base = event_base_new(); $this->gcEvent = event_new(); event_timer_set($this->gcEvent, [$this, 'collectGarbage']); event_base_set($this->gcEvent, $this->base); $this->onCallbackResolution = function($e = null, $r = null) { if (empty($e)) { return; } elseif ($onError = $this->onError) { $onError($e); } else { throw $e; } }; self::$instanceCount++; } /** * Start the event reactor and assume program flow control * * @param callable $onStart Optional callback to invoke immediately upon reactor start * @throws \Exception Will throw if code executed during the event loop throws * @return void */ public function run(callable $onStart = null) { if ($this->isRunning) { return; } $this->isRunning = true; if ($onStart) { $this->immediately($onStart); } while ($this->isRunning) { if ($this->immediates && !$this->doImmediates()) { break; } if (empty($this->enabledWatcherCount)) { break; } event_base_loop($this->base, EVLOOP_ONCE); } if ($this->stopException) { $e = $this->stopException; $this->stopException = null; throw $e; } } private function doImmediates() { $immediates = $this->immediates; foreach ($immediates as $watcherId => $callback) { try { $this->enabledWatcherCount--; unset( $this->immediates[$watcherId], $this->watchers[$watcherId] ); $result = $callback($this, $watcherId); if ($result instanceof \Generator) { $this->resolveGenerator($result)->when($this->onCallbackResolution); } } catch (\Exception $e) { $this->handleRunError($e); } if (!$this->isRunning) { // If a watcher stops the reactor break out of the loop return false; } } return $this->isRunning; } /** * Execute a single event loop iteration * * @param bool $noWait If TRUE, return immediately when no watchers are immediately ready to trigger * @return void */ public function tick($noWait = false) { if ($this->isRunning) { return; } $this->isRunning = true; if (empty($this->immediates) || $this->doImmediates()) { $flags = $noWait ? (EVLOOP_ONCE | EVLOOP_NONBLOCK) : EVLOOP_ONCE; event_base_loop($this->base, $flags); } $this->isRunning = false; if ($this->stopException) { $e = $this->stopException; $this->stopException = null; throw $e; } } /** * Stop the event reactor * * @return void */ public function stop() { event_base_loopexit($this->base); $this->isRunning = false; } /** * Schedule an event to trigger once at the specified time * * @param callable $callback Any valid PHP callable * @param mixed[int|string] $unixTimeOrStr A future unix timestamp or string parsable by strtotime() * @throws \InvalidArgumentException On invalid future time * @return string Returns a unique watcher ID */ public function at(callable $callback, $unixTimeOrStr) { $now = time(); if (is_int($unixTimeOrStr) && $unixTimeOrStr > $now) { $secondsUntil = ($unixTimeOrStr - $now); } elseif (($executeAt = @strtotime($unixTimeOrStr)) && $executeAt > $now) { $secondsUntil = ($executeAt - $now); } else { throw new \InvalidArgumentException( 'Unix timestamp or future time string (parsable by strtotime()) required' ); } $msDelay = $secondsUntil * $this->resolution; return $this->once($callback, $msDelay); } /** * Schedule a callback for immediate invocation in the next event loop tick * * @param callable $callback Any valid PHP callable * @return string Returns a unique watcher ID */ public function immediately(callable $callback) { $this->enabledWatcherCount++; $watcherId = (string) $this->lastWatcherId++; $this->immediates[$watcherId] = $callback; $watcher = new \StdClass; $watcher->id = $watcherId; $watcher->type = Watcher::IMMEDIATE; $watcher->callback = $callback; $watcher->isEnabled = true; $this->watchers[$watcher->id] = $watcher; return $watcherId; } /** * Schedule a callback to execute once * * @param callable $callback Any valid PHP callable * @param int $msDelay The delay in milliseconds before the callback will trigger (may be zero) * @return string Returns a unique watcher ID */ public function once(callable $callback, $msDelay) { $this->enabledWatcherCount++; $watcherId = (string) $this->lastWatcherId++; $eventResource = event_new(); $msDelay = ($msDelay > 0) ? ($msDelay * $this->resolution) : 0; $watcher = new LibeventTimerWatcher; $watcher->id = $watcherId; $watcher->type = Watcher::TIMER_ONCE; $watcher->eventResource = $eventResource; $watcher->msDelay = $msDelay; $watcher->callback = $callback; $watcher->wrapper = $this->wrapOnceCallback($watcher); $this->watchers[$watcherId] = $watcher; event_timer_set($eventResource, $watcher->wrapper); event_base_set($eventResource, $this->base); event_add($eventResource, $msDelay); return $watcherId; } private function wrapOnceCallback(LibeventWatcher $watcher) { return function() use ($watcher) { try { $this->enabledWatcherCount--; $callback = $watcher->callback; $watcherId = $watcher->id; $result = $callback($this, $watcherId); if ($result instanceof \Generator) { $this->resolveGenerator($result)->when($this->onCallbackResolution); } $this->cancel($watcherId); } catch (\Exception $e) { $this->handleRunError($e); } }; } private function handleRunError(\Exception $e) { try { if (empty($this->onError)) { $this->stopException = $e; $this->stop(); } else { $handler = $this->onCallbackResolution; $handler($e); } } catch (\Exception $e) { $this->stopException = $e; $this->stop(); } } /** * Schedule a recurring callback to execute every $interval seconds until cancelled * * @param callable $callback Any valid PHP callable * @param int $msDelay The interval in milliseconds between callback invocations * @return string Returns a unique watcher ID */ public function repeat(callable $callback, $msDelay) { $this->enabledWatcherCount++; $watcherId = (string) $this->lastWatcherId++; $msDelay = ($msDelay > 0) ? ($msDelay * $this->resolution) : 0; $eventResource = event_new(); $watcher = new LibeventTimerWatcher; $watcher->id = $watcherId; $watcher->type = Watcher::TIMER_REPEAT; $watcher->eventResource = $eventResource; $watcher->msDelay = $msDelay; $watcher->callback = $callback; $watcher->wrapper = $this->wrapRepeatingCallback($watcher); $this->watchers[$watcherId] = $watcher; event_timer_set($eventResource, $watcher->wrapper); event_base_set($eventResource, $this->base); event_add($eventResource, $msDelay); return $watcherId; } private function wrapRepeatingCallback(LibeventWatcher $watcher) { $callback = $watcher->callback; $watcherId = $watcher->id; $eventResource = $watcher->eventResource; $msDelay = $watcher->msDelay; return function() use ($callback, $eventResource, $msDelay, $watcherId) { try { $result = $callback($this, $watcherId); if ($result instanceof \Generator) { $this->resolveGenerator($result)->when($this->onCallbackResolution); } event_add($eventResource, $msDelay); } catch (\Exception $e) { $this->handleRunError($e); } }; } /** * Watch a stream resource for IO readable data and trigger the callback when actionable * * @param resource $stream A stream resource to watch for readable data * @param callable $callback Any valid PHP callable * @param bool $enableNow Should the watcher be enabled now or held for later use? * @return string Returns a unique watcher ID */ public function onReadable($stream, callable $callback, $enableNow = true) { return $this->watchIoStream($stream, Watcher::IO_READER, $callback, $enableNow); } /** * Watch a stream resource to become writable and trigger the callback when actionable * * @param resource $stream A stream resource to watch for writability * @param callable $callback Any valid PHP callable * @param bool $enableNow Should the watcher be enabled now or held for later use? * @return string Returns a unique watcher ID */ public function onWritable($stream, callable $callback, $enableNow = true) { return $this->watchIoStream($stream, Watcher::IO_WRITER, $callback, $enableNow); } private function watchIoStream($stream, $type, callable $callback, $enableNow) { $this->enabledWatcherCount += $enableNow; $watcherId = (string) $this->lastWatcherId++; $eventResource = event_new(); $flags = EV_PERSIST; $flags |= ($type === Watcher::IO_READER) ? EV_READ : EV_WRITE; $watcher = new LibeventIoWatcher; $watcher->id = $watcherId; $watcher->type = $type; $watcher->stream = $stream; $watcher->callback = $callback; $watcher->wrapper = $this->wrapStreamCallback($watcher); $watcher->isEnabled = (bool) $enableNow; $watcher->eventResource = $eventResource; $this->watchers[$watcherId] = $watcher; event_set($eventResource, $stream, $flags, $watcher->wrapper); event_base_set($eventResource, $this->base); if ($enableNow) { event_add($eventResource); } return $watcherId; } private function wrapStreamCallback(LibeventWatcher $watcher) { $callback = $watcher->callback; $watcherId = $watcher->id; $stream = $watcher->stream; return function() use ($callback, $watcherId, $stream) { try { $result = $callback($this, $watcherId, $stream); if ($result instanceof \Generator) { $this->resolveGenerator($result)->when($this->onCallbackResolution); } } catch (\Exception $e) { $this->handleRunError($e); } }; } /** * React to process control signals * * @param int $signo The signal number to watch for (e.g. 2 for Uv::SIGINT) * @param callable $onSignal * @return string Returns a unique watcher ID */ public function onSignal($signo, callable $onSignal) { $this->enabledWatcherCount++; $signo = (int) $signo; $watcherId = (string) $this->lastWatcherId++; $eventResource = event_new(); $watcher = new LibeventSignalWatcher; $watcher->id = $watcherId; $watcher->type = Watcher::SIGNAL; $watcher->signo = $signo; $watcher->eventResource = $eventResource; $watcher->callback = $onSignal; $watcher->wrapper = $this->wrapSignalCallback($watcher); $this->watchers[$watcherId] = $watcher; event_set($eventResource, $signo, EV_SIGNAL | EV_PERSIST, $watcher->wrapper); event_base_set($eventResource, $this->base); event_add($eventResource); return $watcherId; } private function wrapSignalCallback(LibeventWatcher $watcher) { $callback = $watcher->callback; $watcherId = $watcher->id; $signo = $watcher->signo; return function() use ($callback, $watcherId, $signo) { try { $result = $callback($this, $watcherId, $signo); if ($result instanceof \Generator) { $this->resolveGenerator($result)->when($this->onCallbackResolution); } } catch (\Exception $e) { $this->handleRunError($e); } }; } /** * Cancel an existing watcher * * @param int $watcherId * @return void */ public function cancel($watcherId) { if (empty($this->watchers[$watcherId])) { return; } $watcher = $this->watchers[$watcherId]; $this->enabledWatcherCount =- $watcher->isEnabled; if (empty($watcher->eventResource)) { // It's an immediately watcher unset( $this->watchers[$watcherId], $this->immediates[$watcherId] ); } else { event_del($watcher->eventResource); unset($this->watchers[$watcherId]); } $this->garbage[] = $watcher; $this->scheduleGarbageCollection(); } /** * Temporarily disable (but don't cancel) an existing timer/stream watcher * * @param int $watcherId * @return void */ public function disable($watcherId) { if (empty($this->watchers[$watcherId])) { return; } $watcher = $this->watchers[$watcherId]; $this->enabledWatcherCount--; if (empty($watcher->eventResource)) { // It's an immediately watcher unset($this->immediates[$watcherId]); $watcher->isEnabled = false; } elseif ($watcher->isEnabled) { event_del($watcher->eventResource); $watcher->isEnabled = false; } } /** * Enable a disabled timer/stream watcher * * @param int $watcherId * @return void */ public function enable($watcherId) { if (empty($this->watchers[$watcherId])) { return; } $watcher = $this->watchers[$watcherId]; if ($watcher->isEnabled) { return; } $this->enabledWatcherCount++; if (empty($watcher->eventResource)) { // It's an immediately watcher $this->immediates[$watcherId] = $watcher->callback; } elseif ($watcher->type & Watcher::TIMER) { event_add($watcher->eventResource, $watcher->msDelay); } else { event_add($watcher->eventResource); } $watcher->isEnabled = true; } private function scheduleGarbageCollection() { if (!$this->isGCScheduled) { event_add($this->gcEvent, 0); $this->isGCScheduled = true; } } private function collectGarbage() { $this->garbage = []; $this->isGCScheduled = false; event_del($this->gcEvent); } /** * Access the underlying libevent extension event base * * This method exists outside the base Reactor API. It provides access to the underlying * libevent base for code that wishes to interact with lower-level libevent extension * functionality. * * @return resource */ public function getUnderlyingLoop() { return $this->base; } /** * An optional "last-chance" exception handler for errors resulting during callback invocation * * If a reactor callback throws and no onError() callback is specified the exception will * bubble up the stack. onError() callbacks are passed a single parameter: the uncaught * exception that resulted in the callback's invocation. * * @param callable $onErrorCallback * @return self */ public function onError(callable $onErrorCallback) { $this->onError = $onErrorCallback; return $this; } public function __destruct() { self::$instanceCount--; } public function __debugInfo() { $immediates = $timers = $readers = $writers = $signals = $disabled = 0; foreach ($this->watchers as $watcher) { switch ($watcher->type) { case Watcher::IMMEDIATE: $immediates++; break; case Watcher::TIMER_ONCE: case Watcher::TIMER_REPEAT: $timers++; break; case Watcher::IO_READER: $readers++; break; case Watcher::IO_WRITER: $writers++; break; case Watcher::SIGNAL: $signals++; break; default: throw new \DomainException( "Unexpected watcher type: {$watcher->type}" ); } $disabled += !$watcher->isEnabled; } return [ 'timers' => $timers, 'immediates' => $immediates, 'io_readers' => $readers, 'io_writers' => $writers, 'signals' => $signals, 'disabled' => $disabled, 'last_watcher_id' => $this->lastWatcherId, 'instances' => self::$instanceCount, ]; } } class LibeventWatcher extends Watcher { // Inherited from Watcher: // public $id; // public $type; // public $isEnabled; public $eventResource; public $callback; public $wrapper; } class LibeventSignalWatcher extends LibeventWatcher { public $signo; } class LibeventIoWatcher extends LibeventWatcher { public $stream; } class LibeventTimerWatcher extends LibeventWatcher { public $msDelay = -1; }