background-jobs/README.md

# Background Jobs

This crate provides tooling required to run some processes asynchronously from a usually
synchronous application. The standard example of this is Web Services, where certain things
need to be processed, but processing them while a user is waiting for their browser to respond
might not be the best experience.

### Usage
#### Add Background Jobs to your project
```toml
[dependencies]
background-jobs = "0.1"
failure = "0.1"
futures = "0.1"
tokio = "0.1"
```

#### To get started with Background Jobs, first you should define a job.
Jobs are a combination of the data required to perform an operation, and the logic of that
operation. They implment the `Job`, `serde::Serialize`, and `serde::DeserializeOwned`.

```rust
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct MyJob {
    some_usize: usize,
    other_usize: usize,
}

impl MyJob {
    pub fn new(some_usize: usize, other_usize: usize) -> Self {
        MyJob {
            some_usize,
            other_usize,
        }
    }
}

impl Job for MyJob {
    fn run(self) -> Box<dyn Future<Item = (), Error = Error> + Send> {
        info!("args: {:?}", self);

        Box::new(Ok(()).into_future())
    }
}
```

#### Next, define a Processor.
Processors are types that define default attributes for jobs, as well as containing some logic
used internally to perform the job. Processors must implement `Proccessor` and `Clone`.

```rust
#[derive(Clone, Debug)]
pub struct MyProcessor;

impl Processor for MyProcessor {
    // The kind of job this processor should execute
    type Job = MyJob;

    // The name of the processor. It is super important that each processor has a unique name,
    // because otherwise one processor will overwrite another processor when they're being
    // registered.
    fn name() -> &'static str {
        "MyProcessor"
    }

    // The queue that this processor belongs to
    //
    // Workers have the option to subscribe to specific queues, so this is important to
    // determine which worker will call the processor
    //
    // Jobs can optionally override the queue they're spawned on
    fn queue() -> &'static str {
        DEFAULT_QUEUE
    }

    // The number of times background-jobs should try to retry a job before giving up
    //
    // Jobs can optionally override this value
    fn max_retries() -> MaxRetries {
        MaxRetries::Count(1)
    }

    // The logic to determine how often to retry this job if it fails
    //
    // Jobs can optionally override this value
    fn backoff_strategy() -> Backoff {
        Backoff::Exponential(2)
    }
}
```

#### Running jobs
By default, this crate ships with the `background-jobs-server` feature enabled. This uses the
`background-jobs-server` crate to spin up a Server and Workers, and provides a mechanism for
spawning new jobs.

##### Starting the job server
```rust
use background_jobs::ServerConfig;
use failure::Error;
use server_jobs_example::queue_set;

fn main() -> Result<(), Error> {
    // Run our job server
    tokio::run(ServerConfig::init(
        "127.0.0.1",
        5555,
        1,
        queue_set(),
        "example-db",
    ));

    Ok(())
}
```
##### Starting the job worker
```rust
use background_jobs::WorkerConfig;
use failure::Error;
use server_jobs_example::{queue_map, MyProcessor};

fn main() -> Result<(), Error> {
    // Create the worker config
    let mut worker = WorkerConfig::new("localhost".to_owned(), 5555, queue_map());

    // Register our processor
    worker.register_processor(MyProcessor);

    // Spin up the workers
    tokio::run(worker.run());

    Ok(())
}
```
##### Queuing jobs
```rust
use background_jobs::SpawnerConfig;
use futures::{future::lazy, Future};
use server_jobs_example::{MyJob, MyProcessor};

fn main() {
    // Create 50 new jobs, each with two consecutive values of the fibonacci sequence
    let (_, _, jobs) = (1..50).fold((0, 1, Vec::new()), |(x, y, mut acc), _| {
        acc.push(MyJob::new(x, y));

        (y, x + y, acc)
    });

    // Create the spawner
    let spawner = SpawnerConfig::new("localhost", 5555);

    // Queue each job
    tokio::run(lazy(move || {
        for job in jobs {
            tokio::spawn(spawner.queue::<MyProcessor>(job).map_err(|_| ()));
        }

        Ok(())
    }));
}
```

#### Not using a ZeroMQ based client/server model
If you want to create your own jobs processor based on this idea, you can depend on the
`background-jobs-core` crate, which provides the LMDB storage, Processor and Job traits, as well as some
other useful types for implementing a jobs processor.

### Contributing
Feel free to open issues for anything you find an issue with. Please note that any contributed code will be licensed under the GPLv3.

### License

Copyright © 2018 Riley Trautman

Background Jobs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.

Background Jobs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. This file is part of Background Jobs.

You should have received a copy of the GNU General Public License along with Background Jobs. If not, see [http://www.gnu.org/licenses/](http://www.gnu.org/licenses/).
Add documentation, license info, Make API cleaner 2018-11-18 01:39:04 +00:00			`# Background Jobs`
Initial futures-based job processor 2018-06-29 00:01:34 +00:00
Add documentation, license info, Make API cleaner 2018-11-18 01:39:04 +00:00			`This crate provides tooling required to run some processes asynchronously from a usually`
			`synchronous application. The standard example of this is Web Services, where certain things`
			`need to be processed, but processing them while a user is waiting for their browser to respond`
			`might not be the best experience.`

			`### Usage`
			`#### Add Background Jobs to your project`
			```toml
			`[dependencies]`
			`background-jobs = "0.1"`
			`failure = "0.1"`
			`futures = "0.1"`
			`tokio = "0.1"`
			```

			`#### To get started with Background Jobs, first you should define a job.`
			`Jobs are a combination of the data required to perform an operation, and the logic of that`
			operation. They implment the `Job`, `serde::Serialize`, and `serde::DeserializeOwned`.

			```rust
			`#[derive(Clone, Debug, Deserialize, Serialize)]`
			`pub struct MyJob {`
			`some_usize: usize,`
			`other_usize: usize,`
			`}`

			`impl MyJob {`
			`pub fn new(some_usize: usize, other_usize: usize) -> Self {`
			`MyJob {`
			`some_usize,`
			`other_usize,`
			`}`
			`}`
			`}`

			`impl Job for MyJob {`
			`fn run(self) -> Box<dyn Future<Item = (), Error = Error> + Send> {`
			`info!("args: {:?}", self);`

			`Box::new(Ok(()).into_future())`
			`}`
			`}`
			```

			`#### Next, define a Processor.`
			`Processors are types that define default attributes for jobs, as well as containing some logic`
			used internally to perform the job. Processors must implement `Proccessor` and `Clone`.

			```rust
			`#[derive(Clone, Debug)]`
			`pub struct MyProcessor;`

			`impl Processor for MyProcessor {`
			`// The kind of job this processor should execute`
			`type Job = MyJob;`

			`// The name of the processor. It is super important that each processor has a unique name,`
			`// because otherwise one processor will overwrite another processor when they're being`
			`// registered.`
			`fn name() -> &'static str {`
			`"MyProcessor"`
			`}`

			`// The queue that this processor belongs to`
			`//`
			`// Workers have the option to subscribe to specific queues, so this is important to`
			`// determine which worker will call the processor`
			`//`
			`// Jobs can optionally override the queue they're spawned on`
			`fn queue() -> &'static str {`
			`DEFAULT_QUEUE`
			`}`

			`// The number of times background-jobs should try to retry a job before giving up`
			`//`
			`// Jobs can optionally override this value`
			`fn max_retries() -> MaxRetries {`
			`MaxRetries::Count(1)`
			`}`

			`// The logic to determine how often to retry this job if it fails`
			`//`
			`// Jobs can optionally override this value`
			`fn backoff_strategy() -> Backoff {`
			`Backoff::Exponential(2)`
			`}`
			`}`
			```

			`#### Running jobs`
			By default, this crate ships with the `background-jobs-server` feature enabled. This uses the
			`background-jobs-server` crate to spin up a Server and Workers, and provides a mechanism for
			`spawning new jobs.`

			`##### Starting the job server`
			```rust
			`use background_jobs::ServerConfig;`
			`use failure::Error;`
			`use server_jobs_example::queue_set;`

			`fn main() -> Result<(), Error> {`
			`// Run our job server`
			`tokio::run(ServerConfig::init(`
			`"127.0.0.1",`
			`5555,`
			`1,`
			`queue_set(),`
			`"example-db",`
			`));`

			`Ok(())`
			`}`
			```
			`##### Starting the job worker`
			```rust
			`use background_jobs::WorkerConfig;`
			`use failure::Error;`
			`use server_jobs_example::{queue_map, MyProcessor};`

			`fn main() -> Result<(), Error> {`
			`// Create the worker config`
			`let mut worker = WorkerConfig::new("localhost".to_owned(), 5555, queue_map());`

			`// Register our processor`
			`worker.register_processor(MyProcessor);`

			`// Spin up the workers`
			`tokio::run(worker.run());`

			`Ok(())`
			`}`
			```
			`##### Queuing jobs`
			```rust
			`use background_jobs::SpawnerConfig;`
			`use futures::{future::lazy, Future};`
			`use server_jobs_example::{MyJob, MyProcessor};`

			`fn main() {`
			`// Create 50 new jobs, each with two consecutive values of the fibonacci sequence`
			`let (_, _, jobs) = (1..50).fold((0, 1, Vec::new()), \|(x, y, mut acc), _\| {`
			`acc.push(MyJob::new(x, y));`

			`(y, x + y, acc)`
			`});`

			`// Create the spawner`
			`let spawner = SpawnerConfig::new("localhost", 5555);`

			`// Queue each job`
			`tokio::run(lazy(move \|\| {`
			`for job in jobs {`
			`tokio::spawn(spawner.queue::<MyProcessor>(job).map_err(\|_\| ()));`
			`}`

			`Ok(())`
			`}));`
			`}`
			```

			`#### Not using a ZeroMQ based client/server model`
			`If you want to create your own jobs processor based on this idea, you can depend on the`
			`background-jobs-core` crate, which provides the LMDB storage, Processor and Job traits, as well as some
			`other useful types for implementing a jobs processor.`

			`### Contributing`
			`Feel free to open issues for anything you find an issue with. Please note that any contributed code will be licensed under the GPLv3.`

			`### License`

			`Copyright © 2018 Riley Trautman`

			`Background Jobs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.`

			`Background Jobs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. This file is part of Background Jobs.`

			`You should have received a copy of the GNU General Public License along with Background Jobs. If not, see [http://www.gnu.org/licenses/](http://www.gnu.org/licenses/).`