queue Worker queue entry
* @param integer $max_level maximum retrial level
* @return integer the next retrial level value
*/
private static function getNextRetrial(array $queue, int $max_level): int
{
$created = strtotime($queue['created']);
$retrial_time = time() - $created;
$new_retrial = $queue['retrial'] + 1;
$total = 0;
for ($retrial = 0; $retrial <= $max_level + 1; ++$retrial) {
$delay = (($retrial + 3) ** 4) + (rand(1, 30) * ($retrial + 1));
$total += $delay;
if (($total < $retrial_time) && ($retrial > $queue['retrial'])) {
$new_retrial = $retrial;
}
}
Logger::notice('New retrial for task', ['id' => $queue['id'], 'created' => $queue['created'], 'old' => $queue['retrial'], 'new' => $new_retrial]);
return $new_retrial;
}
/**
* Defers the current worker entry
*
* @return boolean had the entry been deferred?
* @throws \Exception
*/
public static function defer(): bool
{
$queue = DI::app()->getQueue();
if (empty($queue)) {
return false;
}
$id = $queue['id'];
$priority = $queue['priority'];
$max_level = DI::config()->get('system', 'worker_defer_limit');
$new_retrial = self::getNextRetrial($queue, $max_level);
if ($new_retrial > $max_level) {
Logger::notice('The task exceeded the maximum retry count', ['id' => $id, 'created' => $queue['created'], 'old_prio' => $queue['priority'], 'old_retrial' => $queue['retrial'], 'max_level' => $max_level, 'retrial' => $new_retrial]);
return false;
}
// Calculate the delay until the next trial
$delay = (($new_retrial + 2) ** 4) + (rand(1, 30) * ($new_retrial));
$next = DateTimeFormat::utc('now + ' . $delay . ' seconds');
if (($priority < self::PRIORITY_MEDIUM) && ($new_retrial > 3)) {
$priority = self::PRIORITY_MEDIUM;
} elseif (($priority < self::PRIORITY_LOW) && ($new_retrial > 6)) {
$priority = self::PRIORITY_LOW;
} elseif (($priority < self::PRIORITY_NEGLIGIBLE) && ($new_retrial > 8)) {
$priority = self::PRIORITY_NEGLIGIBLE;
}
Logger::info('Deferred task', ['id' => $id, 'retrial' => $new_retrial, 'created' => $queue['created'], 'next_execution' => $next, 'old_prio' => $queue['priority'], 'new_prio' => $priority]);
$stamp = (float)microtime(true);
$fields = ['retrial' => $new_retrial, 'next_try' => $next, 'executed' => DBA::NULL_DATETIME, 'pid' => 0, 'priority' => $priority];
DBA::update('workerqueue', $fields, ['id' => $id]);
self::$db_duration += (microtime(true) - $stamp);
self::$db_duration_write += (microtime(true) - $stamp);
return true;
}
/**
* Check if the system is inside the defined maintenance window
*
* @param bool $check_last_execution Whether check last execution
* @return boolean
*/
public static function isInMaintenanceWindow(bool $check_last_execution = false): bool
{
// Calculate the seconds of the start and end of the maintenance window
$start = strtotime(DI::config()->get('system', 'maintenance_start')) % 86400;
$end = strtotime(DI::config()->get('system', 'maintenance_end')) % 86400;
Logger::info('Maintenance window', ['start' => date('H:i:s', $start), 'end' => date('H:i:s', $end)]);
if ($check_last_execution) {
// Calculate the window duration
$duration = max($start, $end) - min($start, $end);
// Quit when the last cron execution had been after the previous window
$last_cron = DI::keyValue()->get('last_cron_daily');
if ($last_cron + $duration > time()) {
Logger::info('The Daily cron had been executed recently', ['last' => date(DateTimeFormat::MYSQL, $last_cron), 'start' => date('H:i:s', $start), 'end' => date('H:i:s', $end)]);
return false;
}
}
$current = time() % 86400;
if ($start < $end) {
// Execute if we are inside the window
$execute = ($current >= $start) && ($current <= $end);
} else {
// Don't execute if we are outside the window
$execute = !(($current > $end) && ($current < $start));
}
if ($execute) {
Logger::info('We are inside the maintenance window', ['current' => date('H:i:s', $current), 'start' => date('H:i:s', $start), 'end' => date('H:i:s', $end)]);
} else {
Logger::info('We are outside the maintenance window', ['current' => date('H:i:s', $current), 'start' => date('H:i:s', $start), 'end' => date('H:i:s', $end)]);
}
return $execute;
}
}