#![allow(clippy::borrowed_box)]
#![allow(clippy::unnecessary_unwrap)]
use crate::queue::Queueable;
use crate::queue::Task;
use crate::runnable::Runnable;
use crate::runnable::COMMON_TYPE;
use crate::FangError;
use crate::FangTaskState;
use crate::Scheduled::*;
use crate::{RetentionMode, SleepParams};
use log::error;
use std::thread;
use typed_builder::TypedBuilder;
#[derive(TypedBuilder)]
pub struct Worker<BQueue>
where
BQueue: Queueable + Clone + Sync + Send + 'static,
{
#[builder(setter(into))]
pub queue: BQueue,
#[builder(default=COMMON_TYPE.to_string(), setter(into))]
pub task_type: String,
#[builder(default, setter(into))]
pub sleep_params: SleepParams,
#[builder(default, setter(into))]
pub retention_mode: RetentionMode,
}
impl<BQueue> Worker<BQueue>
where
BQueue: Queueable + Clone + Sync + Send + 'static,
{
pub fn run(&self, task: Task) {
let runnable: Box<dyn Runnable> = serde_json::from_value(task.metadata.clone()).unwrap();
let result = runnable.run(&self.queue);
match result {
Ok(_) => self.finalize_task(task, &result),
Err(ref error) => {
if task.retries < runnable.max_retries() {
let backoff_seconds = runnable.backoff(task.retries as u32);
self.queue
.schedule_retry(&task, backoff_seconds, &error.description)
.expect("Failed to retry");
} else {
self.finalize_task(task, &result);
}
}
}
}
pub(crate) fn run_tasks(&mut self) -> Result<(), FangError> {
loop {
match self.queue.fetch_and_touch_task(self.task_type.clone()) {
Ok(Some(task)) => {
let actual_task: Box<dyn Runnable> =
serde_json::from_value(task.metadata.clone()).unwrap();
if let Some(CronPattern(_)) = actual_task.cron() {
self.queue.schedule_task(&*actual_task)?;
}
self.maybe_reset_sleep_period();
self.run(task);
}
Ok(None) => {
self.sleep();
}
Err(error) => {
error!("Failed to fetch a task {:?}", error);
self.sleep();
}
};
}
}
#[cfg(test)]
pub fn run_tasks_until_none(&mut self) -> Result<(), FangError> {
loop {
match self.queue.fetch_and_touch_task(self.task_type.clone()) {
Ok(Some(task)) => {
let actual_task: Box<dyn Runnable> =
serde_json::from_value(task.metadata.clone()).unwrap();
if let Some(CronPattern(_)) = actual_task.cron() {
self.queue.schedule_task(&*actual_task)?;
}
self.maybe_reset_sleep_period();
self.run(task);
}
Ok(None) => {
return Ok(());
}
Err(error) => {
error!("Failed to fetch a task {:?}", error);
self.sleep();
}
};
}
}
pub fn maybe_reset_sleep_period(&mut self) {
self.sleep_params.maybe_reset_sleep_period();
}
fn sleep(&mut self) {
self.sleep_params.maybe_increase_sleep_period();
thread::sleep(self.sleep_params.sleep_period);
}
fn finalize_task(&self, task: Task, result: &Result<(), FangError>) {
match self.retention_mode {
RetentionMode::KeepAll => {
match result {
Ok(_) => self
.queue
.update_task_state(&task, FangTaskState::Finished)
.unwrap(),
Err(error) => self.queue.fail_task(&task, &error.description).unwrap(),
};
}
RetentionMode::RemoveAll => {
self.queue.remove_task(task.id).unwrap();
}
RetentionMode::RemoveFinished => match result {
Ok(_) => {
self.queue.remove_task(task.id).unwrap();
}
Err(error) => {
self.queue.fail_task(&task, &error.description).unwrap();
}
},
}
}
}
#[cfg(test)]
mod worker_tests {
use super::RetentionMode;
use super::Runnable;
use super::Worker;
use crate::queue::Queue;
use crate::queue::Queueable;
use crate::typetag;
use crate::FangError;
use crate::FangTaskState;
use chrono::Utc;
use serde::{Deserialize, Serialize};
#[derive(Serialize, Deserialize)]
struct WorkerTaskTest {
pub number: u16,
}
#[typetag::serde]
impl Runnable for WorkerTaskTest {
fn run(&self, _queue: &dyn Queueable) -> Result<(), FangError> {
println!("the number is {}", self.number);
Ok(())
}
fn task_type(&self) -> String {
"worker_task".to_string()
}
}
#[derive(Serialize, Deserialize)]
struct FailedTask {
pub number: u16,
}
#[typetag::serde]
impl Runnable for FailedTask {
fn run(&self, _queue: &dyn Queueable) -> Result<(), FangError> {
let message = format!("the number is {}", self.number);
Err(FangError {
description: message,
})
}
fn max_retries(&self) -> i32 {
0
}
fn task_type(&self) -> String {
"F_task".to_string()
}
}
#[derive(Serialize, Deserialize)]
struct RetryTask {
pub number: u16,
}
#[typetag::serde]
impl Runnable for RetryTask {
fn run(&self, _queue: &dyn Queueable) -> Result<(), FangError> {
let message = format!("Saving Pepe. Attempt {}", self.number);
Err(FangError {
description: message,
})
}
fn max_retries(&self) -> i32 {
2
}
fn task_type(&self) -> String {
"Retry_task".to_string()
}
}
#[derive(Serialize, Deserialize)]
struct TaskType1 {}
#[typetag::serde]
impl Runnable for TaskType1 {
fn run(&self, _queue: &dyn Queueable) -> Result<(), FangError> {
Ok(())
}
fn task_type(&self) -> String {
"type1".to_string()
}
}
#[derive(Serialize, Deserialize)]
struct TaskType2 {}
#[typetag::serde]
impl Runnable for TaskType2 {
fn run(&self, _queue: &dyn Queueable) -> Result<(), FangError> {
Ok(())
}
fn task_type(&self) -> String {
"type2".to_string()
}
}
#[test]
#[ignore]
fn executes_and_finishes_task() {
let task = WorkerTaskTest { number: 10 };
let pool = Queue::connection_pool(5);
let queue = Queue::builder().connection_pool(pool).build();
let worker = Worker::<Queue>::builder()
.queue(queue)
.retention_mode(RetentionMode::KeepAll)
.task_type(task.task_type())
.build();
let mut pooled_connection = worker.queue.connection_pool.get().unwrap();
let task = Queue::insert_query(&mut pooled_connection, &task, Utc::now()).unwrap();
assert_eq!(FangTaskState::New, task.state);
worker.run(task.clone());
let found_task = Queue::find_task_by_id_query(&mut pooled_connection, task.id).unwrap();
assert_eq!(FangTaskState::Finished, found_task.state);
Queue::remove_tasks_of_type_query(&mut pooled_connection, "worker_task").unwrap();
}
#[test]
#[ignore]
fn executes_task_only_of_specific_type() {
let task1 = TaskType1 {};
let task2 = TaskType2 {};
let pool = Queue::connection_pool(5);
let queue = Queue::builder().connection_pool(pool).build();
let mut worker = Worker::<Queue>::builder()
.queue(queue)
.task_type(task1.task_type())
.retention_mode(RetentionMode::KeepAll)
.build();
let mut pooled_connection = worker.queue.connection_pool.get().unwrap();
let task1 = Queue::insert_query(&mut pooled_connection, &task1, Utc::now()).unwrap();
let task2 = Queue::insert_query(&mut pooled_connection, &task2, Utc::now()).unwrap();
assert_eq!(FangTaskState::New, task1.state);
assert_eq!(FangTaskState::New, task2.state);
worker.run_tasks_until_none().unwrap();
std::thread::sleep(std::time::Duration::from_millis(1000));
let found_task1 = Queue::find_task_by_id_query(&mut pooled_connection, task1.id).unwrap();
assert_eq!(FangTaskState::Finished, found_task1.state);
let found_task2 = Queue::find_task_by_id_query(&mut pooled_connection, task2.id).unwrap();
assert_eq!(FangTaskState::New, found_task2.state);
Queue::remove_tasks_of_type_query(&mut pooled_connection, "type1").unwrap();
Queue::remove_tasks_of_type_query(&mut pooled_connection, "type2").unwrap();
}
#[test]
#[ignore]
fn saves_error_for_failed_task() {
let task = FailedTask { number: 10 };
let pool = Queue::connection_pool(5);
let queue = Queue::builder().connection_pool(pool).build();
let worker = Worker::<Queue>::builder()
.queue(queue)
.retention_mode(RetentionMode::KeepAll)
.task_type(task.task_type())
.build();
let mut pooled_connection = worker.queue.connection_pool.get().unwrap();
let task = Queue::insert_query(&mut pooled_connection, &task, Utc::now()).unwrap();
assert_eq!(FangTaskState::New, task.state);
worker.run(task.clone());
let found_task = Queue::find_task_by_id_query(&mut pooled_connection, task.id).unwrap();
assert_eq!(FangTaskState::Failed, found_task.state);
assert_eq!(
"the number is 10".to_string(),
found_task.error_message.unwrap()
);
Queue::remove_tasks_of_type_query(&mut pooled_connection, "F_task").unwrap();
}
#[test]
#[ignore]
fn retries_task() {
let task = RetryTask { number: 10 };
let pool = Queue::connection_pool(5);
let queue = Queue::builder().connection_pool(pool).build();
let mut worker = Worker::<Queue>::builder()
.queue(queue)
.retention_mode(RetentionMode::KeepAll)
.task_type(task.task_type())
.build();
let mut pooled_connection = worker.queue.connection_pool.get().unwrap();
let task = Queue::insert_query(&mut pooled_connection, &task, Utc::now()).unwrap();
assert_eq!(FangTaskState::New, task.state);
worker.run(task.clone());
std::thread::sleep(std::time::Duration::from_millis(1000));
let found_task = Queue::find_task_by_id_query(&mut pooled_connection, task.id).unwrap();
assert_eq!(FangTaskState::Retried, found_task.state);
assert_eq!(1, found_task.retries);
worker.run_tasks_until_none().unwrap();
std::thread::sleep(std::time::Duration::from_millis(14000));
worker.run_tasks_until_none().unwrap();
let found_task = Queue::find_task_by_id_query(&mut pooled_connection, task.id).unwrap();
assert_eq!(FangTaskState::Failed, found_task.state);
assert_eq!(2, found_task.retries);
assert_eq!(
"Saving Pepe. Attempt 10".to_string(),
found_task.error_message.unwrap()
);
Queue::remove_tasks_of_type_query(&mut pooled_connection, "Retry_task").unwrap();
}
}