Crates.io | actix-mqtt-client |
lib.rs | actix-mqtt-client |
version | 0.5.1 |
source | src |
created_at | 2019-07-30 15:41:48.756812 |
updated_at | 2024-04-13 00:31:04.730361 |
description | A MQTT client based on the actix framework |
homepage | |
repository | https://github.com/Syndim/actix-mqtt-client |
max_upload_size | |
id | 152984 |
size | 126,786 |
The actix-mqtt-client
crate is a mqtt v3.1.1 client based on the actix framework
First, create 2 actix actors, one for receiving publish messages, the other one for receiving error messages from the client, you can also create an optional actix actor for receiving the stop message:
pub struct ErrorActor;
impl actix::Actor for ErrorActor {
type Context = actix::Context<Self>;
}
impl actix::Handler<ErrorMessage> for ErrorActor {
type Result = ();
fn handle(&mut self, error: ErrorMessage, _: &mut Self::Context) -> Self::Result {
log::error!("{}", error.0);
}
}
pub struct MessageActor;
impl actix::Actor for MessageActor {
type Context = actix::Context<Self>;
}
impl actix::Handler<PublishMessage> for MessageActor {
type Result = ();
fn handle(
&mut self,
msg: PublishMessage,
_: &mut Self::Context,
) -> Self::Result {
log::info!(
"Got message: id:{}, topic: {}, payload: {:?}",
msg.id,
msg.topic_name,
msg.payload
);
}
}
Then, connect to the server(using tokio) and use the read and write part of the stream along with the actors to create a MqttClient:
use std::io::Error as IoError;
use std::net::SocketAddr;
use std::str::FromStr;
use std::time::Duration;
use actix::{Actor, Arbiter, System};
use env_logger;
use tokio::io::split;
use tokio::net::TcpStream;
use tokio::time::{sleep_until, Instant};
use actix_mqtt_client::client::{MqttClient, MqttOptions};
let sys = System::new();
let socket_addr = SocketAddr::from_str("127.0.0.1:1883").unwrap();
sys.block_on(async move {
let result = async move {
let stream = TcpStream::connect(socket_addr).await?;
let (r, w) = split(stream);
log::info!("TCP connected");
let mut client = MqttClient::new(
r,
w,
String::from("test"),
MqttOptions::default(),
MessageActor.start().recipient(),
ErrorActor.start().recipient(),
None,
);
client.connect().await?;
// Waiting for the client to be connected
while !client.is_connected().await? {
let delay_time = Instant::now() + Duration::new(1, 0);
sleep_until(delay_time).await;
}
log::info!("MQTT connected");
log::info!("Subscribe");
client
.subscribe(String::from("test"), mqtt::QualityOfService::Level2)
.await?;
log::info!("Publish");
client
.publish(
String::from("test"),
mqtt::QualityOfService::Level0,
Vec::from("test".as_bytes()),
)
.await?;
log::info!("Wait for 10s");
let delay_time = Instant::now() + Duration::new(10, 0);
sleep_until(delay_time).await;
client
.publish(
String::from("test"),
mqtt::QualityOfService::Level1,
Vec::from("test2".as_bytes()),
)
.await?;
log::info!("Wait for 10s");
let delay_time = Instant::now() + Duration::new(10, 0);
sleep_until(delay_time).await;
client
.publish(
String::from("test"),
mqtt::QualityOfService::Level2,
Vec::from("test3".as_bytes()),
)
.await?;
log::info!("Wait for 10s");
let delay_time = Instant::now() + Duration::new(10, 0);
sleep_until(delay_time).await;
log::info!("Disconnect");
client.disconnect(false).await?;
log::info!("Check if disconnect is successful");
Ok(assert_eq!(true, client.is_disconnected())) as Result<(), IoError>
}
.await;
result.unwrap()
});
sys.run().unwrap();