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Rename task -> job to avoid confusion with async tasks
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9 changed files with 343 additions and 346 deletions
124
README.md
124
README.md
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@ -1,96 +1,96 @@
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# sqlxmq
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A task queue built on `sqlx` and `PostgreSQL`.
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A job queue built on `sqlx` and `PostgreSQL`.
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This library allows a CRUD application to run background tasks without complicating its
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This library allows a CRUD application to run background jobs without complicating its
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deployment. The only runtime dependency is `PostgreSQL`, so this is ideal for applications
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already using a `PostgreSQL` database.
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Although using a SQL database as a task queue means compromising on latency of
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delivered tasks, there are several show-stopping issues present in ordinary task
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Although using a SQL database as a job queue means compromising on latency of
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delivered jobs, there are several show-stopping issues present in ordinary job
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queues which are avoided altogether.
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With any other task queue, in-flight tasks are state that is not covered by normal
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database backups. Even if tasks _are_ backed up, there is no way to restore both
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a database and a task queue to a consistent point-in-time without manually
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With most other job queues, in-flight jobs are state that is not covered by normal
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database backups. Even if jobs _are_ backed up, there is no way to restore both
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a database and a job queue to a consistent point-in-time without manually
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resolving conflicts.
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By storing tasks in the database, existing backup procedures will store a perfectly
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consistent state of both in-flight tasks and persistent data. Additionally, tasks can
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By storing jobs in the database, existing backup procedures will store a perfectly
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consistent state of both in-flight jobs and persistent data. Additionally, jobs can
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be spawned and completed as part of other transactions, making it easy to write correct
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application code.
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Leveraging the power of `PostgreSQL`, this task queue offers several features not
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present in other task queues.
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Leveraging the power of `PostgreSQL`, this job queue offers several features not
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present in other job queues.
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# Features
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- **Send/receive multiple tasks at once.**
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- **Send/receive multiple jobs at once.**
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This reduces the number of queries to the database.
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- **Send tasks to be executed at a future date and time.**
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- **Send jobs to be executed at a future date and time.**
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Avoids the need for a separate scheduling system.
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- **Reliable delivery of tasks.**
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- **Reliable delivery of jobs.**
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- **Automatic retries with exponential backoff.**
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Number of retries and initial backoff parameters are configurable.
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- **Transactional sending of tasks.**
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- **Transactional sending of jobs.**
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Avoids sending spurious tasks if a transaction is rolled back.
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Avoids sending spurious jobs if a transaction is rolled back.
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- **Transactional completion of tasks.**
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- **Transactional completion of jobs.**
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If all side-effects of a task are updates to the database, this provides
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true exactly-once execution of tasks.
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If all side-effects of a job are updates to the database, this provides
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true exactly-once execution of jobs.
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- **Transactional check-pointing of tasks.**
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- **Transactional check-pointing of jobs.**
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Long-running tasks can check-point their state to avoid having to restart
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Long-running jobs can check-point their state to avoid having to restart
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from the beginning if there is a failure: the next retry can continue
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from the last check-point.
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- **Opt-in strictly ordered task delivery.**
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- **Opt-in strictly ordered job delivery.**
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Tasks within the same channel will be processed strictly in-order
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if this option is enabled for the task.
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Jobs within the same channel will be processed strictly in-order
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if this option is enabled for the job.
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- **Fair task delivery.**
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- **Fair job delivery.**
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A channel with a lot of tasks ready to run will not starve a channel with fewer
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tasks.
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A channel with a lot of jobs ready to run will not starve a channel with fewer
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jobs.
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- **Opt-in two-phase commit.**
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This is particularly useful on an ordered channel where a position can be "reserved"
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in the task order, but not committed until later.
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in the job order, but not committed until later.
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- **JSON and/or binary payloads.**
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Tasks can use whichever is most convenient.
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Jobs can use whichever is most convenient.
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- **Automatic keep-alive of tasks.**
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- **Automatic keep-alive of jobs.**
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Long-running tasks will automatically be "kept alive" to prevent them being
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Long-running jobs will automatically be "kept alive" to prevent them being
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retried whilst they're still ongoing.
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- **Concurrency limits.**
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Specify the minimum and maximum number of concurrent tasks each runner should
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Specify the minimum and maximum number of concurrent jobs each runner should
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handle.
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- **Built-in task registry via an attribute macro.**
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- **Built-in job registry via an attribute macro.**
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Tasks can be easily registered with a runner, and default configuration specified
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on a per-task basis.
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Jobs can be easily registered with a runner, and default configuration specified
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on a per-job basis.
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- **Implicit channels.**
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Channels are implicitly created and destroyed when tasks are sent and processed,
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Channels are implicitly created and destroyed when jobs are sent and processed,
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so no setup is required.
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- **Channel groups.**
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@ -100,75 +100,75 @@ present in other task queues.
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- **NOTIFY-based polling.**
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This saves resources when few tasks are being processed.
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This saves resources when few jobs are being processed.
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# Getting started
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## Defining tasks
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## Defining jobs
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The first step is to define a function to be run on the task queue.
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The first step is to define a function to be run on the job queue.
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```rust
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use sqlxmq::{task, CurrentTask};
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use sqlxmq::{job, CurrentJob};
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// Arguments to the `#[task]` attribute allow setting default task options.
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#[task(channel_name = "foo")]
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async fn example_task(
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mut current_task: CurrentTask,
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// Arguments to the `#[job]` attribute allow setting default job options.
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#[job(channel_name = "foo")]
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async fn example_job(
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mut current_job: CurrentJob,
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) -> sqlx::Result<()> {
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// Decode a JSON payload
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let who: Option<String> = current_task.json()?;
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let who: Option<String> = current_job.json()?;
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// Do some work
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println!("Hello, {}!", who.as_deref().unwrap_or("world"));
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// Mark the task as complete
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current_task.complete().await?;
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// Mark the job as complete
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current_job.complete().await?;
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Ok(())
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}
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```
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## Listening for tasks
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## Listening for jobs
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Next we need to create a task runner: this is what listens for new tasks
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Next we need to create a job runner: this is what listens for new jobs
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and executes them.
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```rust
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use sqlxmq::TaskRegistry;
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use sqlxmq::JobRegistry;
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#[tokio::main]
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async fn main() -> Result<(), Box<dyn Error>> {
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// You'll need to provide a Postgres connection pool.
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let pool = connect_to_db().await?;
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// Construct a task registry from our single task.
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let mut registry = TaskRegistry::new(&[example_task]);
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// Construct a job registry from our single job.
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let mut registry = JobRegistry::new(&[example_job]);
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// Here is where you can configure the registry
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// registry.set_error_handler(...)
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let runner = registry
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// Create a task runner using the connection pool.
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// Create a job runner using the connection pool.
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.runner(&pool)
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// Here is where you can configure the task runner
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// Aim to keep 10-20 tasks running at a time.
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// Here is where you can configure the job runner
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// Aim to keep 10-20 jobs running at a time.
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.set_concurrency(10, 20)
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// Start the task runner in the background.
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// Start the job runner in the background.
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.run()
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.await?;
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// The task runner will continue listening and running
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// tasks until `runner` is dropped.
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// The job runner will continue listening and running
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// jobs until `runner` is dropped.
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}
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```
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## Spawning a task
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## Spawning a job
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The final step is to actually run a task.
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The final step is to actually run a job.
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```rust
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example_task.new()
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// This is where we override task configuration
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example_job.new()
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// This is where we override job configuration
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.set_channel_name("bar")
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.set_json("John")
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.spawn(&pool)
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@ -96,7 +96,7 @@ RETURNS TABLE(name TEXT, args TEXT) AS $$
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LIMIT batch_size
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$$ LANGUAGE SQL STABLE;
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-- Main entry-point for task runner: pulls a batch of messages from the queue.
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-- Main entry-point for job runner: pulls a batch of messages from the queue.
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CREATE FUNCTION mq_poll(channel_names TEXT[], batch_size INT DEFAULT 1)
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RETURNS TABLE(
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id UUID,
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};
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#[derive(Default)]
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struct TaskOptions {
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struct JobOptions {
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proto: Option<Path>,
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name: Option<String>,
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channel_name: Option<String>,
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@ -28,7 +28,7 @@ enum OptionValue<'a> {
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Path(&'a Path),
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}
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fn interpret_task_arg(options: &mut TaskOptions, arg: NestedMeta) -> Result<()> {
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fn interpret_job_arg(options: &mut JobOptions, arg: NestedMeta) -> Result<()> {
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fn error(arg: NestedMeta) -> Result<()> {
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Err(Error::new_spanned(arg, "Unexpected attribute argument"))
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}
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Ok(())
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}
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/// Marks a function as being a background task.
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/// Marks a function as being a background job.
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///
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/// The function must take a single `CurrentTask` argument, and should
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/// The function must take a single `CurrentJob` argument, and should
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/// be async or return a future.
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///
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/// The async result must be a `Result<(), E>` type, where `E` is convertible
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/// to a `Box<dyn Error + Send + Sync + 'static>`, which is the case for most
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/// error types.
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///
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/// Several options can be provided to the `#[task]` attribute:
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/// Several options can be provided to the `#[job]` attribute:
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///
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/// # Name
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///
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/// ```
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/// #[task("example")]
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/// #[task(name="example")]
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/// #[job("example")]
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/// #[job(name="example")]
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/// ```
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///
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/// This overrides the name for this task. If unspecified, the fully-qualified
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/// name of the function is used. If you move a task to a new module or rename
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/// the function, you may which to override the task name to prevent it from
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/// This overrides the name for this job. If unspecified, the fully-qualified
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/// name of the function is used. If you move a job to a new module or rename
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/// the function, you may which to override the job name to prevent it from
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/// changing.
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///
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/// # Channel name
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///
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/// ```
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/// #[task(channel_name="foo")]
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/// #[job(channel_name="foo")]
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/// ```
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///
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/// This sets the default channel name on which the task will be spawned.
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/// This sets the default channel name on which the job will be spawned.
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///
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/// # Retries
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///
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/// ```
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/// #[task(retries = 3)]
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/// #[job(retries = 3)]
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/// ```
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///
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/// This sets the default number of retries for the task.
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/// This sets the default number of retries for the job.
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///
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/// # Retry backoff
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///
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/// ```
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/// #[task(backoff_secs=1.5)]
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/// #[task(backoff_secs=2)]
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/// #[job(backoff_secs=1.5)]
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/// #[job(backoff_secs=2)]
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/// ```
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///
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/// This sets the default initial retry backoff for the task in seconds.
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/// This sets the default initial retry backoff for the job in seconds.
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///
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/// # Ordered
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///
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/// ```
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/// #[task(ordered)]
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/// #[task(ordered=true)]
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/// #[task(ordered=false)]
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/// #[job(ordered)]
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/// #[job(ordered=true)]
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/// #[job(ordered=false)]
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/// ```
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///
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/// This sets whether the task will be strictly ordered by default.
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/// This sets whether the job will be strictly ordered by default.
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///
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/// # Prototype
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///
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/// ```
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/// fn my_proto<'a, 'b>(
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/// builder: &'a mut TaskBuilder<'b>
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/// ) -> &'a mut TaskBuilder<'b> {
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/// builder: &'a mut JobBuilder<'b>
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/// ) -> &'a mut JobBuilder<'b> {
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/// builder.set_channel_name("bar")
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/// }
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///
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/// #[task(proto(my_proto))]
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/// #[job(proto(my_proto))]
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/// ```
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///
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/// This allows setting several task options at once using the specified function,
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/// and can be convient if you have several tasks which should have similar
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/// This allows setting several job options at once using the specified function,
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/// and can be convient if you have several jobs which should have similar
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/// defaults.
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///
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/// # Combinations
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///
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/// Multiple task options can be combined. The order is not important, but the
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/// Multiple job options can be combined. The order is not important, but the
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/// prototype will always be applied first so that explicit options can override it.
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/// Each option can only be provided once in the attribute.
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///
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/// ```
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/// #[task("my_task", proto(my_proto), retries=0, ordered)]
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/// #[job("my_job", proto(my_proto), retries=0, ordered)]
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/// ```
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///
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#[proc_macro_attribute]
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pub fn task(attr: TokenStream, item: TokenStream) -> TokenStream {
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pub fn job(attr: TokenStream, item: TokenStream) -> TokenStream {
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let args = parse_macro_input!(attr as AttributeArgs);
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let mut inner_fn = parse_macro_input!(item as ItemFn);
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let mut options = TaskOptions::default();
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let mut options = JobOptions::default();
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let mut errors = Vec::new();
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for arg in args {
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if let Err(e) = interpret_task_arg(&mut options, arg) {
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if let Err(e) = interpret_job_arg(&mut options, arg) {
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errors.push(e.into_compile_error());
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}
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}
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|
@ -226,15 +226,15 @@ pub fn task(attr: TokenStream, item: TokenStream) -> TokenStream {
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let expanded = quote! {
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#(#errors)*
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#[allow(non_upper_case_globals)]
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#vis static #name: &'static sqlxmq::NamedTask = &{
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#vis static #name: &'static sqlxmq::NamedJob = &{
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#inner_fn
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sqlxmq::NamedTask::new_internal(
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sqlxmq::NamedJob::new_internal(
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#fq_name,
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sqlxmq::hidden::BuildFn(|builder| {
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builder #(#chain)*
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}),
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sqlxmq::hidden::RunFn(|registry, current_task| {
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registry.spawn_internal(#fq_name, inner(current_task));
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sqlxmq::hidden::RunFn(|registry, current_job| {
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registry.spawn_internal(#fq_name, inner(current_job));
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}),
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)
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};
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|
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|
@ -1,6 +1,6 @@
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use crate::{CurrentTask, TaskBuilder, TaskRegistry};
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use crate::{CurrentJob, JobBuilder, JobRegistry};
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#[doc(hidden)]
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pub struct BuildFn(pub for<'a> fn(&'a mut TaskBuilder<'static>) -> &'a mut TaskBuilder<'static>);
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pub struct BuildFn(pub for<'a> fn(&'a mut JobBuilder<'static>) -> &'a mut JobBuilder<'static>);
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#[doc(hidden)]
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pub struct RunFn(pub fn(&TaskRegistry, CurrentTask));
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pub struct RunFn(pub fn(&JobRegistry, CurrentJob));
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|
|
218
src/lib.rs
218
src/lib.rs
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#![deny(missing_docs, unsafe_code)]
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//! # sqlxmq
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//!
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//! A task queue built on `sqlx` and `PostgreSQL`.
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//! A job queue built on `sqlx` and `PostgreSQL`.
|
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//!
|
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//! This library allows a CRUD application to run background tasks without complicating its
|
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//! This library allows a CRUD application to run background jobs without complicating its
|
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//! deployment. The only runtime dependency is `PostgreSQL`, so this is ideal for applications
|
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//! already using a `PostgreSQL` database.
|
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//!
|
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//! Although using a SQL database as a task queue means compromising on latency of
|
||||
//! delivered tasks, there are several show-stopping issues present in ordinary task
|
||||
//! Although using a SQL database as a job queue means compromising on latency of
|
||||
//! delivered jobs, there are several show-stopping issues present in ordinary job
|
||||
//! queues which are avoided altogether.
|
||||
//!
|
||||
//! With any other task queue, in-flight tasks are state that is not covered by normal
|
||||
//! database backups. Even if tasks _are_ backed up, there is no way to restore both
|
||||
//! a database and a task queue to a consistent point-in-time without manually
|
||||
//! With most other job queues, in-flight jobs are state that is not covered by normal
|
||||
//! database backups. Even if jobs _are_ backed up, there is no way to restore both
|
||||
//! a database and a job queue to a consistent point-in-time without manually
|
||||
//! resolving conflicts.
|
||||
//!
|
||||
//! By storing tasks in the database, existing backup procedures will store a perfectly
|
||||
//! consistent state of both in-flight tasks and persistent data. Additionally, tasks can
|
||||
//! By storing jobs in the database, existing backup procedures will store a perfectly
|
||||
//! consistent state of both in-flight jobs and persistent data. Additionally, jobs can
|
||||
//! be spawned and completed as part of other transactions, making it easy to write correct
|
||||
//! application code.
|
||||
//!
|
||||
//! Leveraging the power of `PostgreSQL`, this task queue offers several features not
|
||||
//! present in other task queues.
|
||||
//! Leveraging the power of `PostgreSQL`, this job queue offers several features not
|
||||
//! present in other job queues.
|
||||
//!
|
||||
//! # Features
|
||||
//!
|
||||
//! - **Send/receive multiple tasks at once.**
|
||||
//! - **Send/receive multiple jobs at once.**
|
||||
//!
|
||||
//! This reduces the number of queries to the database.
|
||||
//!
|
||||
//! - **Send tasks to be executed at a future date and time.**
|
||||
//! - **Send jobs to be executed at a future date and time.**
|
||||
//!
|
||||
//! Avoids the need for a separate scheduling system.
|
||||
//!
|
||||
//! - **Reliable delivery of tasks.**
|
||||
//! - **Reliable delivery of jobs.**
|
||||
//!
|
||||
//! - **Automatic retries with exponential backoff.**
|
||||
//!
|
||||
//! Number of retries and initial backoff parameters are configurable.
|
||||
//!
|
||||
//! - **Transactional sending of tasks.**
|
||||
//! - **Transactional sending of jobs.**
|
||||
//!
|
||||
//! Avoids sending spurious tasks if a transaction is rolled back.
|
||||
//! Avoids sending spurious jobs if a transaction is rolled back.
|
||||
//!
|
||||
//! - **Transactional completion of tasks.**
|
||||
//! - **Transactional completion of jobs.**
|
||||
//!
|
||||
//! If all side-effects of a task are updates to the database, this provides
|
||||
//! true exactly-once execution of tasks.
|
||||
//! If all side-effects of a job are updates to the database, this provides
|
||||
//! true exactly-once execution of jobs.
|
||||
//!
|
||||
//! - **Transactional check-pointing of tasks.**
|
||||
//! - **Transactional check-pointing of jobs.**
|
||||
//!
|
||||
//! Long-running tasks can check-point their state to avoid having to restart
|
||||
//! Long-running jobs can check-point their state to avoid having to restart
|
||||
//! from the beginning if there is a failure: the next retry can continue
|
||||
//! from the last check-point.
|
||||
//!
|
||||
//! - **Opt-in strictly ordered task delivery.**
|
||||
//! - **Opt-in strictly ordered job delivery.**
|
||||
//!
|
||||
//! Tasks within the same channel will be processed strictly in-order
|
||||
//! if this option is enabled for the task.
|
||||
//! Jobs within the same channel will be processed strictly in-order
|
||||
//! if this option is enabled for the job.
|
||||
//!
|
||||
//! - **Fair task delivery.**
|
||||
//! - **Fair job delivery.**
|
||||
//!
|
||||
//! A channel with a lot of tasks ready to run will not starve a channel with fewer
|
||||
//! tasks.
|
||||
//! A channel with a lot of jobs ready to run will not starve a channel with fewer
|
||||
//! jobs.
|
||||
//!
|
||||
//! - **Opt-in two-phase commit.**
|
||||
//!
|
||||
//! This is particularly useful on an ordered channel where a position can be "reserved"
|
||||
//! in the task order, but not committed until later.
|
||||
//! in the job order, but not committed until later.
|
||||
//!
|
||||
//! - **JSON and/or binary payloads.**
|
||||
//!
|
||||
//! Tasks can use whichever is most convenient.
|
||||
//! Jobs can use whichever is most convenient.
|
||||
//!
|
||||
//! - **Automatic keep-alive of tasks.**
|
||||
//! - **Automatic keep-alive of jobs.**
|
||||
//!
|
||||
//! Long-running tasks will automatically be "kept alive" to prevent them being
|
||||
//! Long-running jobs will automatically be "kept alive" to prevent them being
|
||||
//! retried whilst they're still ongoing.
|
||||
//!
|
||||
//! - **Concurrency limits.**
|
||||
//!
|
||||
//! Specify the minimum and maximum number of concurrent tasks each runner should
|
||||
//! Specify the minimum and maximum number of concurrent jobs each runner should
|
||||
//! handle.
|
||||
//!
|
||||
//! - **Built-in task registry via an attribute macro.**
|
||||
//! - **Built-in job registry via an attribute macro.**
|
||||
//!
|
||||
//! Tasks can be easily registered with a runner, and default configuration specified
|
||||
//! on a per-task basis.
|
||||
//! Jobs can be easily registered with a runner, and default configuration specified
|
||||
//! on a per-job basis.
|
||||
//!
|
||||
//! - **Implicit channels.**
|
||||
//!
|
||||
//! Channels are implicitly created and destroyed when tasks are sent and processed,
|
||||
//! Channels are implicitly created and destroyed when jobs are sent and processed,
|
||||
//! so no setup is required.
|
||||
//!
|
||||
//! - **Channel groups.**
|
||||
|
@ -101,75 +101,75 @@
|
|||
//!
|
||||
//! - **NOTIFY-based polling.**
|
||||
//!
|
||||
//! This saves resources when few tasks are being processed.
|
||||
//! This saves resources when few jobs are being processed.
|
||||
//!
|
||||
//! # Getting started
|
||||
//!
|
||||
//! ## Defining tasks
|
||||
//! ## Defining jobs
|
||||
//!
|
||||
//! The first step is to define a function to be run on the task queue.
|
||||
//! The first step is to define a function to be run on the job queue.
|
||||
//!
|
||||
//! ```rust
|
||||
//! use sqlxmq::{task, CurrentTask};
|
||||
//! use sqlxmq::{job, CurrentJob};
|
||||
//!
|
||||
//! // Arguments to the `#[task]` attribute allow setting default task options.
|
||||
//! #[task(channel_name = "foo")]
|
||||
//! async fn example_task(
|
||||
//! mut current_task: CurrentTask,
|
||||
//! // Arguments to the `#[job]` attribute allow setting default job options.
|
||||
//! #[job(channel_name = "foo")]
|
||||
//! async fn example_job(
|
||||
//! mut current_job: CurrentJob,
|
||||
//! ) -> sqlx::Result<()> {
|
||||
//! // Decode a JSON payload
|
||||
//! let who: Option<String> = current_task.json()?;
|
||||
//! let who: Option<String> = current_job.json()?;
|
||||
//!
|
||||
//! // Do some work
|
||||
//! println!("Hello, {}!", who.as_deref().unwrap_or("world"));
|
||||
//!
|
||||
//! // Mark the task as complete
|
||||
//! current_task.complete().await?;
|
||||
//! // Mark the job as complete
|
||||
//! current_job.complete().await?;
|
||||
//!
|
||||
//! Ok(())
|
||||
//! }
|
||||
//! ```
|
||||
//!
|
||||
//! ## Listening for tasks
|
||||
//! ## Listening for jobs
|
||||
//!
|
||||
//! Next we need to create a task runner: this is what listens for new tasks
|
||||
//! Next we need to create a job runner: this is what listens for new jobs
|
||||
//! and executes them.
|
||||
//!
|
||||
//! ```rust
|
||||
//! use sqlxmq::TaskRegistry;
|
||||
//! use sqlxmq::JobRegistry;
|
||||
//!
|
||||
//! #[tokio::main]
|
||||
//! async fn main() -> Result<(), Box<dyn Error>> {
|
||||
//! // You'll need to provide a Postgres connection pool.
|
||||
//! let pool = connect_to_db().await?;
|
||||
//!
|
||||
//! // Construct a task registry from our single task.
|
||||
//! let mut registry = TaskRegistry::new(&[example_task]);
|
||||
//! // Construct a job registry from our single job.
|
||||
//! let mut registry = JobRegistry::new(&[example_job]);
|
||||
//! // Here is where you can configure the registry
|
||||
//! // registry.set_error_handler(...)
|
||||
//!
|
||||
//! let runner = registry
|
||||
//! // Create a task runner using the connection pool.
|
||||
//! // Create a job runner using the connection pool.
|
||||
//! .runner(&pool)
|
||||
//! // Here is where you can configure the task runner
|
||||
//! // Aim to keep 10-20 tasks running at a time.
|
||||
//! // Here is where you can configure the job runner
|
||||
//! // Aim to keep 10-20 jobs running at a time.
|
||||
//! .set_concurrency(10, 20)
|
||||
//! // Start the task runner in the background.
|
||||
//! // Start the job runner in the background.
|
||||
//! .run()
|
||||
//! .await?;
|
||||
//!
|
||||
//! // The task runner will continue listening and running
|
||||
//! // tasks until `runner` is dropped.
|
||||
//! // The job runner will continue listening and running
|
||||
//! // jobs until `runner` is dropped.
|
||||
//! }
|
||||
//! ```
|
||||
//!
|
||||
//! ## Spawning a task
|
||||
//! ## Spawning a job
|
||||
//!
|
||||
//! The final step is to actually run a task.
|
||||
//! The final step is to actually run a job.
|
||||
//!
|
||||
//! ```rust
|
||||
//! example_task.new()
|
||||
//! // This is where we override task configuration
|
||||
//! example_job.new()
|
||||
//! // This is where we override job configuration
|
||||
//! .set_channel_name("bar")
|
||||
//! .set_json("John")
|
||||
//! .spawn(&pool)
|
||||
|
@ -186,8 +186,8 @@ mod utils;
|
|||
pub use registry::*;
|
||||
pub use runner::*;
|
||||
pub use spawn::*;
|
||||
pub use sqlxmq_macros::task;
|
||||
pub use utils::OwnedTask;
|
||||
pub use sqlxmq_macros::job;
|
||||
pub use utils::OwnedHandle;
|
||||
|
||||
#[cfg(test)]
|
||||
mod tests {
|
||||
|
@ -244,18 +244,18 @@ mod tests {
|
|||
TestGuard(guard, pool)
|
||||
}
|
||||
|
||||
async fn test_task_runner<F: Future + Send + 'static>(
|
||||
async fn test_job_runner<F: Future + Send + 'static>(
|
||||
pool: &Pool<Postgres>,
|
||||
f: impl (Fn(CurrentTask) -> F) + Send + Sync + 'static,
|
||||
) -> (OwnedTask, Arc<AtomicUsize>)
|
||||
f: impl (Fn(CurrentJob) -> F) + Send + Sync + 'static,
|
||||
) -> (OwnedHandle, Arc<AtomicUsize>)
|
||||
where
|
||||
F::Output: Send + 'static,
|
||||
{
|
||||
let counter = Arc::new(AtomicUsize::new(0));
|
||||
let counter2 = counter.clone();
|
||||
let runner = TaskRunnerOptions::new(pool, move |task| {
|
||||
let runner = JobRunnerOptions::new(pool, move |job| {
|
||||
counter2.fetch_add(1, Ordering::SeqCst);
|
||||
task::spawn(f(task));
|
||||
task::spawn(f(job));
|
||||
})
|
||||
.run()
|
||||
.await
|
||||
|
@ -263,28 +263,28 @@ mod tests {
|
|||
(runner, counter)
|
||||
}
|
||||
|
||||
fn task_proto<'a, 'b>(builder: &'a mut TaskBuilder<'b>) -> &'a mut TaskBuilder<'b> {
|
||||
fn job_proto<'a, 'b>(builder: &'a mut JobBuilder<'b>) -> &'a mut JobBuilder<'b> {
|
||||
builder.set_channel_name("bar")
|
||||
}
|
||||
|
||||
#[task(channel_name = "foo", ordered, retries = 3, backoff_secs = 2.0)]
|
||||
async fn example_task1(
|
||||
mut current_task: CurrentTask,
|
||||
#[job(channel_name = "foo", ordered, retries = 3, backoff_secs = 2.0)]
|
||||
async fn example_job1(
|
||||
mut current_job: CurrentJob,
|
||||
) -> Result<(), Box<dyn Error + Send + Sync + 'static>> {
|
||||
current_task.complete().await?;
|
||||
current_job.complete().await?;
|
||||
Ok(())
|
||||
}
|
||||
|
||||
#[task(proto(task_proto))]
|
||||
async fn example_task2(
|
||||
mut current_task: CurrentTask,
|
||||
#[job(proto(job_proto))]
|
||||
async fn example_job2(
|
||||
mut current_job: CurrentJob,
|
||||
) -> Result<(), Box<dyn Error + Send + Sync + 'static>> {
|
||||
current_task.complete().await?;
|
||||
current_job.complete().await?;
|
||||
Ok(())
|
||||
}
|
||||
|
||||
async fn named_task_runner(pool: &Pool<Postgres>) -> OwnedTask {
|
||||
TaskRegistry::new(&[example_task1, example_task2])
|
||||
async fn named_job_runner(pool: &Pool<Postgres>) -> OwnedHandle {
|
||||
JobRegistry::new(&[example_job1, example_job2])
|
||||
.runner(pool)
|
||||
.run()
|
||||
.await
|
||||
|
@ -300,37 +300,37 @@ mod tests {
|
|||
}
|
||||
|
||||
#[tokio::test]
|
||||
async fn it_can_spawn_task() {
|
||||
async fn it_can_spawn_job() {
|
||||
let pool = &*test_pool().await;
|
||||
let (_runner, counter) =
|
||||
test_task_runner(&pool, |mut task| async move { task.complete().await }).await;
|
||||
test_job_runner(&pool, |mut job| async move { job.complete().await }).await;
|
||||
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 0);
|
||||
TaskBuilder::new("foo").spawn(pool).await.unwrap();
|
||||
JobBuilder::new("foo").spawn(pool).await.unwrap();
|
||||
pause().await;
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 1);
|
||||
}
|
||||
|
||||
#[tokio::test]
|
||||
async fn it_runs_tasks_in_order() {
|
||||
async fn it_runs_jobs_in_order() {
|
||||
let pool = &*test_pool().await;
|
||||
let (tx, mut rx) = mpsc::unbounded();
|
||||
|
||||
let (_runner, counter) = test_task_runner(&pool, move |task| {
|
||||
let (_runner, counter) = test_job_runner(&pool, move |job| {
|
||||
let tx = tx.clone();
|
||||
async move {
|
||||
tx.unbounded_send(task).unwrap();
|
||||
tx.unbounded_send(job).unwrap();
|
||||
}
|
||||
})
|
||||
.await;
|
||||
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 0);
|
||||
TaskBuilder::new("foo")
|
||||
JobBuilder::new("foo")
|
||||
.set_ordered(true)
|
||||
.spawn(pool)
|
||||
.await
|
||||
.unwrap();
|
||||
TaskBuilder::new("bar")
|
||||
JobBuilder::new("bar")
|
||||
.set_ordered(true)
|
||||
.spawn(pool)
|
||||
.await
|
||||
|
@ -339,48 +339,48 @@ mod tests {
|
|||
pause().await;
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 1);
|
||||
|
||||
let mut task = rx.next().await.unwrap();
|
||||
task.complete().await.unwrap();
|
||||
let mut job = rx.next().await.unwrap();
|
||||
job.complete().await.unwrap();
|
||||
|
||||
pause().await;
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 2);
|
||||
}
|
||||
|
||||
#[tokio::test]
|
||||
async fn it_runs_tasks_in_parallel() {
|
||||
async fn it_runs_jobs_in_parallel() {
|
||||
let pool = &*test_pool().await;
|
||||
let (tx, mut rx) = mpsc::unbounded();
|
||||
|
||||
let (_runner, counter) = test_task_runner(&pool, move |task| {
|
||||
let (_runner, counter) = test_job_runner(&pool, move |job| {
|
||||
let tx = tx.clone();
|
||||
async move {
|
||||
tx.unbounded_send(task).unwrap();
|
||||
tx.unbounded_send(job).unwrap();
|
||||
}
|
||||
})
|
||||
.await;
|
||||
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 0);
|
||||
TaskBuilder::new("foo").spawn(pool).await.unwrap();
|
||||
TaskBuilder::new("bar").spawn(pool).await.unwrap();
|
||||
JobBuilder::new("foo").spawn(pool).await.unwrap();
|
||||
JobBuilder::new("bar").spawn(pool).await.unwrap();
|
||||
|
||||
pause().await;
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 2);
|
||||
|
||||
for _ in 0..2 {
|
||||
let mut task = rx.next().await.unwrap();
|
||||
task.complete().await.unwrap();
|
||||
let mut job = rx.next().await.unwrap();
|
||||
job.complete().await.unwrap();
|
||||
}
|
||||
}
|
||||
|
||||
#[tokio::test]
|
||||
async fn it_retries_failed_tasks() {
|
||||
async fn it_retries_failed_jobs() {
|
||||
let pool = &*test_pool().await;
|
||||
let (_runner, counter) = test_task_runner(&pool, move |_| async {}).await;
|
||||
let (_runner, counter) = test_job_runner(&pool, move |_| async {}).await;
|
||||
|
||||
let backoff = 200;
|
||||
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 0);
|
||||
TaskBuilder::new("foo")
|
||||
JobBuilder::new("foo")
|
||||
.set_retry_backoff(Duration::from_millis(backoff))
|
||||
.set_retries(2)
|
||||
.spawn(pool)
|
||||
|
@ -407,14 +407,14 @@ mod tests {
|
|||
}
|
||||
|
||||
#[tokio::test]
|
||||
async fn it_can_checkpoint_tasks() {
|
||||
async fn it_can_checkpoint_jobs() {
|
||||
let pool = &*test_pool().await;
|
||||
let (_runner, counter) = test_task_runner(&pool, move |mut current_task| async move {
|
||||
let state: bool = current_task.json().unwrap().unwrap();
|
||||
let (_runner, counter) = test_job_runner(&pool, move |mut current_job| async move {
|
||||
let state: bool = current_job.json().unwrap().unwrap();
|
||||
if state {
|
||||
current_task.complete().await.unwrap();
|
||||
current_job.complete().await.unwrap();
|
||||
} else {
|
||||
current_task
|
||||
current_job
|
||||
.checkpoint(Checkpoint::new().set_json(&true).unwrap())
|
||||
.await
|
||||
.unwrap();
|
||||
|
@ -425,7 +425,7 @@ mod tests {
|
|||
let backoff = 200;
|
||||
|
||||
assert_eq!(counter.load(Ordering::SeqCst), 0);
|
||||
TaskBuilder::new("foo")
|
||||
JobBuilder::new("foo")
|
||||
.set_retry_backoff(Duration::from_millis(backoff))
|
||||
.set_retries(5)
|
||||
.set_json(&false)
|
||||
|
@ -451,10 +451,10 @@ mod tests {
|
|||
#[tokio::test]
|
||||
async fn it_can_use_registry() {
|
||||
let pool = &*test_pool().await;
|
||||
let _runner = named_task_runner(pool).await;
|
||||
let _runner = named_job_runner(pool).await;
|
||||
|
||||
example_task1.new().spawn(pool).await.unwrap();
|
||||
example_task2.new().spawn(pool).await.unwrap();
|
||||
example_job1.new().spawn(pool).await.unwrap();
|
||||
example_job2.new().spawn(pool).await.unwrap();
|
||||
pause().await;
|
||||
}
|
||||
}
|
||||
|
|
|
@ -9,42 +9,42 @@ use uuid::Uuid;
|
|||
|
||||
use crate::hidden::{BuildFn, RunFn};
|
||||
use crate::utils::Opaque;
|
||||
use crate::{TaskBuilder, TaskRunnerOptions};
|
||||
use crate::{JobBuilder, JobRunnerOptions};
|
||||
|
||||
/// Stores a mapping from task name to task. Can be used to construct
|
||||
/// a task runner.
|
||||
pub struct TaskRegistry {
|
||||
/// Stores a mapping from job name to job. Can be used to construct
|
||||
/// a job runner.
|
||||
pub struct JobRegistry {
|
||||
error_handler: Arc<dyn Fn(&str, Box<dyn Error + Send + 'static>) + Send + Sync>,
|
||||
task_map: HashMap<&'static str, &'static NamedTask>,
|
||||
job_map: HashMap<&'static str, &'static NamedJob>,
|
||||
}
|
||||
|
||||
/// Error returned when a task is received whose name is not in the registry.
|
||||
/// Error returned when a job is received whose name is not in the registry.
|
||||
#[derive(Debug)]
|
||||
pub struct UnknownTaskError;
|
||||
pub struct UnknownJobError;
|
||||
|
||||
impl Error for UnknownTaskError {}
|
||||
impl Display for UnknownTaskError {
|
||||
impl Error for UnknownJobError {}
|
||||
impl Display for UnknownJobError {
|
||||
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
|
||||
f.write_str("Unknown task")
|
||||
f.write_str("Unknown job")
|
||||
}
|
||||
}
|
||||
|
||||
impl TaskRegistry {
|
||||
/// Construct a new task registry from the provided task list.
|
||||
pub fn new(tasks: &[&'static NamedTask]) -> Self {
|
||||
let mut task_map = HashMap::new();
|
||||
for &task in tasks {
|
||||
if task_map.insert(task.name(), task).is_some() {
|
||||
panic!("Duplicate task registered: {}", task.name());
|
||||
impl JobRegistry {
|
||||
/// Construct a new job registry from the provided job list.
|
||||
pub fn new(jobs: &[&'static NamedJob]) -> Self {
|
||||
let mut job_map = HashMap::new();
|
||||
for &job in jobs {
|
||||
if job_map.insert(job.name(), job).is_some() {
|
||||
panic!("Duplicate job registered: {}", job.name());
|
||||
}
|
||||
}
|
||||
Self {
|
||||
error_handler: Arc::new(Self::default_error_handler),
|
||||
task_map,
|
||||
job_map,
|
||||
}
|
||||
}
|
||||
|
||||
/// Set a function to be called whenever a task returns an error.
|
||||
/// Set a function to be called whenever a job returns an error.
|
||||
pub fn set_error_handler(
|
||||
&mut self,
|
||||
error_handler: impl Fn(&str, Box<dyn Error + Send + 'static>) + Send + Sync + 'static,
|
||||
|
@ -53,14 +53,14 @@ impl TaskRegistry {
|
|||
self
|
||||
}
|
||||
|
||||
/// Look-up a task by name.
|
||||
pub fn resolve_task(&self, name: &str) -> Option<&'static NamedTask> {
|
||||
self.task_map.get(name).copied()
|
||||
/// Look-up a job by name.
|
||||
pub fn resolve_job(&self, name: &str) -> Option<&'static NamedJob> {
|
||||
self.job_map.get(name).copied()
|
||||
}
|
||||
|
||||
/// The default error handler implementation, which simply logs the error.
|
||||
pub fn default_error_handler(name: &str, error: Box<dyn Error + Send + 'static>) {
|
||||
log::error!("Task {} failed: {}", name, error);
|
||||
log::error!("Job {} failed: {}", name, error);
|
||||
}
|
||||
|
||||
#[doc(hidden)]
|
||||
|
@ -77,29 +77,29 @@ impl TaskRegistry {
|
|||
});
|
||||
}
|
||||
|
||||
/// Construct a task runner from this registry and the provided connection
|
||||
/// Construct a job runner from this registry and the provided connection
|
||||
/// pool.
|
||||
pub fn runner(self, pool: &Pool<Postgres>) -> TaskRunnerOptions {
|
||||
TaskRunnerOptions::new(pool, move |current_task| {
|
||||
if let Some(task) = self.resolve_task(current_task.name()) {
|
||||
(task.run_fn.0 .0)(&self, current_task);
|
||||
pub fn runner(self, pool: &Pool<Postgres>) -> JobRunnerOptions {
|
||||
JobRunnerOptions::new(pool, move |current_job| {
|
||||
if let Some(job) = self.resolve_job(current_job.name()) {
|
||||
(job.run_fn.0 .0)(&self, current_job);
|
||||
} else {
|
||||
(self.error_handler)(current_task.name(), Box::new(UnknownTaskError))
|
||||
(self.error_handler)(current_job.name(), Box::new(UnknownJobError))
|
||||
}
|
||||
})
|
||||
}
|
||||
}
|
||||
|
||||
/// Type for a named task. Functions annotated with `#[task]` are
|
||||
/// transformed into static variables whose type is `&'static NamedTask`.
|
||||
/// Type for a named job. Functions annotated with `#[job]` are
|
||||
/// transformed into static variables whose type is `&'static NamedJob`.
|
||||
#[derive(Debug)]
|
||||
pub struct NamedTask {
|
||||
pub struct NamedJob {
|
||||
name: &'static str,
|
||||
build_fn: Opaque<BuildFn>,
|
||||
run_fn: Opaque<RunFn>,
|
||||
}
|
||||
|
||||
impl NamedTask {
|
||||
impl NamedJob {
|
||||
#[doc(hidden)]
|
||||
pub const fn new_internal(name: &'static str, build_fn: BuildFn, run_fn: RunFn) -> Self {
|
||||
Self {
|
||||
|
@ -108,21 +108,21 @@ impl NamedTask {
|
|||
run_fn: Opaque(run_fn),
|
||||
}
|
||||
}
|
||||
/// Initialize a task builder with the name and defaults of this task.
|
||||
pub fn new(&self) -> TaskBuilder<'static> {
|
||||
let mut builder = TaskBuilder::new(self.name);
|
||||
/// Initialize a job builder with the name and defaults of this job.
|
||||
pub fn new(&self) -> JobBuilder<'static> {
|
||||
let mut builder = JobBuilder::new(self.name);
|
||||
(self.build_fn.0 .0)(&mut builder);
|
||||
builder
|
||||
}
|
||||
/// Initialize a task builder with the name and defaults of this task,
|
||||
/// using the provided task ID.
|
||||
pub fn new_with_id(&self, id: Uuid) -> TaskBuilder<'static> {
|
||||
let mut builder = TaskBuilder::new_with_id(id, self.name);
|
||||
/// Initialize a job builder with the name and defaults of this job,
|
||||
/// using the provided job ID.
|
||||
pub fn new_with_id(&self, id: Uuid) -> JobBuilder<'static> {
|
||||
let mut builder = JobBuilder::new_with_id(id, self.name);
|
||||
(self.build_fn.0 .0)(&mut builder);
|
||||
builder
|
||||
}
|
||||
|
||||
/// Returns the name of this task.
|
||||
/// Returns the name of this job.
|
||||
pub const fn name(&self) -> &'static str {
|
||||
self.name
|
||||
}
|
||||
|
|
151
src/runner.rs
151
src/runner.rs
|
@ -12,27 +12,27 @@ use tokio::sync::Notify;
|
|||
use tokio::task;
|
||||
use uuid::Uuid;
|
||||
|
||||
use crate::utils::{Opaque, OwnedTask};
|
||||
use crate::utils::{Opaque, OwnedHandle};
|
||||
|
||||
/// Type used to build a task runner.
|
||||
/// Type used to build a job runner.
|
||||
#[derive(Debug, Clone)]
|
||||
pub struct TaskRunnerOptions {
|
||||
pub struct JobRunnerOptions {
|
||||
min_concurrency: usize,
|
||||
max_concurrency: usize,
|
||||
channel_names: Option<Vec<String>>,
|
||||
dispatch: Opaque<Arc<dyn Fn(CurrentTask) + Send + Sync + 'static>>,
|
||||
dispatch: Opaque<Arc<dyn Fn(CurrentJob) + Send + Sync + 'static>>,
|
||||
pool: Pool<Postgres>,
|
||||
keep_alive: bool,
|
||||
}
|
||||
|
||||
#[derive(Debug)]
|
||||
struct TaskRunner {
|
||||
options: TaskRunnerOptions,
|
||||
running_tasks: AtomicUsize,
|
||||
struct JobRunner {
|
||||
options: JobRunnerOptions,
|
||||
running_jobs: AtomicUsize,
|
||||
notify: Notify,
|
||||
}
|
||||
|
||||
/// Type used to checkpoint a running task.
|
||||
/// Type used to checkpoint a running job.
|
||||
#[derive(Debug, Clone)]
|
||||
pub struct Checkpoint<'a> {
|
||||
duration: Duration,
|
||||
|
@ -42,7 +42,7 @@ pub struct Checkpoint<'a> {
|
|||
}
|
||||
|
||||
impl<'a> Checkpoint<'a> {
|
||||
/// Construct a new checkpoint which also keeps the task alive
|
||||
/// Construct a new checkpoint which also keeps the job alive
|
||||
/// for the specified interval.
|
||||
pub fn new_keep_alive(duration: Duration) -> Self {
|
||||
Self {
|
||||
|
@ -56,7 +56,7 @@ impl<'a> Checkpoint<'a> {
|
|||
pub fn new() -> Self {
|
||||
Self::new_keep_alive(Duration::from_secs(0))
|
||||
}
|
||||
/// Add extra retries to the current task.
|
||||
/// Add extra retries to the current job.
|
||||
pub fn set_extra_retries(&mut self, extra_retries: usize) -> &mut Self {
|
||||
self.extra_retries = extra_retries;
|
||||
self
|
||||
|
@ -79,11 +79,11 @@ impl<'a> Checkpoint<'a> {
|
|||
}
|
||||
async fn execute<'b, E: sqlx::Executor<'b, Database = Postgres>>(
|
||||
&self,
|
||||
task_id: Uuid,
|
||||
job_id: Uuid,
|
||||
executor: E,
|
||||
) -> Result<(), sqlx::Error> {
|
||||
sqlx::query("SELECT mq_checkpoint($1, $2, $3, $4, $5)")
|
||||
.bind(task_id)
|
||||
.bind(job_id)
|
||||
.bind(self.duration)
|
||||
.bind(self.payload_json.as_deref())
|
||||
.bind(self.payload_bytes)
|
||||
|
@ -94,24 +94,24 @@ impl<'a> Checkpoint<'a> {
|
|||
}
|
||||
}
|
||||
|
||||
/// Handle to the currently executing task.
|
||||
/// When dropped, the task is assumed to no longer be running.
|
||||
/// To prevent the task being retried, it must be explicitly completed using
|
||||
/// Handle to the currently executing job.
|
||||
/// When dropped, the job is assumed to no longer be running.
|
||||
/// To prevent the job being retried, it must be explicitly completed using
|
||||
/// one of the `.complete_` methods.
|
||||
#[derive(Debug)]
|
||||
pub struct CurrentTask {
|
||||
pub struct CurrentJob {
|
||||
id: Uuid,
|
||||
name: String,
|
||||
payload_json: Option<String>,
|
||||
payload_bytes: Option<Vec<u8>>,
|
||||
task_runner: Arc<TaskRunner>,
|
||||
keep_alive: Option<OwnedTask>,
|
||||
job_runner: Arc<JobRunner>,
|
||||
keep_alive: Option<OwnedHandle>,
|
||||
}
|
||||
|
||||
impl CurrentTask {
|
||||
/// Returns the database pool used to receive this task.
|
||||
impl CurrentJob {
|
||||
/// Returns the database pool used to receive this job.
|
||||
pub fn pool(&self) -> &Pool<Postgres> {
|
||||
&self.task_runner.options.pool
|
||||
&self.job_runner.options.pool
|
||||
}
|
||||
async fn delete(
|
||||
&self,
|
||||
|
@ -123,8 +123,8 @@ impl CurrentTask {
|
|||
.await?;
|
||||
Ok(())
|
||||
}
|
||||
/// Complete this task and commit the provided transaction at the same time.
|
||||
/// If the transaction cannot be committed, the task will not be completed.
|
||||
/// Complete this job and commit the provided transaction at the same time.
|
||||
/// If the transaction cannot be committed, the job will not be completed.
|
||||
pub async fn complete_with_transaction(
|
||||
&mut self,
|
||||
mut tx: sqlx::Transaction<'_, Postgres>,
|
||||
|
@ -134,15 +134,15 @@ impl CurrentTask {
|
|||
self.keep_alive = None;
|
||||
Ok(())
|
||||
}
|
||||
/// Complete this task.
|
||||
/// Complete this job.
|
||||
pub async fn complete(&mut self) -> Result<(), sqlx::Error> {
|
||||
self.delete(self.pool()).await?;
|
||||
self.keep_alive = None;
|
||||
Ok(())
|
||||
}
|
||||
/// Checkpoint this task and commit the provided transaction at the same time.
|
||||
/// If the transaction cannot be committed, the task will not be checkpointed.
|
||||
/// Checkpointing allows the task payload to be replaced for the next retry.
|
||||
/// Checkpoint this job and commit the provided transaction at the same time.
|
||||
/// If the transaction cannot be committed, the job will not be checkpointed.
|
||||
/// Checkpointing allows the job payload to be replaced for the next retry.
|
||||
pub async fn checkpoint_with_transaction(
|
||||
&mut self,
|
||||
mut tx: sqlx::Transaction<'_, Postgres>,
|
||||
|
@ -152,12 +152,12 @@ impl CurrentTask {
|
|||
tx.commit().await?;
|
||||
Ok(())
|
||||
}
|
||||
/// Checkpointing allows the task payload to be replaced for the next retry.
|
||||
/// Checkpointing allows the job payload to be replaced for the next retry.
|
||||
pub async fn checkpoint(&mut self, checkpoint: &Checkpoint<'_>) -> Result<(), sqlx::Error> {
|
||||
checkpoint.execute(self.id, self.pool()).await?;
|
||||
Ok(())
|
||||
}
|
||||
/// Prevent this task from being retried for the specified interval.
|
||||
/// Prevent this job from being retried for the specified interval.
|
||||
pub async fn keep_alive(&mut self, duration: Duration) -> Result<(), sqlx::Error> {
|
||||
sqlx::query("SELECT mq_keep_alive(ARRAY[$1], $2)")
|
||||
.bind(self.id)
|
||||
|
@ -166,15 +166,15 @@ impl CurrentTask {
|
|||
.await?;
|
||||
Ok(())
|
||||
}
|
||||
/// Returns the ID of this task.
|
||||
/// Returns the ID of this job.
|
||||
pub fn id(&self) -> Uuid {
|
||||
self.id
|
||||
}
|
||||
/// Returns the name of this task.
|
||||
/// Returns the name of this job.
|
||||
pub fn name(&self) -> &str {
|
||||
&self.name
|
||||
}
|
||||
/// Extracts the JSON payload belonging to this task (if present).
|
||||
/// Extracts the JSON payload belonging to this job (if present).
|
||||
pub fn json<'a, T: Deserialize<'a>>(&'a self) -> Result<Option<T>, serde_json::Error> {
|
||||
if let Some(payload_json) = &self.payload_json {
|
||||
serde_json::from_str(payload_json).map(Some)
|
||||
|
@ -182,33 +182,30 @@ impl CurrentTask {
|
|||
Ok(None)
|
||||
}
|
||||
}
|
||||
/// Returns the raw JSON payload for this task.
|
||||
/// Returns the raw JSON payload for this job.
|
||||
pub fn raw_json(&self) -> Option<&str> {
|
||||
self.payload_json.as_deref()
|
||||
}
|
||||
/// Returns the raw binary payload for this task.
|
||||
/// Returns the raw binary payload for this job.
|
||||
pub fn raw_bytes(&self) -> Option<&[u8]> {
|
||||
self.payload_bytes.as_deref()
|
||||
}
|
||||
}
|
||||
|
||||
impl Drop for CurrentTask {
|
||||
impl Drop for CurrentJob {
|
||||
fn drop(&mut self) {
|
||||
if self
|
||||
.task_runner
|
||||
.running_tasks
|
||||
.fetch_sub(1, Ordering::SeqCst)
|
||||
== self.task_runner.options.min_concurrency
|
||||
if self.job_runner.running_jobs.fetch_sub(1, Ordering::SeqCst)
|
||||
== self.job_runner.options.min_concurrency
|
||||
{
|
||||
self.task_runner.notify.notify_one();
|
||||
self.job_runner.notify.notify_one();
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
impl TaskRunnerOptions {
|
||||
/// Begin constructing a new task runner using the specified connection pool,
|
||||
impl JobRunnerOptions {
|
||||
/// Begin constructing a new job runner using the specified connection pool,
|
||||
/// and the provided execution function.
|
||||
pub fn new<F: Fn(CurrentTask) + Send + Sync + 'static>(pool: &Pool<Postgres>, f: F) -> Self {
|
||||
pub fn new<F: Fn(CurrentJob) + Send + Sync + 'static>(pool: &Pool<Postgres>, f: F) -> Self {
|
||||
Self {
|
||||
min_concurrency: 16,
|
||||
max_concurrency: 32,
|
||||
|
@ -218,8 +215,8 @@ impl TaskRunnerOptions {
|
|||
pool: pool.clone(),
|
||||
}
|
||||
}
|
||||
/// Set the concurrency limits for this task runner. When the number of active
|
||||
/// tasks falls below the minimum, the runner will poll for more, up to the maximum.
|
||||
/// Set the concurrency limits for this job runner. When the number of active
|
||||
/// jobs falls below the minimum, the runner will poll for more, up to the maximum.
|
||||
///
|
||||
/// The difference between the min and max will dictate the maximum batch size which
|
||||
/// can be received: larger batch sizes are more efficient.
|
||||
|
@ -228,8 +225,8 @@ impl TaskRunnerOptions {
|
|||
self.max_concurrency = max_concurrency;
|
||||
self
|
||||
}
|
||||
/// Set the channel names which this task runner will subscribe to. If unspecified,
|
||||
/// the task runner will subscribe to all channels.
|
||||
/// Set the channel names which this job runner will subscribe to. If unspecified,
|
||||
/// the job runner will subscribe to all channels.
|
||||
pub fn set_channel_names<'a>(&'a mut self, channel_names: &[&str]) -> &'a mut Self {
|
||||
self.channel_names = Some(
|
||||
channel_names
|
||||
|
@ -240,33 +237,33 @@ impl TaskRunnerOptions {
|
|||
);
|
||||
self
|
||||
}
|
||||
/// Choose whether to automatically keep tasks alive whilst they're still
|
||||
/// Choose whether to automatically keep jobs alive whilst they're still
|
||||
/// running. Defaults to `true`.
|
||||
pub fn set_keep_alive(&mut self, keep_alive: bool) -> &mut Self {
|
||||
self.keep_alive = keep_alive;
|
||||
self
|
||||
}
|
||||
|
||||
/// Start the task runner in the background. The task runner will stop when the
|
||||
/// Start the job runner in the background. The job runner will stop when the
|
||||
/// returned handle is dropped.
|
||||
pub async fn run(&self) -> Result<OwnedTask, sqlx::Error> {
|
||||
pub async fn run(&self) -> Result<OwnedHandle, sqlx::Error> {
|
||||
let options = self.clone();
|
||||
let task_runner = Arc::new(TaskRunner {
|
||||
let job_runner = Arc::new(JobRunner {
|
||||
options,
|
||||
running_tasks: AtomicUsize::new(0),
|
||||
running_jobs: AtomicUsize::new(0),
|
||||
notify: Notify::new(),
|
||||
});
|
||||
let listener_task = start_listener(task_runner.clone()).await?;
|
||||
Ok(OwnedTask(task::spawn(main_loop(
|
||||
task_runner,
|
||||
let listener_task = start_listener(job_runner.clone()).await?;
|
||||
Ok(OwnedHandle(task::spawn(main_loop(
|
||||
job_runner,
|
||||
listener_task,
|
||||
))))
|
||||
}
|
||||
}
|
||||
|
||||
async fn start_listener(task_runner: Arc<TaskRunner>) -> Result<OwnedTask, sqlx::Error> {
|
||||
let mut listener = PgListener::connect_with(&task_runner.options.pool).await?;
|
||||
if let Some(channels) = &task_runner.options.channel_names {
|
||||
async fn start_listener(job_runner: Arc<JobRunner>) -> Result<OwnedHandle, sqlx::Error> {
|
||||
let mut listener = PgListener::connect_with(&job_runner.options.pool).await?;
|
||||
if let Some(channels) = &job_runner.options.channel_names {
|
||||
let names: Vec<String> = channels.iter().map(|c| format!("mq_{}", c)).collect();
|
||||
listener
|
||||
.listen_all(names.iter().map(|s| s.as_str()))
|
||||
|
@ -274,9 +271,9 @@ async fn start_listener(task_runner: Arc<TaskRunner>) -> Result<OwnedTask, sqlx:
|
|||
} else {
|
||||
listener.listen("mq").await?;
|
||||
}
|
||||
Ok(OwnedTask(task::spawn(async move {
|
||||
Ok(OwnedHandle(task::spawn(async move {
|
||||
while let Ok(_) = listener.recv().await {
|
||||
task_runner.notify.notify_one();
|
||||
job_runner.notify.notify_one();
|
||||
}
|
||||
})))
|
||||
}
|
||||
|
@ -304,12 +301,12 @@ fn to_duration(interval: PgInterval) -> Duration {
|
|||
}
|
||||
|
||||
async fn poll_and_dispatch(
|
||||
task_runner: &Arc<TaskRunner>,
|
||||
job_runner: &Arc<JobRunner>,
|
||||
batch_size: i32,
|
||||
) -> Result<Duration, sqlx::Error> {
|
||||
log::info!("Polling for messages");
|
||||
|
||||
let options = &task_runner.options;
|
||||
let options = &job_runner.options;
|
||||
let messages = sqlx::query_as::<_, PolledMessage>("SELECT * FROM mq_poll($1, $2)")
|
||||
.bind(&options.channel_names)
|
||||
.bind(batch_size)
|
||||
|
@ -350,7 +347,7 @@ async fn poll_and_dispatch(
|
|||
{
|
||||
let retry_backoff = to_duration(retry_backoff);
|
||||
let keep_alive = if options.keep_alive {
|
||||
Some(OwnedTask(task::spawn(keep_task_alive(
|
||||
Some(OwnedHandle(task::spawn(keep_job_alive(
|
||||
id,
|
||||
options.pool.clone(),
|
||||
retry_backoff,
|
||||
|
@ -358,31 +355,31 @@ async fn poll_and_dispatch(
|
|||
} else {
|
||||
None
|
||||
};
|
||||
let current_task = CurrentTask {
|
||||
let current_job = CurrentJob {
|
||||
id,
|
||||
name,
|
||||
payload_json,
|
||||
payload_bytes,
|
||||
task_runner: task_runner.clone(),
|
||||
job_runner: job_runner.clone(),
|
||||
keep_alive,
|
||||
};
|
||||
task_runner.running_tasks.fetch_add(1, Ordering::SeqCst);
|
||||
(options.dispatch)(current_task);
|
||||
job_runner.running_jobs.fetch_add(1, Ordering::SeqCst);
|
||||
(options.dispatch)(current_job);
|
||||
}
|
||||
}
|
||||
|
||||
Ok(wait_time)
|
||||
}
|
||||
|
||||
async fn main_loop(task_runner: Arc<TaskRunner>, _listener_task: OwnedTask) {
|
||||
let options = &task_runner.options;
|
||||
async fn main_loop(job_runner: Arc<JobRunner>, _listener_task: OwnedHandle) {
|
||||
let options = &job_runner.options;
|
||||
let mut failures = 0;
|
||||
loop {
|
||||
let running_tasks = task_runner.running_tasks.load(Ordering::SeqCst);
|
||||
let duration = if running_tasks < options.min_concurrency {
|
||||
let batch_size = (options.max_concurrency - running_tasks) as i32;
|
||||
let running_jobs = job_runner.running_jobs.load(Ordering::SeqCst);
|
||||
let duration = if running_jobs < options.min_concurrency {
|
||||
let batch_size = (options.max_concurrency - running_jobs) as i32;
|
||||
|
||||
match poll_and_dispatch(&task_runner, batch_size).await {
|
||||
match poll_and_dispatch(&job_runner, batch_size).await {
|
||||
Ok(duration) => {
|
||||
failures = 0;
|
||||
duration
|
||||
|
@ -398,11 +395,11 @@ async fn main_loop(task_runner: Arc<TaskRunner>, _listener_task: OwnedTask) {
|
|||
};
|
||||
|
||||
// Wait for us to be notified, or for the timeout to elapse
|
||||
let _ = tokio::time::timeout(duration, task_runner.notify.notified()).await;
|
||||
let _ = tokio::time::timeout(duration, job_runner.notify.notified()).await;
|
||||
}
|
||||
}
|
||||
|
||||
async fn keep_task_alive(id: Uuid, pool: Pool<Postgres>, mut interval: Duration) {
|
||||
async fn keep_job_alive(id: Uuid, pool: Pool<Postgres>, mut interval: Duration) {
|
||||
loop {
|
||||
tokio::time::sleep(interval / 2).await;
|
||||
interval *= 2;
|
||||
|
@ -412,7 +409,7 @@ async fn keep_task_alive(id: Uuid, pool: Pool<Postgres>, mut interval: Duration)
|
|||
.execute(&pool)
|
||||
.await
|
||||
{
|
||||
log::error!("Failed to keep task {} alive: {}", id, e);
|
||||
log::error!("Failed to keep job {} alive: {}", id, e);
|
||||
break;
|
||||
}
|
||||
}
|
||||
|
|
30
src/spawn.rs
30
src/spawn.rs
|
@ -6,9 +6,9 @@ use serde::Serialize;
|
|||
use sqlx::Postgres;
|
||||
use uuid::Uuid;
|
||||
|
||||
/// Type for building a task to send.
|
||||
/// Type for building a job to send.
|
||||
#[derive(Debug, Clone)]
|
||||
pub struct TaskBuilder<'a> {
|
||||
pub struct JobBuilder<'a> {
|
||||
id: Uuid,
|
||||
delay: Duration,
|
||||
channel_name: &'a str,
|
||||
|
@ -22,12 +22,12 @@ pub struct TaskBuilder<'a> {
|
|||
payload_bytes: Option<&'a [u8]>,
|
||||
}
|
||||
|
||||
impl<'a> TaskBuilder<'a> {
|
||||
/// Prepare to send a task with the specified name.
|
||||
impl<'a> JobBuilder<'a> {
|
||||
/// Prepare to send a job with the specified name.
|
||||
pub fn new(name: &'a str) -> Self {
|
||||
Self::new_with_id(Uuid::new_v4(), name)
|
||||
}
|
||||
/// Prepare to send a task with the specified name and ID.
|
||||
/// Prepare to send a job with the specified name and ID.
|
||||
pub fn new_with_id(id: Uuid, name: &'a str) -> Self {
|
||||
Self {
|
||||
id,
|
||||
|
@ -76,32 +76,32 @@ impl<'a> TaskBuilder<'a> {
|
|||
self.commit_interval = commit_interval;
|
||||
self
|
||||
}
|
||||
/// Set whether this task is strictly ordered with respect to other ordered
|
||||
/// task in the same channel (default false).
|
||||
/// Set whether this job is strictly ordered with respect to other ordered
|
||||
/// job in the same channel (default false).
|
||||
pub fn set_ordered(&mut self, ordered: bool) -> &mut Self {
|
||||
self.ordered = ordered;
|
||||
self
|
||||
}
|
||||
|
||||
/// Set a delay before this task is executed (default none).
|
||||
/// Set a delay before this job is executed (default none).
|
||||
pub fn set_delay(&mut self, delay: Duration) -> &mut Self {
|
||||
self.delay = delay;
|
||||
self
|
||||
}
|
||||
|
||||
/// Set a raw JSON payload for the task.
|
||||
/// Set a raw JSON payload for the job.
|
||||
pub fn set_raw_json(&mut self, raw_json: &'a str) -> &mut Self {
|
||||
self.payload_json = Some(Cow::Borrowed(raw_json));
|
||||
self
|
||||
}
|
||||
|
||||
/// Set a raw binary payload for the task.
|
||||
/// Set a raw binary payload for the job.
|
||||
pub fn set_raw_bytes(&mut self, raw_bytes: &'a [u8]) -> &mut Self {
|
||||
self.payload_bytes = Some(raw_bytes);
|
||||
self
|
||||
}
|
||||
|
||||
/// Set a JSON payload for the task.
|
||||
/// Set a JSON payload for the job.
|
||||
pub fn set_json<T: ?Sized + Serialize>(
|
||||
&mut self,
|
||||
value: &T,
|
||||
|
@ -111,7 +111,7 @@ impl<'a> TaskBuilder<'a> {
|
|||
Ok(self)
|
||||
}
|
||||
|
||||
/// Spawn the task using the given executor. This might be a connection
|
||||
/// Spawn the job using the given executor. This might be a connection
|
||||
/// pool, a connection, or a transaction.
|
||||
pub async fn spawn<'b, E: sqlx::Executor<'b, Database = Postgres>>(
|
||||
&self,
|
||||
|
@ -137,14 +137,14 @@ impl<'a> TaskBuilder<'a> {
|
|||
}
|
||||
}
|
||||
|
||||
/// Commit the specified tasks. The tasks should have been previously spawned
|
||||
/// Commit the specified jobs. The jobs should have been previously spawned
|
||||
/// with the two-phase commit option enabled.
|
||||
pub async fn commit<'b, E: sqlx::Executor<'b, Database = Postgres>>(
|
||||
executor: E,
|
||||
task_ids: &[Uuid],
|
||||
job_ids: &[Uuid],
|
||||
) -> Result<(), sqlx::Error> {
|
||||
sqlx::query("SELECT mq_commit($1)")
|
||||
.bind(task_ids)
|
||||
.bind(job_ids)
|
||||
.execute(executor)
|
||||
.await?;
|
||||
Ok(())
|
||||
|
|
|
@ -27,13 +27,13 @@ impl<T: Any> DerefMut for Opaque<T> {
|
|||
}
|
||||
}
|
||||
|
||||
/// A handle to a background task which will be automatically cancelled if
|
||||
/// A handle to a background job which will be automatically cancelled if
|
||||
/// the handle is dropped. Extract the inner join handle to prevent this
|
||||
/// behaviour.
|
||||
#[derive(Debug)]
|
||||
pub struct OwnedTask(pub JoinHandle<()>);
|
||||
pub struct OwnedHandle(pub JoinHandle<()>);
|
||||
|
||||
impl Drop for OwnedTask {
|
||||
impl Drop for OwnedHandle {
|
||||
fn drop(&mut self) {
|
||||
self.0.abort();
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue