package async import ( "context" "errors" "fmt" "sync" orderedmap "github.com/wk8/go-ordered-map/v2" ) var ErrTaskOverwritten = errors.New("task overwritten") type Scheduler struct { queue *orderedmap.OrderedMap[TaskType, *taskContext] queueMutex sync.Mutex context context.Context cancelFn context.CancelFunc doNotDeleteCurrentTask bool } type ReplacementPolicy = int const ( // ReplacementPolicyCancelOld for when the task arguments might change the result ReplacementPolicyCancelOld ReplacementPolicy = iota // ReplacementPolicyIgnoreNew for when the task arguments doesn't change the result ReplacementPolicyIgnoreNew ) type TaskType struct { ID int64 Policy ReplacementPolicy } type taskFunction func(context.Context) (interface{}, error) type resultFunction func(interface{}, TaskType, error) type taskContext struct { taskType TaskType policy ReplacementPolicy taskFn taskFunction resFn resultFunction } func NewScheduler() *Scheduler { return &Scheduler{ queue: orderedmap.New[TaskType, *taskContext](), } } // Enqueue provides a queue of task types allowing only one task at a time of the corresponding type. The running task is the first one in the queue (s.queue.Oldest()) // // Schedule policy for new tasks // - pushed at the back of the queue (s.queue.PushBack()) if none of the same time already scheduled // - overwrite the queued one of the same type, depending on the policy // - In case of ReplacementPolicyIgnoreNew, the new task will be ignored // - In case of ReplacementPolicyCancelOld, the old running task will be canceled or if not yet run overwritten and the new one will be executed when its turn comes. // // The task function (taskFn) might not be executed if // - the task is ignored // - the task is overwritten. The result function (resFn) will be called with ErrTaskOverwritten // // The result function (resFn) will always be called if the task is not ignored func (s *Scheduler) Enqueue(taskType TaskType, taskFn taskFunction, resFn resultFunction) (ignored bool) { s.queueMutex.Lock() defer s.queueMutex.Unlock() taskRunning := s.queue.Len() > 0 existingTask, typeInQueue := s.queue.Get(taskType) newTask := &taskContext{ taskType: taskType, policy: taskType.Policy, taskFn: taskFn, resFn: resFn, } if taskRunning { if typeInQueue { if s.queue.Oldest().Value.taskType == taskType { // If same task type is running if existingTask.policy == ReplacementPolicyCancelOld { // If a previous task is running, cancel it if s.cancelFn != nil { s.cancelFn() s.cancelFn = nil } else { // In case of multiple tasks of the same type, the previous one is overwritten go func() { existingTask.resFn(nil, existingTask.taskType, ErrTaskOverwritten) }() } s.doNotDeleteCurrentTask = true // Add it again to refresh the order of the task s.queue.Delete(taskType) s.queue.Set(taskType, newTask) } else { ignored = true } } else { // if other task type is running // notify the queued one that it is overwritten or ignored if existingTask.policy == ReplacementPolicyCancelOld { go func() { existingTask.resFn(nil, existingTask.taskType, ErrTaskOverwritten) }() // Overwrite the queued one of the same type existingTask.taskFn = taskFn existingTask.resFn = resFn } else { ignored = true } } } else { // Policy does not matter for the fist enqueued task of a type s.queue.Set(taskType, newTask) } } else { // If no task is running add and run it. The worker will take care of scheduling new tasks added while running s.queue.Set(taskType, newTask) existingTask = newTask s.runTask(existingTask, taskFn, func(res interface{}, runningTask *taskContext, err error) { s.finishedTask(res, runningTask, resFn, err) }) } return ignored } func (s *Scheduler) runTask(tc *taskContext, taskFn taskFunction, resFn func(interface{}, *taskContext, error)) { thisContext, thisCancelFn := context.WithCancel(context.Background()) s.cancelFn = thisCancelFn s.context = thisContext go func() { res, err := taskFn(thisContext) // Release context resources thisCancelFn() if errors.Is(err, context.Canceled) { resFn(res, tc, fmt.Errorf("task canceled: %w", err)) } else { resFn(res, tc, err) } }() } // finishedTask is the only one that can remove a task from the queue // if the current running task completed (doNotDeleteCurrentTask is true) func (s *Scheduler) finishedTask(finishedRes interface{}, doneTask *taskContext, finishedResFn resultFunction, finishedErr error) { s.queueMutex.Lock() // We always have a running task current := s.queue.Oldest() // Delete current task if not overwritten if s.doNotDeleteCurrentTask { s.doNotDeleteCurrentTask = false } else { s.queue.Delete(current.Value.taskType) } // Run next task if pair := s.queue.Oldest(); pair != nil { nextTask := pair.Value s.runTask(nextTask, nextTask.taskFn, func(res interface{}, runningTask *taskContext, err error) { s.finishedTask(res, runningTask, runningTask.resFn, err) }) } else { s.cancelFn = nil } s.queueMutex.Unlock() // Report result finishedResFn(finishedRes, doneTask.taskType, finishedErr) } func (s *Scheduler) Stop() { s.queueMutex.Lock() defer s.queueMutex.Unlock() if s.cancelFn != nil { s.cancelFn() s.cancelFn = nil } // Empty the queue so the running task will not be restarted for pair := s.queue.Oldest(); pair != nil; pair = pair.Next() { // Notify the queued one that they are canceled if pair.Value.policy == ReplacementPolicyCancelOld { go func(val *taskContext) { val.resFn(nil, val.taskType, context.Canceled) }(pair.Value) } s.queue.Delete(pair.Value.taskType) } }