package submatview import ( "context" "fmt" "sync" "time" "github.com/hashicorp/go-hclog" "github.com/hashicorp/consul/agent/cache" "github.com/hashicorp/consul/lib/ttlcache" ) type Store struct { logger hclog.Logger lock sync.RWMutex byKey map[string]entry expiryHeap *ttlcache.ExpiryHeap } type entry struct { materializer *Materializer expiry *ttlcache.Entry stop func() // requests is the count of active requests using this entry. This entry will // remain in the store as long as this count remains > 0. requests int } func NewStore(logger hclog.Logger) *Store { return &Store{ logger: logger, byKey: make(map[string]entry), expiryHeap: ttlcache.NewExpiryHeap(), } } // Run the expiration loop until the context is cancelled. func (s *Store) Run(ctx context.Context) { for { s.lock.RLock() timer := s.expiryHeap.Next() s.lock.RUnlock() select { case <-ctx.Done(): timer.Stop() return case <-s.expiryHeap.NotifyCh: timer.Stop() continue case <-timer.Wait(): s.lock.Lock() he := timer.Entry s.expiryHeap.Remove(he.Index()) e := s.byKey[he.Key()] // Only stop the materializer if there are no active requests. if e.requests == 0 { e.stop() delete(s.byKey, he.Key()) } s.lock.Unlock() } } } // TODO: godoc type Request interface { cache.Request NewMaterializer() (*Materializer, error) Type() string } // Get a value from the store, blocking if the store has not yet seen the // req.Index value. // See agent/cache.Cache.Get for complete documentation. func (s *Store) Get(ctx context.Context, req Request) (Result, error) { info := req.CacheInfo() key, e, err := s.getEntry(req) if err != nil { return Result{}, err } defer s.releaseEntry(key) ctx, cancel := context.WithTimeout(ctx, info.Timeout) defer cancel() result, err := e.materializer.getFromView(ctx, info.MinIndex) // TODO: does context.DeadlineExceeded need to be translated into a nil error // to match the old interface? return result, err } // Notify the updateCh when there are updates to the entry identified by req. // See agent/cache.Cache.Notify for complete documentation. // // Request.CacheInfo().Timeout is ignored because it is not really relevant in // this case. Instead set a deadline on the context. func (s *Store) Notify( ctx context.Context, req Request, correlationID string, updateCh chan<- cache.UpdateEvent, ) error { info := req.CacheInfo() key, e, err := s.getEntry(req) if err != nil { return err } go func() { defer s.releaseEntry(key) index := info.MinIndex for { result, err := e.materializer.getFromView(ctx, index) switch { case ctx.Err() != nil: return case err != nil: // TODO: cache.Notify sends errors on updateCh, should this do the same? // It seems like only fetch errors would ever get sent along and eventually // logged, so sending may not provide any benefit here. s.logger.Warn("handling error in Store.Notify", "error", err, "request-type", req.Type(), "index", index) continue } index = result.Index u := cache.UpdateEvent{ CorrelationID: correlationID, Result: result.Value, Meta: cache.ResultMeta{Index: result.Index}, Err: err, } select { case updateCh <- u: case <-ctx.Done(): return } } }() return nil } // getEntry from the store, and increment the requests counter. releaseEntry // must be called when the request is finished to decrement the counter. func (s *Store) getEntry(req Request) (string, entry, error) { info := req.CacheInfo() key := makeEntryKey(req.Type(), info) s.lock.Lock() defer s.lock.Unlock() e, ok := s.byKey[key] if ok { e.requests++ s.byKey[key] = e return key, e, nil } mat, err := req.NewMaterializer() if err != nil { return "", e, err } ctx, cancel := context.WithCancel(context.Background()) go mat.Run(ctx) e = entry{ materializer: mat, stop: cancel, requests: 1, } s.byKey[key] = e return key, e, nil } // idleTTL is the duration of time an entry should remain in the Store after the // last request for that entry has been terminated. var idleTTL = 20 * time.Minute // releaseEntry decrements the request count and starts an expiry timer if the // count has reached 0. Must be called once for every call to getEntry. func (s *Store) releaseEntry(key string) { s.lock.Lock() defer s.lock.Unlock() e := s.byKey[key] e.requests-- s.byKey[key] = e if e.requests > 0 { return } if e.expiry.Index() == ttlcache.NotIndexed { e.expiry = s.expiryHeap.Add(key, idleTTL) s.byKey[key] = e return } s.expiryHeap.Update(e.expiry.Index(), idleTTL) } // makeEntryKey matches agent/cache.makeEntryKey, but may change in the future. func makeEntryKey(typ string, r cache.RequestInfo) string { return fmt.Sprintf("%s/%s/%s/%s", typ, r.Datacenter, r.Token, r.Key) }