Crate rumqttc_dev_patched
source ·Expand description
A pure rust MQTT client which strives to be robust, efficient and easy to use. This library is backed by an async (tokio) eventloop which handles all the robustness and and efficiency parts of MQTT but naturally fits into both sync and async worlds as we’ll see
Let’s jump into examples right away
§A simple synchronous publish and subscribe
use rumqttc::{MqttOptions, Client, QoS};
use std::time::Duration;
use std::thread;
let mut mqttoptions = MqttOptions::new("rumqtt-sync", "test.mosquitto.org", 1883);
mqttoptions.set_keep_alive(Duration::from_secs(5));
let (mut client, mut connection) = Client::new(mqttoptions, 10);
client.subscribe("hello/rumqtt", QoS::AtMostOnce).unwrap();
thread::spawn(move || for i in 0..10 {
client.publish("hello/rumqtt", QoS::AtLeastOnce, false, vec![i; i as usize]).unwrap();
thread::sleep(Duration::from_millis(100));
});
// Iterate to poll the eventloop for connection progress
for (i, notification) in connection.iter().enumerate() {
println!("Notification = {:?}", notification);
}
§A simple asynchronous publish and subscribe
use rumqttc::{MqttOptions, AsyncClient, QoS};
use tokio::{task, time};
use std::time::Duration;
use std::error::Error;
let mut mqttoptions = MqttOptions::new("rumqtt-async", "test.mosquitto.org", 1883);
mqttoptions.set_keep_alive(Duration::from_secs(5));
let (mut client, mut eventloop) = AsyncClient::new(mqttoptions, 10);
client.subscribe("hello/rumqtt", QoS::AtMostOnce).await.unwrap();
task::spawn(async move {
for i in 0..10 {
client.publish("hello/rumqtt", QoS::AtLeastOnce, false, vec![i; i as usize]).await.unwrap();
time::sleep(Duration::from_millis(100)).await;
}
});
loop {
let notification = eventloop.poll().await.unwrap();
println!("Received = {:?}", notification);
}
Quick overview of features
- Eventloop orchestrates outgoing/incoming packets concurrently and handles the state
- Pings the broker when necessary and detects client side half open connections as well
- Throttling of outgoing packets (todo)
- Queue size based flow control on outgoing packets
- Automatic reconnections by just continuing the
eventloop.poll()
/connection.iter()
loop - Natural backpressure to client APIs during bad network
In short, everything necessary to maintain a robust connection
Since the eventloop is externally polled (with iter()/poll()
in a loop)
out side the library and Eventloop
is accessible, users can
- Distribute incoming messages based on topics
- Stop it when required
- Access internal state for use cases like graceful shutdown or to modify options before reconnection
§Important notes
-
Looping on
connection.iter()
/eventloop.poll()
is necessary to run the event loop and make progress. It yields incoming and outgoing activity notifications which allows customization as you see fit. -
Blocking inside the
connection.iter()
/eventloop.poll()
loop will block connection progress.
§FAQ
Connecting to a broker using raw ip doesn’t work
You cannot create a TLS connection to a bare IP address with a self-signed
certificate. This is a limitation of rustls.
One workaround, which only works under *nix/BSD-like systems, is to add an
entry to wherever your DNS resolver looks (e.g. /etc/hosts
) for the bare IP
address and use that name in your code.
Re-exports§
pub use tokio_rustls;
pub use mqttbytes::v4::*;
pub use mqttbytes::*;
Modules§
- mqttbytes
Structs§
- An asynchronous client, communicates with MQTT
EventLoop
. - A synchronous client, communicates with MQTT
EventLoop
. - MQTT connection. Maintains all the necessary state
- Eventloop with all the state of a connection
- Iterator which polls the
EventLoop
for connection progress - Options to configure the behaviour of MQTT connection
- State of the mqtt connection.
- Provides a way to configure low level network connection configurations
- A token through which the user is notified of the publish/subscribe/unsubscribe packet being acked by the broker.
- Error type returned by
Connection::recv
Enums§
- Client Error
- Critical errors during eventloop polling
- Events which can be yielded by the event loop
- Current outgoing activity on the eventloop
- Error type returned by
Connection::recv_timeout
- Requests by the client to mqtt event loop. Request are handled one by one.
- Errors during state handling
- TLS configuration method
- Transport methods. Defaults to TCP.
- Error type returned by
Connection::try_recv