lapin-async
this library is meant for use in an event loop. The library exposes, through the
Connection struct,
a state machine you can drive through IO you manage.
Typically, your code would own the socket and buffers, and regularly pass the
input and output buffers to the state machine so it receives messages and
serializes new ones to send. You can then query the current state and see
if it received new messages for the consumers.
Example
use env_logger;
use lapin_async as lapin;
use log::info;
use crate::lapin::{
BasicProperties, Channel, Connection, ConnectionProperties, ConsumerSubscriber,
message::Delivery,
options::*,
types::FieldTable,
};
#[derive(Clone,Debug)]
struct Subscriber {
channel: Channel,
}
impl ConsumerSubscriber for Subscriber {
fn new_delivery(&self, delivery: Delivery) {
self.channel.basic_ack(delivery.delivery_tag, BasicAckOptions::default()).into_result().expect("basic_ack");
}
fn drop_prefetched_messages(&self) {}
fn cancel(&self) {}
}
fn main() {
env_logger::init();
let addr = std::env::var("AMQP_ADDR").unwrap_or_else(|_| "amqp://127.0.0.1:5672/%2f".into());
let conn = Connection::connect(&addr, ConnectionProperties::default()).wait().expect("connection error");
info!("CONNECTED");
let channel_a = conn.create_channel().wait().expect("create_channel");
let channel_b = conn.create_channel().wait().expect("create_channel");
channel_a.queue_declare("hello", QueueDeclareOptions::default(), FieldTable::default()).wait().expect("queue_declare");
channel_b.queue_declare("hello", QueueDeclareOptions::default(), FieldTable::default()).wait().expect("queue_declare");
info!("will consume");
channel_b.basic_consume("hello", "my_consumer", BasicConsumeOptions::default(), FieldTable::default(), Box::new(Subscriber { channel: channel_b.clone() })).wait().expect("basic_consume");
let payload = b"Hello world!";
loop {
channel_a.basic_publish("", "hello", BasicPublishOptions::default(), payload.to_vec(), BasicProperties::default()).wait().expect("basic_publish");
}
}