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periodic_job.go
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periodic_job.go
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package river
import (
"time"
"github.com/riverqueue/river/internal/dbunique"
"github.com/riverqueue/river/internal/maintenance"
"github.com/riverqueue/river/internal/util/sliceutil"
"github.com/riverqueue/river/riverdriver"
"github.com/riverqueue/river/rivertype"
)
// PeriodicSchedule is a schedule for a periodic job. Periodic jobs should
// generally have an interval of at least 1 minute, and never less than one
// second.
type PeriodicSchedule interface {
// Next returns the next time at which the job should be run given the
// current time.
Next(current time.Time) time.Time
}
// PeriodicJobConstructor is a function that gets called each time the paired
// PeriodicSchedule is triggered.
//
// A constructor must never block. It may return nil to indicate that no job
// should be inserted.
type PeriodicJobConstructor func() (JobArgs, *InsertOpts)
// PeriodicJob is a configuration for a periodic job.
type PeriodicJob struct {
constructorFunc PeriodicJobConstructor
opts *PeriodicJobOpts
scheduleFunc PeriodicSchedule
}
// PeriodicJobOpts are options for a periodic job.
type PeriodicJobOpts struct {
// RunOnStart can be used to indicate that a periodic job should insert an
// initial job as a new scheduler is started. This can be used as a hedge
// for jobs with longer scheduled durations that may not get to expiry
// before a new scheduler is elected.
//
// RunOnStart also applies when a new periodic job is added dynamically with
// `PeriodicJobs().Add` or `PeriodicJobs().AddMany`. Jobs added this way
// with RunOnStart set to true are inserted once, then continue with their
// normal run schedule.
RunOnStart bool
}
// NewPeriodicJob returns a new PeriodicJob given a schedule and a constructor
// function.
//
// The schedule returns a time until the next time the periodic job should run.
// The helper PeriodicInterval is available for jobs that should run on simple,
// fixed intervals (e.g. every 15 minutes), and a custom schedule or third party
// cron package can be used for more complex scheduling (see the cron example).
// The constructor function is invoked each time a periodic job's schedule
// elapses, returning job arguments to insert along with optional insertion
// options.
//
// The periodic job scheduler is approximate and doesn't guarantee strong
// durability. It's started by the elected leader in a River cluster, and each
// periodic job is assigned an initial run time when that occurs. New run times
// are scheduled each time a job's target run time is reached and a new job
// inserted. However, each scheduler only retains in-memory state, so anytime a
// process quits or a new leader is elected, the whole process starts over
// without regard for the state of the last scheduler. The RunOnStart option
// can be used as a hedge to make sure that jobs with long run durations are
// guaranteed to occasionally run.
func NewPeriodicJob(scheduleFunc PeriodicSchedule, constructorFunc PeriodicJobConstructor, opts *PeriodicJobOpts) *PeriodicJob {
return &PeriodicJob{
constructorFunc: constructorFunc,
opts: opts,
scheduleFunc: scheduleFunc,
}
}
type periodicIntervalSchedule struct {
interval time.Duration
}
// PeriodicInterval returns a simple PeriodicSchedule that runs at the given
// interval.
func PeriodicInterval(interval time.Duration) PeriodicSchedule {
return &periodicIntervalSchedule{interval}
}
func (s *periodicIntervalSchedule) Next(t time.Time) time.Time {
return t.Add(s.interval)
}
// PeriodicJobBundle is a bundle of currently configured periodic jobs. It's
// made accessible through Client, where new periodic jobs can be configured,
// and only ones removed.
type PeriodicJobBundle struct {
clientConfig *Config
periodicJobEnqueuer *maintenance.PeriodicJobEnqueuer
}
func newPeriodicJobBundle(config *Config, periodicJobEnqueuer *maintenance.PeriodicJobEnqueuer) *PeriodicJobBundle {
return &PeriodicJobBundle{
clientConfig: config,
periodicJobEnqueuer: periodicJobEnqueuer,
}
}
// Adds a new periodic job to the client. The job is queued immediately if
// RunOnStart is enabled, and then scheduled normally.
//
// Returns a periodic job handle which can be used to subsequently remove the
// job if desired.
//
// Adding or removing periodic jobs has no effect unless this client is elected
// leader because only the leader enqueues periodic jobs. To make sure that a
// new periodic job is fully enabled or disabled, it should be added or removed
// from _every_ active River client across all processes.
func (b *PeriodicJobBundle) Add(periodicJob *PeriodicJob) rivertype.PeriodicJobHandle {
return b.periodicJobEnqueuer.Add(b.toInternal(periodicJob))
}
// AddMany adds many new periodic jobs to the client. The jobs are queued
// immediately if their RunOnStart is enabled, and then scheduled normally.
//
// Returns a periodic job handle which can be used to subsequently remove the
// job if desired.
//
// Adding or removing periodic jobs has no effect unless this client is elected
// leader because only the leader enqueues periodic jobs. To make sure that a
// new periodic job is fully enabled or disabled, it should be added or removed
// from _every_ active River client across all processes.
func (b *PeriodicJobBundle) AddMany(periodicJobs []*PeriodicJob) []rivertype.PeriodicJobHandle {
return b.periodicJobEnqueuer.AddMany(sliceutil.Map(periodicJobs, b.toInternal))
}
// Clear clears all periodic jobs, cancelling all scheduled runs.
//
// Adding or removing periodic jobs has no effect unless this client is elected
// leader because only the leader enqueues periodic jobs. To make sure that a
// new periodic job is fully enabled or disabled, it should be added or removed
// from _every_ active River client across all processes.
func (b *PeriodicJobBundle) Clear() {
b.periodicJobEnqueuer.Clear()
}
// Remove removes a periodic job, cancelling all scheduled runs.
//
// Requires the use of the periodic job handle that was returned when the job
// was added.
//
// Adding or removing periodic jobs has no effect unless this client is elected
// leader because only the leader enqueues periodic jobs. To make sure that a
// new periodic job is fully enabled or disabled, it should be added or removed
// from _every_ active River client across all processes.
func (b *PeriodicJobBundle) Remove(periodicJobHandle rivertype.PeriodicJobHandle) {
b.periodicJobEnqueuer.Remove(periodicJobHandle)
}
// RemoveMany removes many periodic jobs, cancelling all scheduled runs.
//
// Requires the use of the periodic job handles that were returned when the jobs
// were added.
//
// Adding or removing periodic jobs has no effect unless this client is elected
// leader because only the leader enqueues periodic jobs. To make sure that a
// new periodic job is fully enabled or disabled, it should be added or removed
// from _every_ active River client across all processes.
func (b *PeriodicJobBundle) RemoveMany(periodicJobHandles []rivertype.PeriodicJobHandle) {
b.periodicJobEnqueuer.RemoveMany(periodicJobHandles)
}
// An empty set of periodic job opts used as a default when none are specified.
var periodicJobEmptyOpts PeriodicJobOpts //nolint:gochecknoglobals
// There are two separate periodic job structs so that the top-level River
// package can expose one while still containing most periodic job logic in a
// subpackage. This function converts a top-level periodic job struct (used for
// configuration) to an internal one.
func (b *PeriodicJobBundle) toInternal(periodicJob *PeriodicJob) *maintenance.PeriodicJob {
opts := &periodicJobEmptyOpts
if periodicJob.opts != nil {
opts = periodicJob.opts
}
args, options := periodicJob.constructorFunc()
return &maintenance.PeriodicJob{
ConstructorFunc: func() (*riverdriver.JobInsertFastParams, *dbunique.UniqueOpts, error) {
return insertParamsFromConfigArgsAndOptions(&b.periodicJobEnqueuer.Archetype, b.clientConfig, args, options)
},
RunOnStart: opts.RunOnStart,
ScheduleFunc: periodicJob.scheduleFunc.Next,
}
}