River is a robust high-performance job processing system for Go and Postgres.
See homepage, docs, and godoc.
Being built for Postgres, River encourages the use of the same database for application data and job queue. By enqueueing jobs transactionally along with other database changes, whole classes of distributed systems problems are avoided. Jobs are guaranteed to be enqueued if their transaction commits, are removed if their transaction rolls back, and aren't visible for work until commit. See transactional enqueueing for more background on this philosophy.
Jobs are defined in struct pairs, with an implementation of JobArgs
and one
of Worker
.
Job args contain json
annotations and define how jobs are serialized to and
from the database, along with a "kind", a stable string that uniquely identifies
the job.
type SortArgs struct {
// Strings is a slice of strings to sort.
Strings []string `json:"strings"`
}
func (SortArgs) Kind() string { return "sort" }
Workers expose a Work
function that dictates how jobs run.
type SortWorker struct {
// An embedded WorkerDefaults sets up default methods to fulfill the rest of
// the Worker interface:
river.WorkerDefaults[SortArgs]
}
func (w *SortWorker) Work(ctx context.Context, job *river.Job[SortArgs]) error {
sort.Strings(job.Args.Strings)
fmt.Printf("Sorted strings: %+v\n", job.Args.Strings)
return nil
}
Jobs are uniquely identified by their "kind" string. Workers are registered on start up so that River knows how to assign jobs to workers:
workers := river.NewWorkers()
// AddWorker panics if the worker is already registered or invalid:
river.AddWorker(workers, &SortWorker{})
A River Client
provides an interface for job insertion and manages job
processing and maintenance services. A client's created with a database pool,
driver, and config struct containing a Workers
bundle and other settings.
Here's a client Client
working one queue ("default"
) with up to 100 worker
goroutines at a time:
riverClient, err := river.NewClient(riverpgxv5.New(dbPool), &river.Config{
Queues: map[string]river.QueueConfig{
river.DefaultQueue: {MaxWorkers: 100},
},
Workers: workers,
})
if err != nil {
panic(err)
}
// Run the client inline. All executed jobs will inherit from ctx:
if err := riverClient.Start(ctx); err != nil {
panic(err)
}
The client should also be stopped on program shutdown:
// Stop fetching new work and wait for active jobs to finish.
if err := riverClient.Stop(ctx); err != nil {
panic(err)
}
There are some complexities around ensuring clients stop cleanly, but also in a timely manner. See graceful shutdown for more details on River's stop modes.
Client.InsertTx
is used in conjunction with an instance of job args to
insert a job to work on a transaction:
_, err = riverClient.InsertTx(ctx, tx, SortArgs{
Strings: []string{
"whale", "tiger", "bear",
},
}, nil)
if err != nil {
panic(err)
}
See the InsertAndWork
example for complete code.
-
Batch job insertion for efficiently inserting many jobs at once using Postgres
COPY FROM
. -
Cancelling jobs from inside a work function.
-
Scheduled jobs that run automatically at their scheduled time in the future.
-
Snoozing jobs from inside a work function.
-
Subscriptions to queue activity and statistics, providing easy hooks for telemetry like logging and metrics.
-
Transactional job completion to guarantee job completion commits with other changes in a transaction.
-
Unique jobs by args, period, queue, and state.
-
Work functions for simplified worker implementation.
See developing River.
River was in large part inspired by our experiences with other background job libaries over the years, most notably:
Thank you for driving the software ecosystem forward.