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# Fang
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Background task processing library for Rust. It uses Postgres DB as a task queue.
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## Features
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- Asynk feature uses `tokio` . Workers are started in tokio tasks.
- Blocking feature uses `std::thread` . Workers are started in a separated threads.
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## Installation
1. Add this to your Cargo.toml
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#### Blocking feature
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```toml
[dependencies]
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fang = { version = "0.9" , features = ["blocking"], default-features = false }
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```
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#### Asynk feature
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```toml
[dependencies]
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fang = { version = "0.9" , features = ["asynk"], default-features = false }
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```
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#### Both features
```toml
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fang = { version = "0.9" }
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```
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*Supports rustc 1.62+*
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2. Create `fang_tasks` table in the Postgres database. The migration can be found in [the migrations directory ](https://github.com/ayrat555/fang/blob/master/migrations/2022-08-20-151615_create_fang_tasks/up.sql ).
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## Usage
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### Defining a task
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#### Blocking feature
Every task should implement `fang::Runnable` trait which is used by `fang` to execute it.
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```rust
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use fang::Error;
use fang::Runnable;
use fang::typetag;
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use fang::PgConnection;
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use fang::serde::{Deserialize, Serialize};
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#[derive(Serialize, Deserialize)]
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#[serde(crate = "fang::serde")]
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struct MyTask {
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pub number: u16,
}
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#[typetag::serde]
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impl Runnable for MyTask {
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fn run(& self, _queue: & dyn Queueable) -> Result< (), Error> {
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println!("the number is {}", self.number);
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Ok(())
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}
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// If you want to make the tasks of this type uniq.
fn uniq(& self) -> bool {
true
}
// This will be useful if you want to filter tasks.
// default value: "common".to_string()
fn task_type(& self) -> String {
"my_task".to_string()
}
// This will be useful if you would like to schedule tasks.
// default value: None (task is not schedule just executes when it is fetched)
fn cron(& self) -> Option< Scheduled > {
// sec min hour day of month month day of week year
// be careful works only with UTC hour.
// https://www.timeanddate.com/worldclock/timezone/utc
let expression = "0/20 * * * Aug-Sep * 2022/1";
Some(Scheduled::CronPattern(expression.to_string()))
}
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}
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```
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As you can see from the example above, the trait implementation has `#[typetag::serde]` attribute which is used to deserialize the task.
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The second parameter of the `run` function is a is an struct that implements fang::Queueable (fang::Queue for example), You can re-use it to manipulate the task queue, for example, to add a new job during the current job's execution. If you don't need it, just ignore it.
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#### Asynk feature
Every task should implement `fang::AsyncRunnable` trait which is used by `fang` to execute it.
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Also be careful to not to call with the same name two impl of AsyncRunnable, because will cause a fail with typetag.
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```rust
use fang::AsyncRunnable;
use fang::asynk::async_queue::AsyncQueueable;
use fang::serde::{Deserialize, Serialize};
use fang::async_trait;
#[derive(Serialize, Deserialize)]
#[serde(crate = "fang::serde")]
struct AsyncTask {
pub number: u16,
}
#[typetag::serde]
#[async_trait]
impl AsyncRunnable for AsyncTask {
async fn run(& self, _queueable: & mut dyn AsyncQueueable) -> Result< (), Error> {
Ok(())
}
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// this func is optional to impl
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// Default task-type it is common
fn task_type(& self) -> String {
"my-task-type".to_string()
}
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// If you want to make the tasks of this type uniq.
fn uniq(& self) -> bool {
true
}
// This will be useful if you would like to schedule tasks.
// default value: None (task is not schedule just executes when it is fetched)
fn cron(& self) -> Option< Scheduled > {
// sec min hour day of month month day of week year
// be careful works only with UTC hour.
// https://www.timeanddate.com/worldclock/timezone/utc
let expression = "0/20 * * * Aug-Sep * 2022/1";
Some(Scheduled::CronPattern(expression.to_string()))
}
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}
```
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In both modules, tasks can be schedule to be execute once. Use ```Scheduled::ScheduleOnce``` enum variant to schedule in specific datetime.
Datetimes and cron pattern are interpreted in UTC timezone. So you should introduce an offset to schedule in the desire hour.
Example:
If your hour is UTC + 2 and you would like to schedule at 11:00 all days, your expression will be this one.
```rust
let expression = "0 0 9 * * * * ";
```
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### Enqueuing a task
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#### Blocking feature
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To enqueue a task use `Queue::enqueue_task`
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For Postgres Backend.
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```rust
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use fang::Queue;
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// create a r2d2 pool
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// create a fang queue
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let queue = Queue::builder().connection_pool(pool).build();
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let task_inserted = queue.insert_task(&MyTask::new(1)).unwrap();
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```
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`Queue::insert_task` method will insert a task with uniqueness or not it depends on `uniq` method defined in a task.
If uniq is set to true and the task is already in storage this will return the task in the storage.
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#### Asynk feature
To enqueue a task use `AsyncQueueable::insert_task` ,
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depending of the backend that you prefer you will need to do it with a specific queue.
For Postgres backend.
```rust
use fang::asynk::async_queue::AsyncQueue;
use fang::NoTls;
use fang::AsyncRunnable;
// Create a AsyncQueue
let max_pool_size: u32 = 2;
let mut queue = AsyncQueue::builder()
// Postgres database url
.uri("postgres://postgres:postgres@localhost/fang")
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// Max number of connections that are allowed
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.max_pool_size(max_pool_size)
.build();
// Always connect first in order to perform any operation
queue.connect(NoTls).await.unwrap();
```
For easy example we are using NoTls type, if for some reason you would like to encrypt postgres traffic.
You can implement a Tls type.
It is well documented for [openssl ](https://docs.rs/postgres-openssl/latest/postgres_openssl/ ) and [native-tls ](https://docs.rs/postgres-native-tls/latest/postgres_native_tls/ )
```rust
// AsyncTask from first example
let task = AsyncTask { 8 };
let task_returned = queue
.insert_task(& task as & dyn AsyncRunnable)
.await
.unwrap();
```
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### Starting workers
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#### Blocking feature
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Every worker runs in a separate thread. In case of panic, they are always restarted.
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Use `WorkerPool` to start workers. Use `WorkerPool::builder` to create your worker pool and run tasks.
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```rust
use fang::WorkerPool;
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use fang::Queue;
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// create a Queue
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let mut worker_pool = WorkerPool::< Queue > ::builder()
.queue(queue)
.number_of_workers(3_u32)
// if you want to run tasks of the specific kind
.task_type("my_task_type")
.build();
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worker_pool.start();
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```
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#### Asynk feature
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Every worker runs in a separate tokio task. In case of panic, they are always restarted.
Use `AsyncWorkerPool` to start workers.
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```rust
use fang::asynk::async_worker_pool::AsyncWorkerPool;
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// Need to create a queue
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// Also insert some tasks
let mut pool: AsyncWorkerPool< AsyncQueue < NoTls > > = AsyncWorkerPool::builder()
.number_of_workers(max_pool_size)
.queue(queue.clone())
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// if you want to run tasks of the specific kind
.task_type("my_task_type")
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.build();
pool.start().await;
```
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Check out:
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- [Simple Worker Example ](https://github.com/ayrat555/fang/tree/master/fang_examples/blocking/simple_worker ) - simple worker example
- [Simple Cron Worker Example ](https://github.com/ayrat555/fang/tree/master/fang_examples/blocking/simple_cron_worker ) - simple worker example
- [Simple Async Worker Example ](https://github.com/ayrat555/fang/tree/master/fang_examples/asynk/simple_async_worker ) - simple async worker example
- [Simple Cron Async Worker Example ](https://github.com/ayrat555/fang/tree/master/fang_examples/asynk/simple_cron_async_worker ) - simple async worker example
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- [El Monitorro ](https://github.com/ayrat555/el_monitorro ) - telegram feed reader. It uses Fang blocking module to synchronize feeds and deliver updates to users.
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- [weather_bot_rust ](https://github.com/pxp9/weather_bot_rust ) - A bot that provides weather info. It uses Fang asynk module to process updates from Telegram users and schedule weather info.
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### Configuration
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#### Blocking feature
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Just use `TypeBuilder` done for `WorkerPool` .
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#### Asynk feature
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Just use `TypeBuilder` done for `AsyncWorkerPool` .
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### Configuring the type of workers
### Configuring retention mode
By default, all successfully finished tasks are removed from the DB, failed tasks aren't.
There are three retention modes you can use:
```rust
pub enum RetentionMode {
KeepAll, \\ doesn't remove tasks
RemoveAll, \\ removes all tasks
RemoveFinished, \\ default value
}
```
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Set retention mode with worker pools `TypeBuilder` in both modules.
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### Configuring sleep values
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#### Blocking feature
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You can use use `SleepParams` to confugure sleep values:
```rust
pub struct SleepParams {
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pub sleep_period: Duration, \\ default value is 5 seconds
pub max_sleep_period: Duration, \\ default value is 15 seconds
pub min_sleep_period: Duration, \\ default value is 5 seconds
pub sleep_step: Duration, \\ default value is 5 seconds
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}
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```
If there are no tasks in the DB, a worker sleeps for `sleep_period` and each time this value increases by `sleep_step` until it reaches `max_sleep_period` . `min_sleep_period` is the initial value for `sleep_period` . All values are in seconds.
Use `set_sleep_params` to set it:
```rust
let sleep_params = SleepParams {
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sleep_period: Duration::from_secs(2),
max_sleep_period: Duration::from_secs(6),
min_sleep_period: Duration::from_secs(2),
sleep_step: Duration::from_secs(1),
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};
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```
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Set sleep params with worker pools `TypeBuilder` in both modules.
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## Contributing
1. [Fork it! ](https://github.com/ayrat555/fang/fork )
2. Create your feature branch (`git checkout -b my-new-feature`)
3. Commit your changes (`git commit -am 'Add some feature'`)
4. Push to the branch (`git push origin my-new-feature`)
5. Create new Pull Request
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### Running tests locally
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- Install diesel_cli.
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```
cargo install diesel_cli
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```
- Install docker in your machine.
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- Run a Postgres docker container. (See in Makefile.)
```
make db
```
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- Run the migrations
```
make diesel
```
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- Run tests
```
make tests
```
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- Run dirty//long tests, DB must be recreated afterwards.
```
make ignored
```
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- Kill docker container
```
make stop
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```
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## Authors
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- Ayrat Badykov (@ayrat555)
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- Pepe Márquez (@pxp9)
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[s1]: https://img.shields.io/crates/v/fang.svg
[docs-badge]: https://img.shields.io/badge/docs-website-blue.svg
[ci]: https://crates.io/crates/fang
[docs]: https://docs.rs/fang/
[ga-test]: https://github.com/ayrat555/fang/actions/workflows/rust.yml/badge.svg
[ga-style]: https://github.com/ayrat555/fang/actions/workflows/style.yml/badge.svg
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[signal-hook]: https://crates.io/crates/signal-hook