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Pheanstalk

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Pheanstalk is a pure PHP 7.1+ client for the beanstalkd workqueue. It has been actively developed, and used in production by many, since late 2008.

Created by Paul Annesley, Pheanstalk is rigorously unit tested and written using encapsulated, maintainable object oriented design. Community feedback, bug reports and patches has led to a stable 1.0 release in 2010, a 2.0 release in 2013, and a 3.0 release in 2014.

Pheanstalk 3.0 introduces PHP namespaces, PSR-1 and PSR-2 coding standards, and PSR-4 autoloader standard.

beanstalkd up to the latest version 1.10 is supported. All commands and responses specified in the protocol documentation for beanstalkd 1.3 are implemented.

Pheanstalk 4

In 2018 Sam Mousa took on the responsibility of maintaining Pheanstalk.

Pheanstalk 4.0 drops support for older PHP versions. It contains the following changes (among other things):

  • Strict PHP type hinting
  • Value objects for Job IDs
  • Functions without side effects
  • Dropped support for persistent connections
  • Add support for multiple socket implementations (streams extension, socket extension, fsockopen)

Dropping support persistent connections

Persistent connections are a feature where a TCP connection is kept alive between different requests to reduce overhead from TCP connection set up. When reusing TCP connections we must always guarantee that the application protocol, in this case beanstalks' protocol is in a proper state. This is hard, and in some cases impossible; at the very least this means we must do some tests which cause roundtrips. Consider for example a connection that has just sent the command PUT 0 4000. The beanstalk server is now going to read 4000 bytes, but if the PHP script crashes during this write the next request get assigned this TCP socket. Now to reset the connection to a known state it used to subscribe to the default tube: use default. Since the beanstalk server is expecting 4000 bytes, it will just write this command to the job and wait for more bytes..

To prevent these kinds of issues the simplest solution is to not use persistent connections.

Dropped connection handling

Depending on the socket implementation used we might not be able to enable TCP keepalive. If we do not have TCP keepalive there is no way for us to detect dropped connections, the underlying OS may wait up to 15 minutes to decide that a TCP connection where no packets are being sent is disconnected. When using a socket implementation that supports read timeouts, like SocketSocket which uses the socket extension we use read and write timeouts to detect broken connections; the issue with the beanstalk protocol is that it allows for no packets to be sent for extended periods of time. Solutions are to either catch these connection exceptions and reconnect or use reserveWithTimeout() with a timeout that is less than the read / write timeouts.

Example code for a job runner could look like this (this is real production code):

while(true) {
    $job = $beanstalk->reserveWithTimeout(50);
    $this->stdout('.', Console::FG_CYAN);
    if (isset($job)) {
        $this->ensureDatabase($db);
        try {
            /** @var HookTask $task */
            $task = $taskFactory->createFromJson($job->getData());

            $commandBus->handle($task);
            $this->stdout("Deleting job: {$job->getId()}\n", Console::FG_GREEN);
            $beanstalk->delete($job);
        } catch (\Throwable $t) {
            \Yii::error($t);
            $this->stderr("\n{$t->getMessage()}\n", Console::FG_RED);
            $this->stderr("{$t->getTraceAsString()}\n", Console::FG_RED);

            $this->stdout("Burying job: {$job->getId()}\n", Console::FG_YELLOW);
            $beanstalk->bury($job);
        }
    }
}

Here connection errors will cause the process to exit (and be restarted by a task manager).

Functions with side effects

In version 4 functions with side effects have been removed, functions like putInTube internally did several things:

  1. Switch to the tube
  2. Put the job in the new tube

In this example, the tube changes meaning that the connection is now in a different state. This is not intuitive and forces any user of the connection to always switch / check the current tube. Another issue with this approach is that it is harder to deal with errors. If an exception occurs it is unclear whether we did or did not switch tube.

Migration to v4

A migration should in most cases be relatively simple:

  • Change the constructor, either use the static constructor, use a DI container to construct the dependencies, or manually instantiate them.
  • Run your tests, or use a static analyzer to test for calls to functions that no longer exist.
  • Make sure that you handle connection exceptions (this is not new to V4, only in V4 you will get more of them due to the default usage of a socket implementation that has read / write timeouts).

Installation with Composer

Install pheanstalk as a dependency with composer:

composer require pda/pheanstalk

Usage Example

<?php

// Hopefully you're using Composer autoloading.

use Pheanstalk\Pheanstalk;
// Create using autodetection of socket implementation
$pheanstalk = Pheanstalk::create('127.0.0.1');

// ----------------------------------------
// producer (queues jobs)

$pheanstalk
  ->useTube('testtube')
  ->put("job payload goes here\n");

// ----------------------------------------
// worker (performs jobs)

$job = $pheanstalk
  ->watch('testtube')
  ->ignore('default')
  ->reserve();

echo $job->getData();

$pheanstalk->delete($job);

Running the tests

If you have docker-compose installed running tests is as simple as:

> composer test

If you don't then you manually need to set up a beanstalk server and run:

> vendor/bin/phpunit

Contributors

License

© Paul Annesley

Released under the The MIT License