AMPHP is a collection of event-driven libraries for PHP designed with fibers and concurrency in mind.
amphp/parallel
provides true parallel processing for PHP using multiple processes or threads, without blocking and no extensions required.
To be as flexible as possible, this library comes with a collection of non-blocking concurrency tools that can be used independently as needed, as well as an "opinionated" worker API that allows you to assign units of work to a pool of worker processes.
- PHP 8.1+
- PHP 8.2+ ZTS
ext-parallel
This package can be installed as a Composer dependency.
composer require amphp/parallel
The basic usage of this library is to submit blocking tasks to be executed by a worker pool in order to avoid blocking the main event loop.
<?php
require __DIR__ . '/../vendor/autoload.php';
use Amp\Future;
use Amp\Parallel\Worker;
use function Amp\async;
$urls = [
'https://secure.php.net',
'https://amphp.org',
'https://github.com',
];
$executions = [];
foreach ($urls as $url) {
// FetchTask is just an example, you'll have to implement
// the Task interface for your task.
$executions[$url] = Worker\submit(new FetchTask($url));
}
// Each submission returns an Execution instance to allow two-way
// communication with a task. Here we're only interested in the
// task result, so we use the Future from Execution::getFuture()
$responses = Future\await(array_map(
fn (Worker\Execution $e) => $e->getFuture(),
$executions,
));
foreach ($responses as $url => $response) {
\printf("Read %d bytes from %s\n", \strlen($response), $url);
}
FetchTask
is just used as an example for a blocking function here.
If you just want to fetch multiple HTTP resources concurrently, it's better to use amphp/http-client
, our non-blocking HTTP client.
Note The functions you call must be predefined or autoloadable by Composer, so they also exist in the worker process or thread.
Worker
provides a simple interface for executing PHP code in parallel in a separate PHP process or thread.
Classes implementing Task
are used to define the code to be run in parallel.
The Task
interface has a single run()
method that gets invoked in the worker to dispatch the work that needs to be done.
The run()
method can be written using blocking code since the code is executed in a separate process or thread.
Task instances are serialize
'd in the main process and unserialize
'd in the worker.
That means that all data that is passed between the main process and a worker needs to be serializable.
In the example below, a Task
is defined which calls a blocking function (file_get_contents()
is only an example of a blocking function, use http-client
for non-blocking HTTP requests).
Child processes or threads executing tasks may be reused to execute multiple tasks.
// FetchTask.php
// Tasks must be defined in a file which can be loaded by the composer autoloader.
use Amp\Cancellation;
use Amp\Parallel\Worker\Task;
use Amp\Sync\Channel;
class FetchTask implements Task
{
public function __construct(
private readonly string $url,
) {
}
public function run(Channel $channel, Cancellation $cancellation): string
{
return file_get_contents($this->url); // Example blocking function
}
}
// main.php
$worker = Amp\Parallel\Worker\createWorker();
$task = new FetchTask('https://amphp.org');
$execution = $worker->submit($task);
// $data will be the return value from FetchTask::run()
$data = $execution->await();
Tasks may wish to share data between tasks runs. A Cache
instance stored in a static property that is only initialized within Task::run()
is our recommended strategy to share data.
use Amp\Cache\LocalCache;
use Amp\Cancellation;
use Amp\Parallel\Worker\Task;
use Amp\Sync\Channel;
final class ExampleTask implements Task
{
private static ?LocalCache $cache = null;
public function run(Channel $channel, Cancellation $cancellation): mixed
{
$cache = self::$cache ??= new LocalCache();
$cachedValue = $cache->get('cache-key');
// Use and modify $cachedValue...
$cache->set('cache-key', $updatedValue);
return $updatedValue;
}
}
You may wish to provide a hook to initialize the cache with mock data for testing.
A worker may be executing multiple tasks, so consider using AtomicCache
instead of LocalCache
when creating or updating cache values if a task uses async I/O to generate a cache value. AtomicCache
has methods which provide mutual exclusion based on a cache key.
A Cancellation
provided to Worker::submit()
may be used to request cancellation of the task in the worker. When cancellation is requested in the parent, the Cancellation
provided to Task::run()
is cancelled. The task may choose to ignore this cancellation request or act accordingly and throw a CancelledException
from Task::run()
. If the cancellation request is ignored, the task may continue and return a value which will be returned to the parent as though cancellation had not been requested.
The easiest way to use workers is through a worker pool. Worker pools can be used to submit tasks in the same way as a worker, but rather than using a single worker process, the pool uses multiple workers to execute tasks. This allows multiple tasks to be executed simultaneously.
The WorkerPool
interface extends Worker
, adding methods to get information about the pool or pull a single Worker
instance out of the pool.
A pool uses multiple Worker
instances to execute Task
instances.
If a set of tasks should be run within a single worker, use the WorkerPool::getWorker()
method to pull a single worker from the pool.
The worker is automatically returned to the pool when the instance returned is destroyed.
A global worker pool is available and can be set using the function Amp\Parallel\Worker\workerPool(?WorkerPool $pool = null)
.
Passing an instance of WorkerPool
will set the global pool to the given instance.
Invoking the function without an instance will return the current global instance.
Contexts simplify writing and running PHP in parallel.
A script written to be run in parallel must return a callable that will be run in a child process or thread.
The callable receives a single argument – an instance of Channel
that can be used to send data between the parent and child processes or threads. Any serializable data can be sent across this channel.
The Context
object, which extends the Channel
interface, is the other end of the communication channel.
Contexts are created using a ContextFactory
. DefaultContextFactory
will use the best available method of creating context, creating a thread if ext-parallel
is installed or otherwise using a child process. ThreadContextFactory
(requires a ZTS build of PHP 8.2+ and ext-parallel
to create threads) and ProcessContextFactory
are also provided should you wish to create a specific context type.
In the example below, a child process or thread is used to call a blocking function (file_get_contents()
is only an example of a blocking function, use http-client
for non-blocking HTTP requests).
The result of that function is then sent back to the parent using the Channel
object.
The return value of the child callable is available using the Context::join()
method.
// child.php
use Amp\Sync\Channel;
return function (Channel $channel): mixed {
$url = $channel->receive();
$data = file_get_contents($url); // Example blocking function
$channel->send($data);
return 'Any serializable data';
};
// parent.php
use Amp\Parallel\Context\ProcessContext;
// Creates and starts a child process or thread.
$context = Amp\Parallel\Context\contextFactory()->start(__DIR__ . '/child.php');
$url = 'https://google.com';
$context->send($url);
$requestData = $context->receive();
printf("Received %d bytes from %s\n", \strlen($requestData), $url);
$returnValue = $context->join();
printf("Child processes exited with '%s'\n", $returnValue);
Child processes or threads are also great for CPU-intensive operations such as image manipulation or for running daemons that perform periodic tasks based on input from the parent.
An execution context can be created using the function Amp\Parallel\Context\startContext()
, which uses the global ContextFactory
. The global factory is an instance of DefaultContextFactory
by default, but this instance can be overridden using the function Amp\Parallel\Context\contextFactory()
.
// Using the global context factory from Amp\Parallel\Context\contextFactory()
$context = Amp\Parallel\Context\startContext(__DIR__ . '/child.php');
// Creating a specific context factory and using it to create a context.
$contextFactory = new Amp\Parallel\Context\ProcessContextFactory();
$context = $contextFactory->start(__DIR__ . '/child.php');
Context factories are used by worker pools to create the context which executes tasks. Providing a custom ContextFactory
to a worker pool allows custom bootstrapping or other behavior within pool workers.
An execution context can be created by a ContextFactory
. The worker pool uses context factories to create workers.
A global worker pool is available and can be set using the function Amp\Parallel\Worker\workerPool(?WorkerPool $pool = null)
.
Passing an instance of WorkerPool
will set the global pool to the given instance.
Invoking the function without an instance will return the current global instance.
A context is created with a single Channel
which may be used to bidirectionally send data between the parent and child. Channels are a high-level data exchange, allowing serializable data to be sent over a channel. The Channel
implementation handles serializing and unserializing data, message framing, and chunking over the underlying socket between the parent and child.
Note Channels should be used to send only data between the parent and child. Attempting to send resources such as database connections or file handles on a channel will not work. Such resources should be opened in each child process. One notable exception to this rule: server and client network sockets may be sent between parent and child using tools provided by
amphp/cluster
.
The example code below defines a class, AppMessage
, containing a message type enum and the associated message data which is dependent upon the enum case. All messages sent over the channel between the parent and child use an instance of AppMessage
to define message intent. Alternatively, the child could use a different class for replies, but that was not done here for the sake of brevity. Any messaging strategy may be employed which is best suited your application, the only requirement is that any structure sent over a channel must be serializable.
The example below sends a message to the child to process an image after receiving a path from STDIN, then waits for the reply from the child. When an empty path is provided, the parent sends null
to the child to break the child out of the message loop and waits for the child to exit before exiting itself.
// AppMessage.php
class AppMessage {
public function __construct(
public readonly AppMessageType $type,
public readonly mixed $data,
) {
}
}
// AppMessageType.php
enum AppMessageType {
case ProcessedImage;
case ProcessImageFromPath;
// Other enum cases for further message types...
}
// parent.php
use Amp\Parallel\Context\ProcessContextFactory;
$contextFactory = new ProcessContextFactory();
$context = $contextFactory->start(__DIR__ . '/child.php');
$stdin = Amp\ByteStream\getStdin();
while ($path = $stdin->read()) {
$message = new AppMessage(AppMessageType::ProcessImageFromPath, $path);
$context->send($message);
$reply = $context->receive(); // Wait for reply from child context with processed image data.
}
$context->send(null); // End loop in child process.
$context->join();
// child.php
use Amp\Sync\Channel;
return function (Channel $channel): void {
/** @var AppMessage|null $message */
while ($message = $channel->receive()) {
$reply = match ($message->type) {
AppMessageType::ProcessImageFromPath => new AppMessage(
AppMessageType::ProcessedImage,
ImageProcessor::process($message->data),
),
// Handle other message types...
}
$channel->send($reply);
}
};
Sometimes it is necessary to create another socket for specialized IPC between a parent and child context. One such example is sending sockets between a parent and child process using ClientSocketReceivePipe
and ClientSocketSendPipe
, which are found in amphp/cluster
. An instance of IpcHub
in the parent and the Amp\Parallel\Ipc\connect()
function in the child.
The example below creates a separate IPC socket between a parent and child, then uses amphp/cluster
to create instances of ClientSocketReceivePipe
and ClientSocketSendPipe
in the parent and child, respectively.
// parent.php
use Amp\Cluster\ClientSocketSendPipe;
use Amp\Parallel\Context\ProcessContextFactory;
use Amp\Parallel\Ipc\LocalIpcHub;
$ipcHub = new LocalIpcHub();
// Sharing the IpcHub instance with the context factory isn't required,
// but reduces the number of opened sockets.
$contextFactory = new ProcessContextFactory(ipcHub: $ipcHub);
$context = $contextFactory->start(__DIR__ . '/child.php');
$connectionKey = $ipcHub->generateKey();
$context->send(['uri' => $ipcHub->getUri(), 'key' => $connectionKey]);
// $socket will be a bidirectional socket to the child.
$socket = $ipcHub->accept($connectionKey);
$socketPipe = new ClientSocketSendPipe($socket);
// child.php
use Amp\Cluster\ClientSocketReceivePipe;
use Amp\Sync\Channel;
return function (Channel $channel): void {
['uri' => $uri, 'key' => $connectionKey] = $channel->receive();
// $socket will be a bidirectional socket to the parent.
$socket = Amp\Parallel\Ipc\connect($uri, $connectionKey);
$socketPipe = new ClientSocketReceivePipe($socket);
};
Step debugging may be used in child processes with PhpStorm and Xdebug by listening for debug connections in the IDE.
In PhpStorm settings, under PHP > Debug
, ensure the box "Can accept external connections" is checked. The specific ports used are not important, yours may differ.
For child processes to connect to the IDE and stop at breakpoints set in the child processes, turn on listening for debug connections.
Listening off:
Listening on:
No PHP ini settings need to be set manually. Settings set by PhpStorm when invoking the parent PHP process will be forwarded to child processes.
Run the parent script in debug mode from PhpStorm with breakpoints set in code executed in the child process. Execution should stop at any breakpoints set in the child.
Debugger running:
When stopping at a breakpoint in a child process, execution of the parent process and any other child processes will continue. PhpStorm will open a new debugger tab for each child process connecting to the debugger, so you may need to limit the amount of child processes created when debugging or the number of connections may become overwhelming! If you set breakpoints in the parent and child process, you may need to switch between debug tabs to resume both the parent and child.
amphp/parallel
follows the semver semantic versioning specification like all other amphp
packages.
If you discover any security related issues, please use the private security issue reporter instead of using the public issue tracker.
The MIT License (MIT). Please see LICENSE
for more information.