This library is a pure PHP implementation of the AMQP 0-9-1 protocol. It's been tested against RabbitMQ.
Requirements: PHP 5.3 due to the use of namespaces
.
Requirements: bcmath and mbstring extensions This library utilizes the bcmath and mbstring PHP extensions. The installation steps vary per PHP version and the underlying OS. The following example shows how to add to an existing PHP installation on Ubuntu 15.10:
sudo apt-get install php7.0-mbstring
sudo apt-get install php7.0-bcmath
The library was used for the PHP examples of RabbitMQ in Action and the official RabbitMQ tutorials.
Please note that this project is released with a Contributor Code of Conduct. By participating in this project you agree to abide by its terms.
Thanks to videlalvaro and postalservice14 for their hard work maintaining php-amqplib! The library wouldn't be where it is without them.
The package is now maintained by nubeiro and several Pivotal engineers working on RabbitMQ and related projects.
Starting with version 2.0 this library uses AMQP 0.9.1
by default and thus requires RabbitMQ 2.0 or later version.
Usually server upgrades do not require any application code changes since
the protocol changes very infrequently but please conduct your own testing before upgrading.
Since the library uses AMQP 0.9.1
we added support for the following RabbitMQ extensions:
- Exchange to Exchange Bindings
- Basic Nack
- Publisher Confirms
- Consumer Cancel Notify
Extensions that modify existing methods like alternate exchanges
are also supported.
- enqueue/amqp-lib is a amqp interop compatible wrapper.
Ensure you have composer installed, then run the following command:
$ composer require php-amqplib/php-amqplib
That will fetch the library and its dependencies inside your vendor folder. Then you can add the following to your .php files in order to use the library
require_once __DIR__.'/vendor/autoload.php';
Then you need to use
the relevant classes, for example:
use PhpAmqpLib\Connection\AMQPStreamConnection;
use PhpAmqpLib\Message\AMQPMessage;
With RabbitMQ running open two Terminals and on the first one execute the following commands to start the consumer:
$ cd php-amqplib/demo
$ php amqp_consumer.php
Then on the other Terminal do:
$ cd php-amqplib/demo
$ php amqp_publisher.php some text to publish
You should see the message arriving to the process on the other Terminal
Then to stop the consumer, send to it the quit
message:
$ php amqp_publisher.php quit
If you need to listen to the sockets used to connect to RabbitMQ then see the example in the non blocking consumer.
$ php amqp_consumer_non_blocking.php
Please see CHANGELOG for more information what has changed recently.
To not repeat ourselves, if you want to learn more about this library, please refer to the official RabbitMQ tutorials.
amqp_ha_consumer.php
: demos the use of mirrored queuesamqp_consumer_exclusive.php
andamqp_publisher_exclusive.php
: demos fanout exchanges using exclusive queues.amqp_consumer_fanout_{1,2}.php
andamqp_publisher_fanout.php
: demos fanout exchanges with named queues.basic_get.php
: demos obtaining messages from the queues by using the basic get AMQP call.
If you have a cluster of multiple nodes to which your application can connect,
you can start a connection with an array of hosts. To do that you should use
the create_connection
static method.
For example:
$connection = AMQPStreamConnection::create_connection([
['host' => HOST1, 'port' => PORT, 'user' => USER, 'password' => PASS, 'vhost' => VHOST],
['host' => HOST2, 'port' => PORT, 'user' => USER, 'password' => PASS, 'vhost' => VHOST]
],
$options);
This code will try to connect to HOST1
first, and connect to HOST2
if the
first connection fails. The method returns a connection object for the first
successful connection. Should all connections fail it will throw the exception
from the last connection attempt.
See demo/amqp_connect_multiple_hosts.php
for more examples.
Let's say you have a process that generates a bunch of messages that are going to be published to the same exchange
using the same routing_key
and options like mandatory
.
Then you could make use of the batch_basic_publish
library feature. You can batch messages like this:
$msg = new AMQPMessage($msg_body);
$ch->batch_basic_publish($msg, $exchange);
$msg2 = new AMQPMessage($msg_body);
$ch->batch_basic_publish($msg2, $exchange);
and then send the batch like this:
$ch->publish_batch();
Let's say our program needs to read from a file and then publish one message per line. Depending on the message size, you will have to decide when it's better to send the batch. You could send it every 50 messages, or every hundred. That's up to you.
Another way to speed up your message publishing is by reusing the AMQPMessage
message instances. You can create your new message like this:
$properties = array('content_type' => 'text/plain', 'delivery_mode' => AMQPMessage::DELIVERY_MODE_PERSISTENT);
$msg = new AMQPMessage($body, $properties);
$ch->basic_publish($msg, $exchange);
Now let's say that while you want to change the message body for future messages, you will keep the same properties, that is, your messages will still be text/plain
and the delivery_mode
will still be AMQPMessage::DELIVERY_MODE_PERSISTENT
. If you create a new AMQPMessage
instance for every published message, then those properties would have to be re-encoded in the AMQP binary format. You could avoid all that by just reusing the AMQPMessage
and then resetting the message body like this:
$msg->setBody($body2);
$ch->basic_publish($msg, $exchange);
AMQP imposes no limit on the size of messages; if a very large message is received by a consumer, PHP's memory limit may be reached
within the library before the callback passed to basic_consume
is called.
To avoid this, you can call the method AMQPChannel::setBodySizeLimit(int $bytes)
on your Channel instance. Body sizes exceeding this limit will be truncated,
and delivered to your callback with a AMQPMessage::$is_truncated
flag set to true
. The property AMQPMessage::$body_size
will reflect the true body size of
a received message, which will be higher than strlen(AMQPMessage::getBody())
if the message has been truncated.
Note that all data above the limit is read from the AMQP Channel and immediately discarded, so there is no way to retrieve it within your
callback. If you have another consumer which can handle messages with larger payloads, you can use basic_reject
or basic_nack
to tell
the server (which still has a complete copy) to forward it to a Dead Letter Exchange.
By default, no truncation will occur. To disable truncation on a Channel that has had it enabled, pass 0
(or null
) to AMQPChannel::setBodySizeLimit()
.
Some RabbitMQ clients using automated connection recovery mechanisms to reconnect and recover channels and consumers in case of network errors.
Since this client is using a single-thread, you can set up connection recovery using exception handling mechanism.
Exceptions which might be thrown in case of connection errors:
PhpAmqpLib\Exception\AMQPIOException
\RuntimeException
\ErrorException
Some other exceptions might be thrown, but connection can still be there. It's always a good idea to clean up an old connection when handling an exception before reconnecting.
For example, if you want to set up a recovering connection:
$connection = null;
$channel = null;
while(true){
try {
$connection = new AMQPStreamConnection(HOST, PORT, USER, PASS, VHOST);
// Your application code goes here.
do_something_with_connection($connection);
} catch(AMQPIOException $e) {
cleanup_connection($connection);
usleep(WAIT_BEFORE_RECONNECT_uS);
} catch(\RuntimeException $e) {
cleanup_connection($connection);
usleep(WAIT_BEFORE_RECONNECT_uS);
} catch(\ErrorException $e) {
cleanup_connection($connection);
usleep(WAIT_BEFORE_RECONNECT_uS);
}
}
A full example is in demo/connection_recovery_consume.php
.
This code will reconnect and retry the application code every time the exception occurs. Some exceptions can still be thrown and should not be handled as a part of reconnection process, because they might be application errors.
This approach makes sense mostly for consumer applications, producers will require some additional application code to avoid publishing the same message multiple times.
This was a simplest example, in a real-life application you might want to control retr count and maybe gracefully degrade wait time to reconnection.
You can find a more excessive example in #444
If you have installed PCNTL extension dispatching of signal will be handled when consumer is not processing message.
$pcntlHandler = function ($signal) {
switch ($signal) {
case \SIGTERM:
case \SIGUSR1:
case \SIGINT:
// some stuff before stop consumer e.g. delete lock etc
pcntl_signal($signal, SIG_DFL); // restore handler
posix_kill(posix_getpid(), $signal); // kill self with signal, see https://www.cons.org/cracauer/sigint.html
case \SIGHUP:
// some stuff to restart consumer
break;
default:
// do nothing
}
};
pcntl_signal(\SIGTERM, $pcntlHandler);
pcntl_signal(\SIGINT, $pcntlHandler);
pcntl_signal(\SIGUSR1, $pcntlHandler);
pcntl_signal(\SIGHUP, $pcntlHandler);
To disable this feature just define constant AMQP_WITHOUT_SIGNALS
as true
<?php
define('AMQP_WITHOUT_SIGNALS', true);
... more code
If you want to know what's going on at a protocol level then add the following constant to your code:
<?php
define('AMQP_DEBUG', true);
... more code
?>
To run the publishing/consume benchmark type:
$ make benchmark
To successfully run the tests you need to first setup the test user
and test virtual host
.
You can do that by running the following commands after starting RabbitMQ:
$ rabbitmqctl add_vhost phpamqplib_testbed
$ rabbitmqctl add_user phpamqplib phpamqplib_password
$ rabbitmqctl set_permissions -p phpamqplib_testbed phpamqplib ".*" ".*" ".*"
Once your environment is set up you can run your tests like this:
$ make test
Please see CONTRIBUTING for details.
If you still want to use the old version of the protocol then you can do it by settings the following constant in your configuration code:
define('AMQP_PROTOCOL', '0.8');
The default value is '0.9.1'
.
If for some reason you don't want to use composer, then you need to have an autoloader in place fo the library classes. People have reported to use this autoloader with success.
Below is the original README file content. Credits goes to the original authors.
PHP library implementing Advanced Message Queuing Protocol (AMQP).
The library is port of python code of py-amqplib http://barryp.org/software/py-amqplib/
It have been tested with RabbitMQ server.
Project home page: http://code.google.com/p/php-amqplib/
For discussion, please join the group:
http://groups.google.com/group/php-amqplib-devel
For bug reports, please use bug tracking system at the project page.
Patches are very welcome!
Author: Vadim Zaliva lord@crocodile.org