// Copyright 2015 The etcd Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package mvcc import ( "sync" "time" "github.com/coreos/etcd/lease" "github.com/coreos/etcd/mvcc/backend" "github.com/coreos/etcd/mvcc/mvccpb" ) const ( // chanBufLen is the length of the buffered chan // for sending out watched events. // TODO: find a good buf value. 1024 is just a random one that // seems to be reasonable. chanBufLen = 1024 // maxWatchersPerSync is the number of watchers to sync in a single batch maxWatchersPerSync = 512 ) type watchable interface { watch(key, end []byte, startRev int64, id WatchID, ch chan<- WatchResponse, fcs ...FilterFunc) (*watcher, cancelFunc) progress(w *watcher) rev() int64 } type watchableStore struct { mu sync.Mutex *store // victims are watcher batches that were blocked on the watch channel victims []watcherBatch victimc chan struct{} // contains all unsynced watchers that needs to sync with events that have happened unsynced watcherGroup // contains all synced watchers that are in sync with the progress of the store. // The key of the map is the key that the watcher watches on. synced watcherGroup stopc chan struct{} wg sync.WaitGroup } // cancelFunc updates unsynced and synced maps when running // cancel operations. type cancelFunc func() func New(b backend.Backend, le lease.Lessor, ig ConsistentIndexGetter) ConsistentWatchableKV { return newWatchableStore(b, le, ig) } func newWatchableStore(b backend.Backend, le lease.Lessor, ig ConsistentIndexGetter) *watchableStore { s := &watchableStore{ store: NewStore(b, le, ig), victimc: make(chan struct{}, 1), unsynced: newWatcherGroup(), synced: newWatcherGroup(), stopc: make(chan struct{}), } if s.le != nil { // use this store as the deleter so revokes trigger watch events s.le.SetRangeDeleter(s) } s.wg.Add(2) go s.syncWatchersLoop() go s.syncVictimsLoop() return s } func (s *watchableStore) Put(key, value []byte, lease lease.LeaseID) (rev int64) { s.mu.Lock() defer s.mu.Unlock() rev = s.store.Put(key, value, lease) changes := s.store.getChanges() if len(changes) != 1 { plog.Panicf("unexpected len(changes) != 1 after put") } ev := mvccpb.Event{ Type: mvccpb.PUT, Kv: &changes[0], } s.notify(rev, []mvccpb.Event{ev}) return rev } func (s *watchableStore) DeleteRange(key, end []byte) (n, rev int64) { s.mu.Lock() defer s.mu.Unlock() n, rev = s.store.DeleteRange(key, end) changes := s.store.getChanges() if len(changes) != int(n) { plog.Panicf("unexpected len(changes) != n after deleteRange") } if n == 0 { return n, rev } evs := make([]mvccpb.Event, n) for i := range changes { evs[i] = mvccpb.Event{ Type: mvccpb.DELETE, Kv: &changes[i]} evs[i].Kv.ModRevision = rev } s.notify(rev, evs) return n, rev } func (s *watchableStore) TxnBegin() int64 { s.mu.Lock() return s.store.TxnBegin() } func (s *watchableStore) TxnEnd(txnID int64) error { err := s.store.TxnEnd(txnID) if err != nil { return err } changes := s.getChanges() if len(changes) == 0 { s.mu.Unlock() return nil } rev := s.store.Rev() evs := make([]mvccpb.Event, len(changes)) for i, change := range changes { switch change.CreateRevision { case 0: evs[i] = mvccpb.Event{ Type: mvccpb.DELETE, Kv: &changes[i]} evs[i].Kv.ModRevision = rev default: evs[i] = mvccpb.Event{ Type: mvccpb.PUT, Kv: &changes[i]} } } s.notify(rev, evs) s.mu.Unlock() return nil } func (s *watchableStore) Close() error { close(s.stopc) s.wg.Wait() return s.store.Close() } func (s *watchableStore) NewWatchStream() WatchStream { watchStreamGauge.Inc() return &watchStream{ watchable: s, ch: make(chan WatchResponse, chanBufLen), cancels: make(map[WatchID]cancelFunc), watchers: make(map[WatchID]*watcher), } } func (s *watchableStore) watch(key, end []byte, startRev int64, id WatchID, ch chan<- WatchResponse, fcs ...FilterFunc) (*watcher, cancelFunc) { s.mu.Lock() defer s.mu.Unlock() wa := &watcher{ key: key, end: end, minRev: startRev, id: id, ch: ch, fcs: fcs, } s.store.mu.Lock() synced := startRev > s.store.currentRev.main || startRev == 0 if synced { wa.minRev = s.store.currentRev.main + 1 if startRev > wa.minRev { wa.minRev = startRev } } s.store.mu.Unlock() if synced { s.synced.add(wa) } else { slowWatcherGauge.Inc() s.unsynced.add(wa) } watcherGauge.Inc() return wa, func() { s.cancelWatcher(wa) } } // cancelWatcher removes references of the watcher from the watchableStore func (s *watchableStore) cancelWatcher(wa *watcher) { for { s.mu.Lock() if s.unsynced.delete(wa) { slowWatcherGauge.Dec() break } else if s.synced.delete(wa) { break } else if wa.compacted { break } if !wa.victim { panic("watcher not victim but not in watch groups") } var victimBatch watcherBatch for _, wb := range s.victims { if wb[wa] != nil { victimBatch = wb break } } if victimBatch != nil { slowWatcherGauge.Dec() delete(victimBatch, wa) break } // victim being processed so not accessible; retry s.mu.Unlock() time.Sleep(time.Millisecond) } watcherGauge.Dec() s.mu.Unlock() } func (s *watchableStore) Restore(b backend.Backend) error { s.mu.Lock() defer s.mu.Unlock() err := s.store.Restore(b) if err != nil { return err } for wa := range s.synced.watchers { wa.restore = true s.unsynced.add(wa) } s.synced = newWatcherGroup() return nil } // syncWatchersLoop syncs the watcher in the unsynced map every 100ms. func (s *watchableStore) syncWatchersLoop() { defer s.wg.Done() for { s.mu.Lock() st := time.Now() lastUnsyncedWatchers := s.unsynced.size() s.syncWatchers() unsyncedWatchers := s.unsynced.size() s.mu.Unlock() syncDuration := time.Since(st) waitDuration := 100 * time.Millisecond // more work pending? if unsyncedWatchers != 0 && lastUnsyncedWatchers > unsyncedWatchers { // be fair to other store operations by yielding time taken waitDuration = syncDuration } select { case <-time.After(waitDuration): case <-s.stopc: return } } } // syncVictimsLoop tries to write precomputed watcher responses to // watchers that had a blocked watcher channel func (s *watchableStore) syncVictimsLoop() { defer s.wg.Done() for { for s.moveVictims() != 0 { // try to update all victim watchers } s.mu.Lock() isEmpty := len(s.victims) == 0 s.mu.Unlock() var tickc <-chan time.Time if !isEmpty { tickc = time.After(10 * time.Millisecond) } select { case <-tickc: case <-s.victimc: case <-s.stopc: return } } } // moveVictims tries to update watches with already pending event data func (s *watchableStore) moveVictims() (moved int) { s.mu.Lock() victims := s.victims s.victims = nil s.mu.Unlock() var newVictim watcherBatch for _, wb := range victims { // try to send responses again for w, eb := range wb { // watcher has observed the store up to, but not including, w.minRev rev := w.minRev - 1 if w.send(WatchResponse{WatchID: w.id, Events: eb.evs, Revision: rev}) { pendingEventsGauge.Add(float64(len(eb.evs))) } else { if newVictim == nil { newVictim = make(watcherBatch) } newVictim[w] = eb continue } moved++ } // assign completed victim watchers to unsync/sync s.mu.Lock() s.store.mu.Lock() curRev := s.store.currentRev.main for w, eb := range wb { if newVictim != nil && newVictim[w] != nil { // couldn't send watch response; stays victim continue } w.victim = false if eb.moreRev != 0 { w.minRev = eb.moreRev } if w.minRev <= curRev { s.unsynced.add(w) } else { slowWatcherGauge.Dec() s.synced.add(w) } } s.store.mu.Unlock() s.mu.Unlock() } if len(newVictim) > 0 { s.mu.Lock() s.victims = append(s.victims, newVictim) s.mu.Unlock() } return moved } // syncWatchers syncs unsynced watchers by: // 1. choose a set of watchers from the unsynced watcher group // 2. iterate over the set to get the minimum revision and remove compacted watchers // 3. use minimum revision to get all key-value pairs and send those events to watchers // 4. remove synced watchers in set from unsynced group and move to synced group func (s *watchableStore) syncWatchers() { if s.unsynced.size() == 0 { return } s.store.mu.Lock() defer s.store.mu.Unlock() // in order to find key-value pairs from unsynced watchers, we need to // find min revision index, and these revisions can be used to // query the backend store of key-value pairs curRev := s.store.currentRev.main compactionRev := s.store.compactMainRev wg, minRev := s.unsynced.choose(maxWatchersPerSync, curRev, compactionRev) minBytes, maxBytes := newRevBytes(), newRevBytes() revToBytes(revision{main: minRev}, minBytes) revToBytes(revision{main: curRev + 1}, maxBytes) // UnsafeRange returns keys and values. And in boltdb, keys are revisions. // values are actual key-value pairs in backend. tx := s.store.b.BatchTx() tx.Lock() revs, vs := tx.UnsafeRange(keyBucketName, minBytes, maxBytes, 0) evs := kvsToEvents(wg, revs, vs) tx.Unlock() var victims watcherBatch wb := newWatcherBatch(wg, evs) for w := range wg.watchers { w.minRev = curRev + 1 eb, ok := wb[w] if !ok { // bring un-notified watcher to synced s.synced.add(w) s.unsynced.delete(w) continue } if eb.moreRev != 0 { w.minRev = eb.moreRev } if w.send(WatchResponse{WatchID: w.id, Events: eb.evs, Revision: curRev}) { pendingEventsGauge.Add(float64(len(eb.evs))) } else { if victims == nil { victims = make(watcherBatch) } w.victim = true } if w.victim { victims[w] = eb } else { if eb.moreRev != 0 { // stay unsynced; more to read continue } s.synced.add(w) } s.unsynced.delete(w) } s.addVictim(victims) vsz := 0 for _, v := range s.victims { vsz += len(v) } slowWatcherGauge.Set(float64(s.unsynced.size() + vsz)) } // kvsToEvents gets all events for the watchers from all key-value pairs func kvsToEvents(wg *watcherGroup, revs, vals [][]byte) (evs []mvccpb.Event) { for i, v := range vals { var kv mvccpb.KeyValue if err := kv.Unmarshal(v); err != nil { plog.Panicf("cannot unmarshal event: %v", err) } if !wg.contains(string(kv.Key)) { continue } ty := mvccpb.PUT if isTombstone(revs[i]) { ty = mvccpb.DELETE // patch in mod revision so watchers won't skip kv.ModRevision = bytesToRev(revs[i]).main } evs = append(evs, mvccpb.Event{Kv: &kv, Type: ty}) } return evs } // notify notifies the fact that given event at the given rev just happened to // watchers that watch on the key of the event. func (s *watchableStore) notify(rev int64, evs []mvccpb.Event) { var victim watcherBatch for w, eb := range newWatcherBatch(&s.synced, evs) { if eb.revs != 1 { plog.Panicf("unexpected multiple revisions in notification") } if w.send(WatchResponse{WatchID: w.id, Events: eb.evs, Revision: rev}) { pendingEventsGauge.Add(float64(len(eb.evs))) } else { // move slow watcher to victims w.minRev = rev + 1 if victim == nil { victim = make(watcherBatch) } w.victim = true victim[w] = eb s.synced.delete(w) slowWatcherGauge.Inc() } } s.addVictim(victim) } func (s *watchableStore) addVictim(victim watcherBatch) { if victim == nil { return } s.victims = append(s.victims, victim) select { case s.victimc <- struct{}{}: default: } } func (s *watchableStore) rev() int64 { return s.store.Rev() } func (s *watchableStore) progress(w *watcher) { s.mu.Lock() defer s.mu.Unlock() if _, ok := s.synced.watchers[w]; ok { w.send(WatchResponse{WatchID: w.id, Revision: s.rev()}) // If the ch is full, this watcher is receiving events. // We do not need to send progress at all. } } type watcher struct { // the watcher key key []byte // end indicates the end of the range to watch. // If end is set, the watcher is on a range. end []byte // victim is set when ch is blocked and undergoing victim processing victim bool // compacted is set when the watcher is removed because of compaction compacted bool // restore is true when the watcher is being restored from leader snapshot // which means that this watcher has just been moved from "synced" to "unsynced" // watcher group, possibly with a future revision when it was first added // to the synced watcher // "unsynced" watcher revision must always be <= current revision, // except when the watcher were to be moved from "synced" watcher group restore bool // minRev is the minimum revision update the watcher will accept minRev int64 id WatchID fcs []FilterFunc // a chan to send out the watch response. // The chan might be shared with other watchers. ch chan<- WatchResponse } func (w *watcher) send(wr WatchResponse) bool { progressEvent := len(wr.Events) == 0 if len(w.fcs) != 0 { ne := make([]mvccpb.Event, 0, len(wr.Events)) for i := range wr.Events { filtered := false for _, filter := range w.fcs { if filter(wr.Events[i]) { filtered = true break } } if !filtered { ne = append(ne, wr.Events[i]) } } wr.Events = ne } // if all events are filtered out, we should send nothing. if !progressEvent && len(wr.Events) == 0 { return true } select { case w.ch <- wr: return true default: return false } }