// Copyright 2022 Kentaro Hibino. All rights reserved. // Use of this source code is governed by a MIT license // that can be found in the LICENSE file. package asynq import ( "crypto/sha256" "fmt" "sort" "sync" "time" ) // PeriodicTaskManager manages scheduling of periodic tasks. // It syncs scheduler's entries by calling the config provider periodically. type PeriodicTaskManager struct { s *Scheduler p PeriodicTaskConfigProvider syncInterval time.Duration done chan (struct{}) wg sync.WaitGroup m map[string]string // map[hash]entryID } type PeriodicTaskManagerOpts struct { // Required: must be non nil PeriodicTaskConfigProvider PeriodicTaskConfigProvider // Required: must be non nil RedisConnOpt RedisConnOpt // Optional: scheduler options *SchedulerOpts // Optional: default is 3m SyncInterval time.Duration } const defaultSyncInterval = 3 * time.Minute // NewPeriodicTaskManager returns a new PeriodicTaskManager instance. // The given opts should specify the RedisConnOp and PeriodicTaskConfigProvider at minimum. func NewPeriodicTaskManager(opts PeriodicTaskManagerOpts) (*PeriodicTaskManager, error) { if opts.PeriodicTaskConfigProvider == nil { return nil, fmt.Errorf("PeriodicTaskConfigProvider cannot be nil") } if opts.RedisConnOpt == nil { return nil, fmt.Errorf("RedisConnOpt cannot be nil") } scheduler := NewScheduler(opts.RedisConnOpt, opts.SchedulerOpts) syncInterval := opts.SyncInterval if syncInterval == 0 { syncInterval = defaultSyncInterval } return &PeriodicTaskManager{ s: scheduler, p: opts.PeriodicTaskConfigProvider, syncInterval: syncInterval, done: make(chan struct{}), m: make(map[string]string), }, nil } // PeriodicTaskConfigProvider provides configs for periodic tasks. // GetConfigs will be called by a PeriodicTaskManager periodically to // sync the scheduler's entries with the configs returned by the provider. type PeriodicTaskConfigProvider interface { GetConfigs() ([]*PeriodicTaskConfig, error) } // PeriodicTaskConfig specifies the details of a periodic task. type PeriodicTaskConfig struct { Cronspec string // required: must be non empty string Task *Task // required: must be non nil Opts []Option // optional: can be nil } func (c *PeriodicTaskConfig) hash() string { h := sha256.New() _, _ = h.Write([]byte(c.Cronspec)) _, _ = h.Write([]byte(c.Task.Type())) h.Write(c.Task.Payload()) opts := stringifyOptions(c.Opts) sort.Strings(opts) for _, opt := range opts { _, _ = h.Write([]byte(opt)) } return fmt.Sprintf("%x", h.Sum(nil)) } func validatePeriodicTaskConfig(c *PeriodicTaskConfig) error { if c == nil { return fmt.Errorf("PeriodicTaskConfig cannot be nil") } if c.Task == nil { return fmt.Errorf("PeriodicTaskConfig.Task cannot be nil") } if c.Cronspec == "" { return fmt.Errorf("PeriodicTaskConfig.Cronspec cannot be empty") } return nil } // Start starts a scheduler and background goroutine to sync the scheduler with the configs // returned by the provider. // // Start returns any error encountered at start up time. func (mgr *PeriodicTaskManager) Start() error { if mgr.s == nil || mgr.p == nil { panic("asynq: cannot start uninitialized PeriodicTaskManager; use NewPeriodicTaskManager to initialize") } if err := mgr.initialSync(); err != nil { return fmt.Errorf("asynq: %v", err) } if err := mgr.s.Start(); err != nil { return fmt.Errorf("asynq: %v", err) } mgr.wg.Add(1) go func() { defer mgr.wg.Done() ticker := time.NewTicker(mgr.syncInterval) for { select { case <-mgr.done: mgr.s.logger.Debugf("Stopping syncer goroutine") ticker.Stop() return case <-ticker.C: mgr.sync() } } }() return nil } // Shutdown gracefully shuts down the manager. // It notifies a background syncer goroutine to stop and stops scheduler. func (mgr *PeriodicTaskManager) Shutdown() { close(mgr.done) mgr.wg.Wait() mgr.s.Shutdown() } // Run starts the manager and blocks until an os signal to exit the program is received. // Once it receives a signal, it gracefully shuts down the manager. func (mgr *PeriodicTaskManager) Run() error { if err := mgr.Start(); err != nil { return err } mgr.s.waitForSignals() mgr.Shutdown() mgr.s.logger.Debugf("PeriodicTaskManager exiting") return nil } func (mgr *PeriodicTaskManager) initialSync() error { configs, err := mgr.p.GetConfigs() if err != nil { return fmt.Errorf("initial call to GetConfigs failed: %v", err) } for _, c := range configs { if err := validatePeriodicTaskConfig(c); err != nil { return fmt.Errorf("initial call to GetConfigs contained an invalid config: %v", err) } } mgr.add(configs) return nil } func (mgr *PeriodicTaskManager) add(configs []*PeriodicTaskConfig) { for _, c := range configs { entryID, err := mgr.s.Register(c.Cronspec, c.Task, c.Opts...) if err != nil { mgr.s.logger.Errorf("Failed to register periodic task: cronspec=%q task=%q", c.Cronspec, c.Task.Type()) continue } mgr.m[c.hash()] = entryID mgr.s.logger.Infof("Successfully registered periodic task: cronspec=%q task=%q, entryID=%s", c.Cronspec, c.Task.Type(), entryID) } } func (mgr *PeriodicTaskManager) remove(removed map[string]string) { for hash, entryID := range removed { if err := mgr.s.Unregister(entryID); err != nil { mgr.s.logger.Errorf("Failed to unregister periodic task: %v", err) continue } delete(mgr.m, hash) mgr.s.logger.Infof("Successfully unregistered periodic task: entryID=%s", entryID) } } func (mgr *PeriodicTaskManager) sync() { configs, err := mgr.p.GetConfigs() if err != nil { mgr.s.logger.Errorf("Failed to get periodic task configs: %v", err) return } for _, c := range configs { if err := validatePeriodicTaskConfig(c); err != nil { mgr.s.logger.Errorf("Failed to sync: GetConfigs returned an invalid config: %v", err) return } } // Diff and only register/unregister the newly added/removed entries. removed := mgr.diffRemoved(configs) added := mgr.diffAdded(configs) mgr.remove(removed) mgr.add(added) } // diffRemoved diffs the incoming configs with the registered config and returns // a map containing hash and entryID of each config that was removed. func (mgr *PeriodicTaskManager) diffRemoved(configs []*PeriodicTaskConfig) map[string]string { newConfigs := make(map[string]string) for _, c := range configs { newConfigs[c.hash()] = "" // empty value since we don't have entryID yet } removed := make(map[string]string) for k, v := range mgr.m { // test whether existing config is present in the incoming configs if _, found := newConfigs[k]; !found { removed[k] = v } } return removed } // diffAdded diffs the incoming configs with the registered configs and returns // a list of configs that were added. func (mgr *PeriodicTaskManager) diffAdded(configs []*PeriodicTaskConfig) []*PeriodicTaskConfig { var added []*PeriodicTaskConfig for _, c := range configs { if _, found := mgr.m[c.hash()]; !found { added = append(added, c) } } return added }