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255 lines
8.4 KiB
Markdown
255 lines
8.4 KiB
Markdown
# Background Jobs
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This crate provides tooling required to run some processes asynchronously from a usually
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synchronous application. The standard example of this is Web Services, where certain things
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need to be processed, but processing them while a user is waiting for their browser to respond
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might not be the best experience.
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### Usage
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#### Add Background Jobs to your project
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```toml
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[dependencies]
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background-jobs = "0.3"
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failure = "0.1"
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futures = "0.1"
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tokio = "0.1"
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```
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#### To get started with Background Jobs, first you should define a job.
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Jobs are a combination of the data required to perform an operation, and the logic of that
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operation. They implment the `Job`, `serde::Serialize`, and `serde::DeserializeOwned`.
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```rust
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#[derive(Clone, Debug, Deserialize, Serialize)]
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pub struct MyJob {
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some_usize: usize,
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other_usize: usize,
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}
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impl MyJob {
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pub fn new(some_usize: usize, other_usize: usize) -> Self {
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MyJob {
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some_usize,
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other_usize,
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}
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}
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}
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impl Job for MyJob {
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fn run(self) -> Box<dyn Future<Item = (), Error = Error> + Send> {
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info!("args: {:?}", self);
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Box::new(Ok(()).into_future())
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}
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}
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```
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The run method for a job takes an additional argument, which is the state the job expects to
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use. The state for all jobs defined in an application must be the same. By default, the state
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is an empty tuple, but it's likely you'll want to pass in some Actix address, or something
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else.
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Let's re-define the job to care about some application state.
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```rust
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#[derive(Clone, Debug)]
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pub struct MyState {
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pub app_name: String,
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}
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impl Job<MyState> for MyJob {
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fn run(self, state: MyState) -> Box<dyn Future<Item = (), Error = Error> + Send> {
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info!("{}: args, {:?}", state.app_name, self);
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Box::new(Ok(()).into_future())
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}
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}
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```
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#### Next, define a Processor.
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Processors are types that define default attributes for jobs, as well as containing some logic
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used internally to perform the job. Processors must implement `Proccessor` and `Clone`.
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```rust
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#[derive(Clone, Debug)]
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pub struct MyProcessor;
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impl Processor<MyState> for MyProcessor {
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// The kind of job this processor should execute
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type Job = MyJob;
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// The name of the processor. It is super important that each processor has a unique name,
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// because otherwise one processor will overwrite another processor when they're being
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// registered.
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const NAME: &'static str = "MyProcessor";
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// The queue that this processor belongs to
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//
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// Workers have the option to subscribe to specific queues, so this is important to
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// determine which worker will call the processor
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//
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// Jobs can optionally override the queue they're spawned on
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const QUEUE: &'static str = DEFAULT_QUEUE;
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// The number of times background-jobs should try to retry a job before giving up
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//
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// Jobs can optionally override this value
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const MAX_RETRIES: MaxRetries = MaxRetries::Count(1);
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// The logic to determine how often to retry this job if it fails
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//
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// Jobs can optionally override this value
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const BACKOFF_STRATEGY: Backoff = Backoff::Exponential(2);
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}
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```
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#### Running jobs
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By default, this crate ships with the `background-jobs-server` feature enabled. This uses the
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`background-jobs-server` crate to spin up a Server and Workers, and provides a mechanism for
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spawning new jobs.
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`background-jobs-server` uses LMDB to keep track of local state. LMDB is a memory-mapped storage
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mechanism, so the jobs information it keeps track of is all stored locally on-disk. In the future,
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the storage mechanism may be made generic so implementors can bring their own storage.
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`background-jobs-server` also uses ZeroMQ to transfer data between the spawner, server, and
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workers. If you plan to run two or more of these pieces from the same process, look at the
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documentation for the methods `new_with_context` and `init_with_context`. It is important that
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ZeroMQ contexts are shared when possible to avoid spinning up multiple ZeroMQ instances for the
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same application.
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With that out of the way, back to the examples:
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##### Starting the job server
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```rust
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use background_jobs::ServerConfig;
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use failure::Error;
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use server_jobs_example::queue_set;
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fn main() -> Result<(), Error> {
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// Run our job server
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tokio::run(ServerConfig::init(
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"127.0.0.1",
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5555,
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1,
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queue_set(),
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"example-db",
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));
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Ok(())
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}
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```
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##### Starting the job worker
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```rust
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use background_jobs::WorkerConfig;
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use failure::Error;
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use server_jobs_example::{queue_map, MyProcessor};
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fn main() -> Result<(), Error> {
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// Create the worker config
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let mut worker = WorkerConfig::new(
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MyState {
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app_name: "My Example Application".to_owned(),
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},
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"localhost".to_owned(),
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5555,
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queue_map()
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);
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// Register our processor
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worker.register_processor(MyProcessor);
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// Spin up the workers
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tokio::run(worker.run());
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Ok(())
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}
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```
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##### Queuing jobs
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```rust
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use background_jobs::SpawnerConfig;
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use futures::{future::lazy, Future};
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use server_jobs_example::{MyJob, MyProcessor};
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fn main() {
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// Create 50 new jobs, each with two consecutive values of the fibonacci sequence
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let (_, _, jobs) = (1..50).fold((0, 1, Vec::new()), |(x, y, mut acc), _| {
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acc.push(MyJob::new(x, y));
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(y, x + y, acc)
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});
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// Create the spawner
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let spawner = SpawnerConfig::new("localhost", 5555);
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// Queue each job
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tokio::run(lazy(move || {
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for job in jobs {
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tokio::spawn(spawner.queue::<MyProcessor>(job).map_err(|_| ()));
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}
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Ok(())
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}));
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}
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```
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##### Queuing jobs from a synchronous application
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```rust
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use background_jobs::SpawnerConfig;
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use failure::Error;
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use server_jobs_example::{MyJob, MyProcessor};
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fn main() -> Result<(), Error> {
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// Create 50 new jobs, each with two consecutive values of the fibonacci sequence
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let (_, _, jobs) = (1..50).fold((0, 1, Vec::new()), |(x, y, mut acc), _| {
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acc.push(MyJob::new(x, y));
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(y, x + y, acc)
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});
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// Create the spawner
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let spawner = SpawnerConfig::new("localhost", 5555);
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// Queue each job
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for job in jobs {
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spawner.queue_sync::<MyProcessor>(job)?
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}
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}
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```
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##### Complete Example
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For the complete example project, see [the examples folder](https://git.asonix.dog/asonix/background-jobs/src/branch/master/examples/server-jobs-example)
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#### Using on Windows
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`background-jobs-server` depends by default on [`tokio-zmq`](https://crates.io/crates/tokio-zmq), which
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only works on unix (and unix-like) systems. This might mean it works on the Windows Subsystem for Linux,
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but it's untested and hard to say. You can override this behavior by specifying the following in your
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Cargo.toml
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```toml
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[Dependencies.background-jobs]
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version = "0.1"
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default-features = false
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features = ["background-jobs-server", "background-jobs-server/futures-zmq"]
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```
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[`futures-zmq`](https://crates.io/crates/futures-zmq) Is designed to be a drop-in replacement for
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tokio-zmq that works on non-unix and non-tokio platforms. The reason why it isn't enabled by default is
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that it's slower than tokio-zmq, and in all likelihood, the production environment for projects
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depending on this one will be linux.
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#### Not using a ZeroMQ+LMDB based client/server model
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If you want to create your own jobs processor based on this idea, you can depend on the
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`background-jobs-core` crate, which provides the LMDB storage, Processor and Job traits, as well as some
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other useful types for implementing a jobs processor.
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### Contributing
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Feel free to open issues for anything you find an issue with. Please note that any contributed code will be licensed under the GPLv3.
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### License
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Copyright © 2018 Riley Trautman
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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.
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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.
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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/).
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