package gocron import ( "context" "fmt" "math/rand" "sort" "sync" "time" "github.com/robfig/cron/v3" "go.uber.org/atomic" ) // Job struct stores the information necessary to run a Job type Job struct { mu *jobMutex jobFunction interval int // interval * unit between runs random // details for randomness duration time.Duration // time duration between runs unit schedulingUnit // time units, e.g. 'minutes', 'hours'... startsImmediately bool // if the Job should run upon scheduler start atTimes []time.Duration // optional time(s) at which this Job runs when interval is day startAtTime time.Time // optional time at which the Job starts error error // error related to Job lastRun time.Time // datetime of last run nextRun time.Time // datetime of next run scheduledWeekdays []time.Weekday // Specific days of the week to start on daysOfTheMonth []int // Specific days of the month to run the job tags []string // allow the user to tag Jobs with certain labels timer *time.Timer // handles running tasks at specific time cronSchedule cron.Schedule // stores the schedule when a task uses cron runWithDetails bool // when true the job is passed as the last arg of the jobFunc } type random struct { rand *rand.Rand randomizeInterval bool // whether the interval is random randomIntervalRange [2]int // random interval range } type jobFunction struct { eventListeners // additional functions to allow run 'em during job performing function interface{} // task's function parameters []interface{} // task's function parameters parametersLen int // length of the passed parameters jobName string // key of the distributed lock funcName string // the name of the function - e.g. main.func1 runConfig runConfig // configuration for how many times to run the job singletonQueue chan struct{} // queues jobs for the singleton runner to handle singletonRunnerOn *atomic.Bool // whether the runner function for singleton is running ctx context.Context // for cancellation cancel context.CancelFunc // for cancellation isRunning *atomic.Bool // whether the job func is currently being run runStartCount *atomic.Int64 // number of times the job was started runFinishCount *atomic.Int64 // number of times the job was finished singletonWg *sync.WaitGroup // used by singleton runner stopped *atomic.Bool // tracks whether the job is currently stopped jobFuncNextRun time.Time // the next time the job is scheduled to run } type eventListeners struct { onBeforeJobExecution interface{} // performs before job executing onAfterJobExecution interface{} // performs after job executing } type jobMutex struct { sync.RWMutex } func (jf *jobFunction) copy() jobFunction { cp := jobFunction{ eventListeners: jf.eventListeners, function: jf.function, parameters: nil, parametersLen: jf.parametersLen, funcName: jf.funcName, jobName: jf.jobName, runConfig: jf.runConfig, singletonQueue: jf.singletonQueue, ctx: jf.ctx, cancel: jf.cancel, isRunning: jf.isRunning, runStartCount: jf.runStartCount, runFinishCount: jf.runFinishCount, singletonWg: jf.singletonWg, singletonRunnerOn: jf.singletonRunnerOn, stopped: jf.stopped, jobFuncNextRun: jf.jobFuncNextRun, } cp.parameters = append(cp.parameters, jf.parameters...) return cp } type runConfig struct { finiteRuns bool maxRuns int mode mode } // mode is the Job's running mode type mode int8 const ( // defaultMode disable any mode defaultMode mode = iota // singletonMode switch to single job mode singletonMode ) // newJob creates a new Job with the provided interval func newJob(interval int, startImmediately bool, singletonMode bool) *Job { ctx, cancel := context.WithCancel(context.Background()) job := &Job{ mu: &jobMutex{}, interval: interval, unit: seconds, lastRun: time.Time{}, nextRun: time.Time{}, jobFunction: jobFunction{ ctx: ctx, cancel: cancel, isRunning: atomic.NewBool(false), runStartCount: atomic.NewInt64(0), runFinishCount: atomic.NewInt64(0), singletonRunnerOn: atomic.NewBool(false), stopped: atomic.NewBool(false), }, tags: []string{}, startsImmediately: startImmediately, } if singletonMode { job.SingletonMode() } return job } // Name sets the name of the current job. // // If the scheduler is running using WithDistributedLocker(), // the job name is used as the distributed lock key. func (j *Job) Name(name string) { j.mu.Lock() defer j.mu.Unlock() j.jobName = name } func (j *Job) setRandomInterval(a, b int) { j.random.rand = rand.New(rand.NewSource(time.Now().UnixNano())) // nolint j.random.randomizeInterval = true if a < b { j.random.randomIntervalRange[0] = a j.random.randomIntervalRange[1] = b + 1 } else { j.random.randomIntervalRange[0] = b j.random.randomIntervalRange[1] = a + 1 } } func (j *Job) getRandomInterval() int { randNum := j.rand.Intn(j.randomIntervalRange[1] - j.randomIntervalRange[0]) return j.randomIntervalRange[0] + randNum } func (j *Job) getInterval() int { if j.randomizeInterval { return j.getRandomInterval() } return j.interval } func (j *Job) neverRan() bool { jobLastRun := j.LastRun() return jobLastRun.IsZero() } func (j *Job) getStartsImmediately() bool { return j.startsImmediately } func (j *Job) setStartsImmediately(b bool) { j.startsImmediately = b } func (j *Job) setTimer(t *time.Timer) { j.mu.Lock() defer j.mu.Unlock() j.timer = t } func (j *Job) getFirstAtTime() time.Duration { var t time.Duration if len(j.atTimes) > 0 { t = j.atTimes[0] } return t } func (j *Job) getAtTime(lastRun time.Time) time.Duration { var r time.Duration if len(j.atTimes) == 0 { return r } if len(j.atTimes) == 1 { return j.atTimes[0] } if lastRun.IsZero() { r = j.atTimes[0] } else { for _, d := range j.atTimes { nt := time.Date(lastRun.Year(), lastRun.Month(), lastRun.Day(), 0, 0, 0, 0, lastRun.Location()).Add(d) if nt.After(lastRun) { r = d break } } } return r } func (j *Job) addAtTime(t time.Duration) { if len(j.atTimes) == 0 { j.atTimes = append(j.atTimes, t) return } exist := false index := sort.Search(len(j.atTimes), func(i int) bool { atTime := j.atTimes[i] b := atTime >= t if b { exist = atTime == t } return b }) // ignore if present if exist { return } j.atTimes = append(j.atTimes, time.Duration(0)) copy(j.atTimes[index+1:], j.atTimes[index:]) j.atTimes[index] = t } func (j *Job) getStartAtTime() time.Time { return j.startAtTime } func (j *Job) setStartAtTime(t time.Time) { j.startAtTime = t } func (j *Job) getUnit() schedulingUnit { j.mu.RLock() defer j.mu.RUnlock() return j.unit } func (j *Job) setUnit(t schedulingUnit) { j.mu.Lock() defer j.mu.Unlock() j.unit = t } func (j *Job) getDuration() time.Duration { j.mu.RLock() defer j.mu.RUnlock() return j.duration } func (j *Job) setDuration(t time.Duration) { j.mu.Lock() defer j.mu.Unlock() j.duration = t } // hasTags returns true if all tags are matched on this Job func (j *Job) hasTags(tags ...string) bool { // Build map of all Job tags for easy comparison jobTags := map[string]int{} for _, tag := range j.tags { jobTags[tag] = 0 } // Loop through required tags and if one doesn't exist, return false for _, tag := range tags { _, ok := jobTags[tag] if !ok { return false } } return true } // Error returns an error if one occurred while creating the Job. // If multiple errors occurred, they will be wrapped and can be // checked using the standard unwrap options. func (j *Job) Error() error { return j.error } // Context returns the job's context. The context controls cancellation. func (j *Job) Context() context.Context { return j.ctx } // Tag allows you to add arbitrary labels to a Job that do not // impact the functionality of the Job func (j *Job) Tag(tags ...string) { j.tags = append(j.tags, tags...) } // Untag removes a tag from a Job func (j *Job) Untag(t string) { var newTags []string for _, tag := range j.tags { if t != tag { newTags = append(newTags, tag) } } j.tags = newTags } // Tags returns the tags attached to the Job func (j *Job) Tags() []string { return j.tags } // SetEventListeners accepts two functions that will be called, one before and one after the job is run func (j *Job) SetEventListeners(onBeforeJobExecution interface{}, onAfterJobExecution interface{}) { j.eventListeners = eventListeners{ onBeforeJobExecution: onBeforeJobExecution, onAfterJobExecution: onAfterJobExecution, } } // ScheduledTime returns the time of the Job's next scheduled run func (j *Job) ScheduledTime() time.Time { j.mu.RLock() defer j.mu.RUnlock() return j.nextRun } // ScheduledAtTime returns the specific time of day the Job will run at. // If multiple times are set, the earliest time will be returned. func (j *Job) ScheduledAtTime() string { if len(j.atTimes) == 0 { return "00:00" } return fmt.Sprintf("%02d:%02d", j.getFirstAtTime()/time.Hour, (j.getFirstAtTime()%time.Hour)/time.Minute) } // ScheduledAtTimes returns the specific times of day the Job will run at func (j *Job) ScheduledAtTimes() []string { r := make([]string, len(j.atTimes)) for i, t := range j.atTimes { r[i] = fmt.Sprintf("%02d:%02d", t/time.Hour, (t%time.Hour)/time.Minute) } return r } // Weekday returns which day of the week the Job will run on and // will return an error if the Job is not scheduled weekly func (j *Job) Weekday() (time.Weekday, error) { if len(j.scheduledWeekdays) == 0 { return time.Sunday, ErrNotScheduledWeekday } return j.scheduledWeekdays[0], nil } // Weekdays returns a slice of time.Weekday that the Job will run in a week and // will return an error if the Job is not scheduled weekly func (j *Job) Weekdays() []time.Weekday { // appending on j.scheduledWeekdays may cause a side effect if len(j.scheduledWeekdays) == 0 { return []time.Weekday{time.Sunday} } return j.scheduledWeekdays } // LimitRunsTo limits the number of executions of this job to n. // Upon reaching the limit, the job is removed from the scheduler. // // Note: If a job is added to a running scheduler and this method is then used // you may see the job run more than the set limit as job is scheduled immediately // by default upon being added to the scheduler. It is recommended to use the // LimitRunsTo() func on the scheduler chain when scheduling the job. // For example: scheduler.LimitRunsTo(1).Do() func (j *Job) LimitRunsTo(n int) { j.mu.Lock() defer j.mu.Unlock() j.runConfig.finiteRuns = true j.runConfig.maxRuns = n } // SingletonMode prevents a new job from starting if the prior job has not yet // completed it's run // Note: If a job is added to a running scheduler and this method is then used // you may see the job run overrun itself as job is scheduled immediately // by default upon being added to the scheduler. It is recommended to use the // SingletonMode() func on the scheduler chain when scheduling the job. func (j *Job) SingletonMode() { j.mu.Lock() defer j.mu.Unlock() j.runConfig.mode = singletonMode j.jobFunction.singletonWg = &sync.WaitGroup{} j.jobFunction.singletonQueue = make(chan struct{}, 100) } // shouldRun evaluates if this job should run again // based on the runConfig func (j *Job) shouldRun() bool { j.mu.RLock() defer j.mu.RUnlock() return !j.runConfig.finiteRuns || j.runStartCount.Load() < int64(j.runConfig.maxRuns) } // LastRun returns the time the job was run last func (j *Job) LastRun() time.Time { j.mu.RLock() defer j.mu.RUnlock() return j.lastRun } func (j *Job) setLastRun(t time.Time) { j.lastRun = t } // NextRun returns the time the job will run next func (j *Job) NextRun() time.Time { j.mu.RLock() defer j.mu.RUnlock() return j.nextRun } func (j *Job) setNextRun(t time.Time) { j.mu.Lock() defer j.mu.Unlock() j.nextRun = t j.jobFunction.jobFuncNextRun = t } // RunCount returns the number of times the job has been started func (j *Job) RunCount() int { j.mu.Lock() defer j.mu.Unlock() return int(j.runStartCount.Load()) } // FinishedRunCount returns the number of times the job has finished running func (j *Job) FinishedRunCount() int { j.mu.Lock() defer j.mu.Unlock() return int(j.runFinishCount.Load()) } func (j *Job) stop() { j.mu.Lock() defer j.mu.Unlock() if j.timer != nil { j.timer.Stop() } if j.cancel != nil { j.cancel() j.ctx, j.cancel = context.WithCancel(context.Background()) } j.stopped.Store(true) } // IsRunning reports whether any instances of the job function are currently running func (j *Job) IsRunning() bool { return j.isRunning.Load() } // you must Lock the job before calling copy func (j *Job) copy() Job { return Job{ mu: &jobMutex{}, jobFunction: j.jobFunction, interval: j.interval, duration: j.duration, unit: j.unit, startsImmediately: j.startsImmediately, atTimes: j.atTimes, startAtTime: j.startAtTime, error: j.error, lastRun: j.lastRun, nextRun: j.nextRun, scheduledWeekdays: j.scheduledWeekdays, daysOfTheMonth: j.daysOfTheMonth, tags: j.tags, timer: j.timer, cronSchedule: j.cronSchedule, runWithDetails: j.runWithDetails, } }