func (l Lease) removeFrom(b backend.Backend) { key := int64ToBytes(int64(l.ID)) b.BatchTx().Lock() b.BatchTx().UnsafeDelete(leaseBucketName, key) b.BatchTx().Unlock() }
func mustSaveClusterVersionToBackend(be backend.Backend, ver *semver.Version) { ckey := backendClusterVersionKey() tx := be.BatchTx() tx.Lock() defer tx.Unlock() tx.UnsafePut(clusterBucketName, ckey, []byte(ver.String())) }
func mustCreateBackendBuckets(be backend.Backend) { tx := be.BatchTx() tx.Lock() defer tx.Unlock() tx.UnsafeCreateBucket(membersBucketName) tx.UnsafeCreateBucket(membersRemovedBuckedName) tx.UnsafeCreateBucket(clusterBucketName) }
func mustDeleteMemberFromBackend(be backend.Backend, id types.ID) { mkey := backendMemberKey(id) tx := be.BatchTx() tx.Lock() tx.UnsafeDelete(membersBucketName, mkey) tx.UnsafePut(membersRemovedBuckedName, mkey, []byte("removed")) tx.Unlock() }
func NewAuthStore(be backend.Backend) *authStore { tx := be.BatchTx() tx.Lock() tx.UnsafeCreateBucket(authBucketName) tx.Unlock() be.ForceCommit() return &authStore{ be: be, } }
func mustSaveMemberToBackend(be backend.Backend, m *Member) { mkey := backendMemberKey(m.ID) mvalue, err := json.Marshal(m) if err != nil { plog.Panicf("marshal raftAttributes should never fail: %v", err) } tx := be.BatchTx() tx.Lock() tx.UnsafePut(membersBucketName, mkey, mvalue) tx.Unlock() }
func (l Lease) persistTo(b backend.Backend) { key := int64ToBytes(int64(l.ID)) lpb := leasepb.Lease{ID: int64(l.ID), TTL: int64(l.TTL)} val, err := lpb.Marshal() if err != nil { panic("failed to marshal lease proto item") } b.BatchTx().Lock() b.BatchTx().UnsafePut(leaseBucketName, key, val) b.BatchTx().Unlock() }
func (s *store) Restore(b backend.Backend) error { s.mu.Lock() defer s.mu.Unlock() close(s.stopc) s.fifoSched.Stop() s.b = b s.kvindex = newTreeIndex() s.currentRev = revision{main: 1} s.compactMainRev = -1 s.tx = b.BatchTx() s.txnID = -1 s.fifoSched = schedule.NewFIFOScheduler() s.stopc = make(chan struct{}) return s.restore() }
func (s *store) Restore(b backend.Backend) error { s.mu.Lock() defer s.mu.Unlock() close(s.stopc) // TODO: restore without waiting for compaction routine to finish. // We need a way to notify that the store is finished using the old // backend though. s.wg.Wait() s.b = b s.kvindex = newTreeIndex() s.currentRev = revision{main: 1} s.compactMainRev = -1 s.tx = b.BatchTx() s.txnID = -1 s.stopc = make(chan struct{}) return s.restore() }
func cleanup(s KV, b backend.Backend, path string) { s.Close() b.Close() os.Remove(path) }