actix-taskqueue

Crates.ioactix-taskqueue
lib.rsactix-taskqueue
version0.1.0
sourcesrc
created_at2020-08-17 23:15:14.531401
updated_at2020-08-17 23:15:14.531401
descriptionA generic task queue service for Actix
homepage
repositoryhttps://github.com/huytd/actix-taskqueue
max_upload_size
id277714
size59,876
Huy (huytd)

documentation

README

Actix Task Queue

Actix Task Queue is a generic task queue service. You have many different task queue for many different pair of Task and Task Result in your application as possible.

A task queue for a pair of Task and Task Result will be a SystemService.

To use the queue, you first need to define a data structure for your Task and Task Result:

For example:

#[derive(Debug, Default, Clone, Copy)]
struct Task(i32);
struct TaskResult(i32);

Next, you need to implement the QueueConsumer trait for your pair of Task and Task Result:

#[async_trait]
impl QueueConsumer<Task, TaskResult> for TaskWorker<Task, TaskResult> {
    async fn execute(&self, task: Task) -> Result<TaskResult, WorkerExecuteError> {
      ...
    }

    fn get_queue(&self) -> Addr<TaskQueue<Task>> {
      ...
    }

    fn retry(&self, task: Task) -> Task {
      ...
    }

    fn drop(&self, task: Task) {
      ...
    }

    fn result(&self, result: TaskResult) {
      ...
    }
}

When you need to run the next available task in the queue, call the next() method of your task worker.

worker.next().await

This method will return a Result<TaskResult, WorkerExecuteError>.


The following example describe a task queue of i32 numbers, when executing, the worker will:

  • If a number is larger or equal to 5, add 5 to that number.
  • If a number is larger than 0 but smaller than 5, add 1 to that number and send it back to the queue to retry.
  • If a number is smaller than 0, drop that number from the queue.
#[derive(Debug, Default, Clone, Copy)]
struct PlusFive(i32);
struct PlusFiveResult(i32);

#[async_trait]
impl QueueConsumer<PlusFive, PlusFiveResult> for TaskWorker<PlusFive, PlusFiveResult> {
    async fn execute(&self, task: PlusFive) -> Result<PlusFiveResult, WorkerExecuteError> {
        let PlusFive(n) = task;
        if n >= 5 {
            return Ok(PlusFiveResult(n + 5));
        } else if n > 0 {
            return Err(WorkerExecuteError::Retryable);
        } else {
            return Err(WorkerExecuteError::NonRetryable);
        }
    }

    fn get_queue(&self) -> Addr<TaskQueue<PlusFive>> {
        TaskQueue::<PlusFive>::from_registry()
    }

    fn retry(&self, task: PlusFive) -> PlusFive {
        let PlusFive(n) = task;
        println!("RETRYING VALUE = {}", n);
        PlusFive(n + 1)
    }

    fn drop(&self, task: PlusFive) {
        let PlusFive(n) = task;
        println!("DROPPED TASK WITH VALUE = {}", n);
    }

    fn result(&self, result: PlusFiveResult) {
        let PlusFiveResult(n) = result;
        println!("RESULT = {}", n);
    }
}

#[actix_rt::main]
async fn main() {
    let queue = TaskQueue::<PlusFive>::from_registry();
    let worker = TaskWorker::<PlusFive, PlusFiveResult>::new();

    queue.do_send(Push::new(PlusFive(5)));
    queue.do_send(Push::new(PlusFive(8)));
    queue.do_send(Push::new(PlusFive(3)));
    queue.do_send(Push::new(PlusFive(11)));
    queue.do_send(Push::new(PlusFive(0)));
    queue.do_send(Push::new(PlusFive(20)));

    worker.next().await;
    worker.next().await;
    worker.next().await;
    worker.next().await;
    worker.next().await;
    worker.next().await;
    worker.next().await;
    worker.next().await;
    worker.next().await;
    worker.next().await;
}

Commit count: 5

cargo fmt