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README.md
php-mqtt/client
php-mqtt/client
was created by, and is maintained
by Marvin Mall.
It allows you to connect to an MQTT broker where you can publish messages and subscribe to topics.
The current implementation supports all QoS levels (with limitations).
Installation
The package is available on packagist.org and can be installed using composer
:
composer require php-mqtt/client
The package requires PHP version 7.4 or higher.
Usage
In the following, only a few very basic examples are given. For more elaborate examples, have a look at the
php-mqtt/client-examples
repository.
Publish
A very basic publish example using QoS 0 requires only three steps: connect, publish and disconnect
$server = 'some-broker.example.com';
$port = 1883;
$clientId = 'test-publisher';
$mqtt = new \PhpMqtt\Client\MqttClient($server, $port, $clientId);
$mqtt->connect();
$mqtt->publish('php-mqtt/client/test', 'Hello World!', 0);
$mqtt->disconnect();
If you do not want to pass a $clientId
, a random one will be generated for you. This will basically force a clean session implicitly.
Be also aware that most of the methods can throw exceptions. The above example does not add any exception handling for brevity.
Subscribe
Subscribing is a little more complex than publishing as it requires to run an event loop which reads, parses and handles messages from the broker:
$server = 'some-broker.example.com';
$port = 1883;
$clientId = 'test-subscriber';
$mqtt = new \PhpMqtt\Client\MqttClient($server, $port, $clientId);
$mqtt->connect();
$mqtt->subscribe('php-mqtt/client/test', function ($topic, $message, $retained, $matchedWildcards) {
echo sprintf("Received message on topic [%s]: %s\n", $topic, $message);
}, 0);
$mqtt->loop(true);
$mqtt->disconnect();
While the loop is active, you can use $mqtt->interrupt()
to send an interrupt signal to the loop.
This will terminate the loop before it starts its next iteration. You can call this method using pcntl_signal(SIGINT, $handler)
for example:
pcntl_async_signals(true);
$clientId = 'test-subscriber';
$mqtt = new \PhpMqtt\Client\MqttClient($server, $port, $clientId);
pcntl_signal(SIGINT, function (int $signal, $info) use ($mqtt) {
$mqtt->interrupt();
});
$mqtt->connect();
$mqtt->subscribe('php-mqtt/client/test', function ($topic, $message, $retained, $matchedWildcards) {
echo sprintf("Received message on topic [%s]: %s\n", $topic, $message);
}, 0);
$mqtt->loop(true);
$mqtt->disconnect();
Client Settings
As shown in the examples above, the MqttClient
takes the server, port and client id as first, second and third parameter.
As fourth parameter, the protocol level can be passed. Currently supported is MQTT v3.1,
available as constant MqttClient::MQTT_3_1
.
A fifth parameter allows passing a repository (currently, only a MemoryRepository
is available by default).
Lastly, a logger can be passed as sixth parameter. If none is given, a null logger is used instead.
Example:
$mqtt = new \PhpMqtt\Client\MqttClient(
$server,
$port,
$clientId,
\PhpMqtt\Client\MqttClient::MQTT_3_1,
new \PhpMqtt\Client\Repositories\MemoryRepository(),
new Logger()
);
The Logger
must implement the Psr\Log\LoggerInterface
.
Connection Settings
The connect()
method of the MqttClient
takes two optional parameters:
- A
ConnectionSettings
instance - A
boolean
flag indicating whether a clean session should be requested (a random client id does this implicitly)
Example:
$mqtt = new \PhpMqtt\Client\MqttClient($server, $port, $clientId);
$connectionSettings = (new \PhpMqtt\Client\ConnectionSettings)
->setConnectTimeout(3)
->setUseTls(true)
->setTlsSelfSignedAllowed(true);
$mqtt->connect($connectionSettings, true);
The ConnectionSettings
class provides a few settings through a fluent interface. The type itself is immutable,
and a new ConnectionSettings
instance will be created for each added option.
This also prevents changes to the connection settings after a connection has been established.
The following is a complete list of options with their respective default:
$connectionSettings = (new \PhpMqtt\Client\ConnectionSettings)
// The username used for authentication when connecting to the broker.
->setUsername(null)
// The password used for authentication when connecting to the broker.
->setPassword(null)
// Whether to use a blocking socket when publishing messages or not.
// Normally, this setting can be ignored. When publishing large messages with multiple kilobytes in size,
// a blocking socket may be required if the receipt buffer of the broker is not large enough.
//
// Note: This setting has no effect on subscriptions, only on the publishing of messages.
->useBlockingSocket(false)
// The connect timeout defines the maximum amount of seconds the client will try to establish
// a socket connection with the broker. The value cannot be less than 1 second.
->setConnectTimeout(60)
// The socket timeout is the maximum amount of idle time in seconds for the socket connection.
// If no data is read or sent for the given amount of seconds, the socket will be closed.
// The value cannot be less than 1 second.
->setSocketTimeout(5)
// The resend timeout is the number of seconds the client will wait before sending a duplicate
// of pending messages without acknowledgement. The value cannot be less than 1 second.
->setResendTimeout(10)
// This flag determines whether the client will try to reconnect automatically
// if it notices a disconnect while sending data.
// The setting cannot be used together with the clean session flag.
->setReconnectAutomatically(false)
// Defines the maximum number of reconnect attempts until the client gives up.
// This setting is only relevant if setReconnectAutomatically() is set to true.
->setMaxReconnectAttempts(3)
// Defines the delay between reconnect attempts in milliseconds.
// This setting is only relevant if setReconnectAutomatically() is set to true.
->setDelayBetweenReconnectAttempts(0)
// The keep alive interval is the number of seconds the client will wait without sending a message
// until it sends a keep alive signal (ping) to the broker. The value cannot be less than 1 second
// and may not be higher than 65535 seconds. A reasonable value is 10 seconds (the default).
->setKeepAliveInterval(10)
// If the broker should publish a last will message in the name of the client when the client
// disconnects abruptly, this setting defines the topic on which the message will be published.
//
// A last will message will only be published if both this setting as well as the last will
// message are configured.
->setLastWillTopic(null)
// If the broker should publish a last will message in the name of the client when the client
// disconnects abruptly, this setting defines the message which will be published.
//
// A last will message will only be published if both this setting as well as the last will
// topic are configured.
->setLastWillMessage(null)
// The quality of service level the last will message of the client will be published with,
// if it gets triggered.
->setLastWillQualityOfService(0)
// This flag determines if the last will message of the client will be retained, if it gets
// triggered. Using this setting can be handy to signal that a client is offline by publishing
// a retained offline state in the last will and an online state as first message on connect.
->setRetainLastWill(false)
// This flag determines if TLS should be used for the connection. The port which is used to
// connect to the broker must support TLS connections.
->setUseTls(false)
// This flag determines if the peer certificate is verified, if TLS is used.
->setTlsVerifyPeer(true)
// This flag determines if the peer name is verified, if TLS is used.
->setTlsVerifyPeerName(true)
// This flag determines if self signed certificates of the peer should be accepted.
// Setting this to TRUE implies a security risk and should be avoided for production
// scenarios and public services.
->setTlsSelfSignedAllowed(false)
// The path to a Certificate Authority certificate which is used to verify the peer
// certificate, if TLS is used.
->setTlsCertificateAuthorityFile(null)
// The path to a directory containing Certificate Authority certificates which are
// used to verify the peer certificate, if TLS is used.
->setTlsCertificateAuthorityPath(null)
// The path to a client certificate file used for authentication, if TLS is used.
//
// The client certificate must be PEM encoded. It may optionally contain the
// certificate chain of issuers.
->setTlsClientCertificateFile(null)
// The path to a client certificate key file used for authentication, if TLS is used.
//
// This option requires ConnectionSettings::setTlsClientCertificateFile() to be used as well.
->setTlsClientCertificateKeyFile(null)
// The passphrase used to decrypt the private key of the client certificate,
// which in return is used for authentication, if TLS is used.
//
// This option requires ConnectionSettings::setTlsClientCertificateFile() and
// ConnectionSettings::setTlsClientCertificateKeyFile() to be used as well.
->setTlsClientCertificateKeyPassphrase(null);
Features
- Supported MQTT Versions
- v3 (just don't use v3.1 features like username & password)
- v3.1
- v3.1.1
- v5.0
- Transport
- TCP (unsecured)
- TLS (secured, verifies the peer using a certificate authority file)
- Connect
- Last Will
- Message Retention
- Authentication (username & password)
- TLS encrypted connections
- Clean Session (can be set and sent, but the client has no persistence for QoS 2 messages)
- Publish
- QoS Level 0
- QoS Level 1 (limitation: no persisted state across sessions)
- QoS Level 2 (limitation: no persisted state across sessions)
- Subscribe
- QoS Level 0
- QoS Level 1
- QoS Level 2 (limitation: no persisted state across sessions)
- Supported Message Length: unlimited (no limits enforced, although the MQTT protocol supports only up to 256MB which one shouldn't use even remotely anyway)
- Logging possible (
Psr\Log\LoggerInterface
can be passed to the client) - Persistence Drivers
- In-Memory Driver
- Redis Driver
Limitations
- Message flows with a QoS level higher than 0 are not persisted as the default implementation uses an in-memory repository for data. To avoid issues with broken message flows, use the clean session flag to indicate that you don't care about old data. It will not only instruct the broker to consider the connection new (without previous state), but will also reset the registered repository.
Developing & Testing
Certificates (TLS)
To run the tests (especially the TLS tests), you will need to create certificates. A command has been provided for this:
sh create-certificates.sh
This will create all required certificates in the .ci/tls/
directory. The same script is used for continuous integration as well.
MQTT Broker for Testing
Running the tests expects an MQTT broker to be running. The easiest way to run an MQTT broker is through Docker:
docker run --rm -it \
-p 1883:1883 \
-p 1884:1884 \
-p 8883:8883 \
-p 8884:8884 \
-v $(pwd)/.ci/tls:/mosquitto-certs \
-v $(pwd)/.ci/mosquitto.conf:/mosquitto/config/mosquitto.conf \
-v $(pwd)/.ci/mosquitto.passwd:/mosquitto/config/mosquitto.passwd \
eclipse-mosquitto:1.6
When run from the project directory, this will spawn a Mosquitto MQTT broker configured with the generated TLS certificates and a custom configuration.
In case you intend to run a different broker or using a different method, or use a public broker instead,
you will need to adjust the environment variables defined in phpunit.xml
accordingly.
License
php-mqtt/client
is open-sourced software licensed under the MIT license.