Example #1
0
//
// Get the set of nodes for all the given buckets
//
func (p *ProjectorClientEnvImpl) GetNodeListForBuckets(buckets []string) (map[string]string, error) {

	logging.Debugf("ProjectorCLientEnvImpl::getNodeListForBuckets(): start")

	nodes := make(map[string]string)

	for _, bucket := range buckets {

		bucketRef, err := couchbase.GetBucket(COUCHBASE_INTERNAL_BUCKET_URL, DEFAULT_POOL_NAME, bucket)
		if err != nil {
			return nil, err
		}

		if err := bucketRef.Refresh(); err != nil {
			return nil, err
		}

		for _, node := range bucketRef.NodeAddresses() {
			// TODO: This may not work for cluster_run when all processes are run in the same node.  Need to check.
			logging.Debugf("ProjectorCLientEnvImpl::getNodeListForBuckets(): node=%v for bucket %v", node, bucket)
			nodes[node] = node
		}
	}

	return nodes, nil
}
Example #2
0
func (p *ProjectorAdmin) validateActiveVb(buckets []string, activeTimestamps []*protobuf.TsVbuuid) bool {

	for _, bucket := range buckets {
		for vb := 0; vb < NUM_VB; vb++ {
			found := false
			for _, ts := range activeTimestamps {
				if ts.GetBucket() == bucket {
					for _, ts_vb := range ts.GetVbnos() {
						if uint32(vb) == ts_vb {
							if found {
								logging.Debugf("validateActiveVb(): find duplicate active timestamp for bucket %s vb %d", bucket, vb)
								return false
							}
							found = true
						}
					}
				}
			}

			if !found {
				logging.Debugf("validateActiveVb(): Cannot find active timestamp for bucket %s vb %d", bucket, vb)
				return false
			}
		}
	}

	return true
}
Example #3
0
//
// Get the projector client for the given node
//
func (p *ProjectorStreamClientFactoryImpl) GetClientForNode(server string) ProjectorStreamClient {

	var projAddr string

	if host, port, err := net.SplitHostPort(server); err == nil {
		if common.IsIPLocal(host) {

			if port == KV_DCP_PORT {
				projAddr = LOCALHOST + ":" + PROJECTOR_PORT

			} else {
				iportProj, _ := strconv.Atoi(PROJECTOR_PORT)
				iportKV, _ := strconv.Atoi(port)
				iportKV0, _ := strconv.Atoi(KV_DCP_PORT_CLUSTER_RUN)

				//In cluster_run, port number increments by 2
				nodeNum := (iportKV - iportKV0) / 2
				p := iportProj + nodeNum
				projAddr = LOCALHOST + ":" + strconv.Itoa(p)
			}
			logging.Debugf("StreamAdmin::GetClientForNode(): Local Projector Addr: %v", projAddr)

		} else {
			projAddr = host + ":" + PROJECTOR_PORT
			logging.Debugf("StreamAdmin::GetClientForNode(): Remote Projector Addr: %v", projAddr)
		}
	}

	//create client for node's projectors
	config := common.SystemConfig.SectionConfig("manager.projectorclient.", true)
	maxvbs := common.SystemConfig["maxVbuckets"].Int()
	ap := projectorC.NewClient(HTTP_PREFIX+projAddr+"/adminport/", maxvbs, config)
	return ap
}
Example #4
0
//
// run server (as leader or follower)
//
func (s *Coordinator) runProtocol(leader string) (err error) {

	host := s.getHostUDPAddr()

	// If this host is the leader, then start the leader server.
	// Otherwise, start the followerCoordinator.
	if leader == host {
		logging.Debugf("Coordinator.runServer() : Local Coordinator %s is elected as leader. Leading ...", leader)
		s.state.setStatus(protocol.LEADING)

		// start other master services if this node is a candidate as master
		s.idxMgr.startMasterService()
		defer s.idxMgr.stopMasterService()

		err = protocol.RunLeaderServer(s.getHostTCPAddr(), s.listener, s, s, s.factory, s.skillch)
	} else {
		logging.Debugf("Coordinator.runServer() : Remote Coordinator %s is elected as leader. Following ...", leader)
		s.state.setStatus(protocol.FOLLOWING)
		leaderAddr := s.findMatchingPeerTCPAddr(leader)
		if len(leaderAddr) == 0 {
			return NewError(ERROR_COOR_ELECTION_FAIL, NORMAL, COORDINATOR, nil,
				fmt.Sprintf("Index Coordinator cannot find matching TCP addr for leader "+leader))
		}
		err = protocol.RunFollowerServer(s.getHostTCPAddr(), leaderAddr, s, s, s.factory, s.skillch)
	}

	return err
}
Example #5
0
//Calculate mutation queue length from memory quota
func (m *mutationMgr) calcQueueLenFromMemQuota() uint64 {

	memQuota := m.config["settings.memory_quota"].Uint64()
	maxVbLen := m.config["settings.maxVbQueueLength"].Uint64()
	maxVbLenDef := m.config["settings.maxVbQueueLength"].DefaultVal.(uint64)

	//if there is a user specified value, use that
	if maxVbLen != 0 {
		logging.Debugf("MutationMgr:: Set maxVbQueueLength %v", maxVbLen)
		return maxVbLen
	} else {
		//Formula for calculation(see MB-14876)
		//Below 2GB - 5000 per vbucket
		//2GB to 4GB - 8000 per vbucket
		//Above 4GB - 10000 per vbucket
		if memQuota <= 2*1024*1024*1024 {
			maxVbLen = 5000
		} else if memQuota <= 4*1024*1024*1024 {
			maxVbLen = 8000
		} else {
			maxVbLen = maxVbLenDef
		}
		logging.Debugf("MutationMgr:: Set maxVbQueueLength %v", maxVbLen)
		return maxVbLen
	}

}
Example #6
0
//
// This function computes topology changes.
//
func (s *StreamManager) handleDeleteInstances(
	streamId common.StreamId,
	bucket string,
	oldTopology *IndexTopology,
	newTopology *IndexTopology,
	fromState []common.IndexState,
	toState []common.IndexState) error {

	if oldTopology == nil || oldTopology.Version == newTopology.Version {
		return nil
	}

	var changes []*changeRecord = nil

	for _, newDefn := range newTopology.Definitions {
		if oldTopology != nil {
			oldDefn := oldTopology.FindIndexDefinition(newDefn.Bucket, newDefn.Name)
			changes = append(changes, s.addInstancesToChangeList(oldDefn, &newDefn, fromState, toState)...)
		} else {
			changes = append(changes, s.addInstancesToChangeList(nil, &newDefn, fromState, toState)...)
		}
	}

	var toBeDeleted []uint64 = nil
	for _, change := range changes {
		logging.Debugf("StreamManager.handleDeleteInstances(): adding inst '%v' to change list.", change.instance.InstId)
		toBeDeleted = append(toBeDeleted, change.instance.InstId)
	}

	logging.Debugf("StreamManager.handleDeleteInstances(): len(toBeDeleted) '%v'", len(toBeDeleted))
	return s.removeIndexInstances(streamId, bucket, toBeDeleted)
}
Example #7
0
func (s *Stream) run() {

	logging.Debugf("Stream.run(): starts")

	defer s.receiver.Close()

	for {
		select {
		case mut := <-s.mutch:

			func() {
				defer func() {
					if r := recover(); r != nil {
						logging.Debugf("panic in Stream.run() : error ignored.  Error = %v\n", r)
					}
				}()

				switch d := mut.(type) {
				case ([]*data.VbKeyVersions):
					logging.Debugf("Stream.run(): recieve VbKeyVersion")
					s.handleVbKeyVersions(d)
				case dataport.ConnectionError:
					logging.Debugf("Stream.run(): recieve ConnectionError")
					s.handler.HandleConnectionError(s.id, d)
				}
			}()

		case <-s.stopch:
			logging.Debugf("Stream.run(): stop")
			return
		}
	}
}
Example #8
0
// TODO : what to do if createIndex returns error
func (c *Coordinator) LogProposal(proposal protocol.ProposalMsg) error {

	if c.GetStatus() == protocol.LEADING {
		switch common.OpCode(proposal.GetOpCode()) {
		case OPCODE_ADD_IDX_DEFN:
			success := c.createIndex(proposal.GetKey(), proposal.GetContent())
			logging.Debugf("Coordinator.LogProposal(): (createIndex) success = %s", success)
		case OPCODE_DEL_IDX_DEFN:
			success := c.deleteIndex(proposal.GetKey())
			logging.Debugf("Coordinator.LogProposal(): (deleteIndex) success = %s", success)
		}
	}

	switch common.OpCode(proposal.GetOpCode()) {
	case OPCODE_NOTIFY_TIMESTAMP:
		timestamp, err := unmarshallTimestampSerializable(proposal.GetContent())
		if err == nil {
			c.idxMgr.notifyNewTimestamp(timestamp)
		} else {
			logging.Debugf("Coordinator.LogProposal(): error when unmarshalling timestamp. Ignore timestamp.  Error=%s", err.Error())
		}
	}

	c.updateRequestOnNewProposal(proposal)

	return nil
}
Example #9
0
//
// Start a stream for listening only.  This will not trigger the mutation source to start
// streaming mutations.   Need to call AddIndexForBucket() or AddIndexForAllBuckets()
// to kick off the mutation source to start streaming the mutations for indexes in bucket(s).
//
func (s *StreamManager) StartStream(streamId common.StreamId) error {

	s.mutex.Lock()
	defer s.mutex.Unlock()

	logging.Debugf("StreamManager.StartStream(): start")

	if s.isClosed {
		return nil
	}

	// Verify if the stream is already open.  Just an no-op.
	if stream, ok := s.streams[streamId]; ok && stream.status {
		logging.Debugf("StreamManager.StartStream(): stream %v already started", streamId)
		return nil
	}

	// Create a new stream.  This will prepare the reciever to be ready for receving mutation.
	port := getPortForStreamId(streamId)
	stream, err := newStream(streamId, port, s.handler)
	if err != nil {
		return err
	}

	err = stream.start()
	if err != nil {
		return err
	}
	logging.Debugf("StreamManager.StartStream(): stream %v started successfully on port %v", streamId, port)

	s.streams[streamId] = stream
	stream.status = true
	return nil
}
Example #10
0
//
// run election
//
func (s *Coordinator) runElection() (leader string, err error) {

	host := s.getHostUDPAddr()
	peers := s.getPeerUDPAddr()

	// Create an election site to start leader election.
	logging.Debugf("Coordinator.runElection(): Local Coordinator %s start election", host)
	logging.Debugf("Coordinator.runElection(): Peer in election")
	for _, peer := range peers {
		logging.Debugf("	peer : %s", peer)
	}

	s.site, err = protocol.CreateElectionSite(host, peers, s.factory, s, false)
	if err != nil {
		return "", err
	}

	// blocked until leader is elected. coordinator.Terminate() will unblock this.
	resultCh := s.site.StartElection()
	leader, ok := <-resultCh
	if !ok {
		return "", NewError(ERROR_COOR_ELECTION_FAIL, NORMAL, COORDINATOR, nil,
			fmt.Sprintf("Index Coordinator Election Fails"))
	}

	return leader, nil
}
Example #11
0
//
// Restore semantic:
// 1) Each index is associated with the <IndexDefnId, IndexerId>.  IndexDefnId is unique for each index defnition,
//    and IndexerId is unique among the index nodes.  Note that IndexDefnId cannot be reused.
// 2) Index defn exists for the given <IndexDefnId, IndexerId> in current repository.  No action will be applied during restore.
// 3) Index defn is deleted or missing in current repository.  Index Defn restored from backup if bucket exists.
//    - Index defn of the same <bucket, name> exists.   It will rename the index to <index name>_restore_<seqNo>
//    - Bucket does not exist.   It will restore an index defn with a non-existent bucket.
//
func (m *requestHandlerContext) handleRestoreIndexMetadataRequest(w http.ResponseWriter, r *http.Request) {

	if !doAuth(r, w, m.clusterUrl) {
		return
	}

	image := m.convertIndexMetadataRequest(r)
	if image == nil {
		send(w, &RestoreResponse{Code: RESP_ERROR, Error: "Unable to process request input"})
		return
	}

	indexerHostMap := make(map[common.IndexerId]string)
	current, err := m.getIndexMetadata(m.mgr.getServiceAddrProvider().(*common.ClusterInfoCache), indexerHostMap)
	if err != nil {
		send(w, &RestoreResponse{Code: RESP_ERROR, Error: "Unable to get the latest index metadata for restore"})
		return
	}

	context := &RestoreContext{idxToRestore: make(map[common.IndexerId][]common.IndexDefn),
		idxToResolve: make(map[common.IndexerId][]common.IndexDefn)}

	// Figure out what index to restore that has the same IndexDefnId
	for _, imeta := range image.Metadata {
		found := false
		for _, cmeta := range current.Metadata {
			if imeta.IndexerId == cmeta.IndexerId {
				m.findIndexToRestoreById(&imeta, &cmeta, context)
				found = true
			}
		}

		if !found {
			logging.Debugf("requestHandler.handleRestoreIndexMetadataRequest(): cannot find matching indexer id %s", imeta.IndexerId)
			for _, idefn := range imeta.IndexDefinitions {
				logging.Debugf("requestHandler.handleRestoreIndexMetadataRequest(): adding index definition (%v,%v) to to-be-resolve list", idefn.Bucket, idefn.Name)
				context.idxToResolve[common.IndexerId(imeta.IndexerId)] =
					append(context.idxToResolve[common.IndexerId(imeta.IndexerId)], idefn)
			}
		}
	}

	// Figure out what index to restore that has the same bucket and name
	for indexerId, idxs := range context.idxToResolve {
		for _, idx := range idxs {
			m.findIndexToRestoreByName(current, idx, indexerId, context)
		}
	}

	// recreate index
	success := m.restoreIndex(current, context, indexerHostMap)

	if success {
		send(w, &RestoreResponse{Code: RESP_SUCCESS})
		return
	}

	send(w, &RestoreResponse{Code: RESP_ERROR, Error: "Unable to restore metadata"})
}
Example #12
0
func (m *LifecycleMgr) handleDeleteBucket(bucket string, content []byte) error {

	result := error(nil)

	if len(content) == 0 {
		return errors.New("invalid argument")
	}

	streamId := common.StreamId(content[0])

	topology, err := m.repo.GetTopologyByBucket(bucket)
	if err == nil {
		/*
			// if there is an error getting the UUID, this means that
			// the node is not able to connect to pool service in order
			// to fetch the bucket UUID.   Return an error and skip.
			uuid, err := m.getBucketUUID(bucket)
			if err != nil {
				logging.Errorf("LifecycleMgr.handleDeleteBucket() : Encounter when connecting to pool service = %v", err)
				return err
			}
		*/

		// At this point, we are able to connect to pool service.  If pool
		// does not contain the bucket, then we delete all index defn in
		// the bucket.  Otherwise, delete index defn that does not have the
		// same bucket UUID.  Note that any other create index request will
		// be blocked while this call is run.
		definitions := make([]IndexDefnDistribution, len(topology.Definitions))
		copy(definitions, topology.Definitions)

		for _, defnRef := range definitions {

			if defn, err := m.repo.GetIndexDefnById(common.IndexDefnId(defnRef.DefnId)); err == nil {

				logging.Debugf("LifecycleMgr.handleDeleteBucket() : index instance: id %v, streamId %v.",
					defn.DefnId, defnRef.Instances[0].StreamId)

				// delete index defn from the bucket if bucket uuid is not specified or
				// index does *not* belong to bucket uuid
				if /* (uuid == common.BUCKET_UUID_NIL || defn.BucketUUID != uuid) && */
				streamId == common.NIL_STREAM || common.StreamId(defnRef.Instances[0].StreamId) == streamId {
					if err := m.DeleteIndex(common.IndexDefnId(defn.DefnId), false); err != nil {
						result = err
					}
				}
			} else {
				logging.Debugf("LifecycleMgr.handleDeleteBucket() : Cannot find index instance %v.  Skip.", defnRef.DefnId)
			}
		}
	} else if err != fdb.RESULT_KEY_NOT_FOUND {
		result = err
	}

	return result
}
Example #13
0
func (m *IndexManager) runTimestampKeeper() {

	defer logging.Debugf("IndexManager.runTimestampKeeper() : terminate")

	inboundch := m.timer.getOutputChannel()

	persistTimestamp := true // save the first timestamp always
	lastPersistTime := uint64(time.Now().UnixNano())

	timestamps, err := m.repo.GetStabilityTimestamps()
	if err != nil {
		// TODO : Determine timestamp not exist versus forestdb error
		logging.Errorf("IndexManager.runTimestampKeeper() : cannot get stability timestamp from repository. Create a new one.")
		timestamps = createTimestampListSerializable()
	}

	for {
		select {
		case <-m.timekeeperStopCh:
			return

		case timestamp, ok := <-inboundch:

			if !ok {
				return
			}

			gometaC.SafeRun("IndexManager.runTimestampKeeper()",
				func() {
					timestamps.addTimestamp(timestamp)
					persistTimestamp = persistTimestamp ||
						uint64(time.Now().UnixNano())-lastPersistTime > m.timestampPersistInterval
					if persistTimestamp {
						if err := m.repo.SetStabilityTimestamps(timestamps); err != nil {
							logging.Errorf("IndexManager.runTimestampKeeper() : cannot set stability timestamp into repository.")
						} else {
							logging.Debugf("IndexManager.runTimestampKeeper() : saved stability timestamp to repository")
							persistTimestamp = false
							lastPersistTime = uint64(time.Now().UnixNano())
						}
					}

					data, err := marshallTimestampSerializable(timestamp)
					if err != nil {
						logging.Debugf(
							"IndexManager.runTimestampKeeper(): error when marshalling timestamp. Ignore timestamp.  Error=%s",
							err.Error())
					} else {
						m.coordinator.NewRequest(uint32(OPCODE_NOTIFY_TIMESTAMP), "Stability Timestamp", data)
					}
				})
		}
	}
}
Example #14
0
//
// Add index instances to a specific projector node
//
func (worker *adminWorker) restartStream(timestamps []*protobuf.TsVbuuid, doneCh chan *adminWorker) {

	defer func() {
		doneCh <- worker
	}()

	logging.Debugf("adminWorker::restartStream(): start")

	// Get projector client for the particular node.  This function does not
	// return an error even if the server is an invalid host name, but subsequent
	// call to client may fail.  Also note that there is no method to close the client
	// (no need to close upon termination).
	client := worker.admin.factory.GetClientForNode(worker.server)
	if client == nil {
		logging.Debugf("adminWorker::restartStream(): no client returns from factory")
		return
	}

	// open the stream for the specific node for the set of <bucket, timestamp>
	topic := getTopicForStreamId(worker.streamId)

	retry := true
	startTime := time.Now().Unix()
	for retry {
		select {
		case <-worker.killch:
			return
		default:
			response, err := client.RestartVbuckets(topic, timestamps)
			if err == nil {
				// no error, it is successful for this node
				worker.activeTimestamps = response.GetActiveTimestamps()
				worker.err = nil
				return
			}

			timestamps, err = worker.shouldRetryRestartVbuckets(timestamps, response, err)
			if err != nil {
				// Either it is a non-recoverable error or an error that cannot be retry by this worker.
				// Terminate this worker.
				worker.activeTimestamps = response.GetActiveTimestamps()
				worker.err = err
				return
			}

			retry = time.Now().Unix()-startTime < MAX_PROJECTOR_RETRY_ELAPSED_TIME
		}
	}

	// When we reach here, it passes the elaspse time that the projector is supposed to response.
	// Projector may die or it can be a network partition, need to return an error since it may
	// require another worker to retry.
	worker.err = NewError4(ERROR_STREAM_PROJECTOR_TIMEOUT, NORMAL, STREAM, "Projector Call timeout after retry.")
}
Example #15
0
//
// Repair endpoint for a specific projector node
//
func (worker *adminWorker) repairEndpoint(endpoint string, doneCh chan *adminWorker) {

	defer func() {
		doneCh <- worker
	}()

	logging.Debugf("adminWorker::repairEndpoint(): start")

	// Get projector client for the particular node.  This function does not
	// return an error even if the server is an invalid host name, but subsequent
	// call to client may fail.  Also note that there is no method to close the client
	// (no need to close upon termination).
	client := worker.admin.factory.GetClientForNode(worker.server)
	if client == nil {
		logging.Debugf("adminWorker::repairEndpoints(): no client returns from factory")
		return
	}

	// open the stream for the specific node for the set of <bucket, timestamp>
	topic := getTopicForStreamId(worker.streamId)

	retry := true
	startTime := time.Now().Unix()
	for retry {
		select {
		case <-worker.killch:
			return
		default:

			err := client.RepairEndpoints(topic, []string{endpoint})
			if err == nil {
				// no error, it is successful for this node
				worker.err = nil
				return
			}

			logging.Debugf("adminWorker::repairEndpiont(): Error encountered when calling RepairEndpoint. Error=%v", err.Error())
			if strings.Contains(err.Error(), projectorC.ErrorTopicMissing.Error()) {
				// It is OK if topic is missing
				worker.err = nil
				return
			}

			retry = time.Now().Unix()-startTime < MAX_PROJECTOR_RETRY_ELAPSED_TIME
		}
	}

	// When we reach here, it passes the elaspse time that the projector is supposed to response.
	// Projector may die or it can be a network partition, need to return an error since it may
	// require another worker to retry.
	worker.err = NewError4(ERROR_STREAM_PROJECTOR_TIMEOUT, NORMAL, STREAM, "Projector Call timeout after retry.")
}
Example #16
0
func (w *watcher) waitForEvent(defnId c.IndexDefnId, status []c.IndexState) error {

	event := &event{defnId: defnId, status: status, notifyCh: make(chan error, 1)}
	if w.registerEvent(event) {
		logging.Debugf("watcher.waitForEvent(): wait event : id %v status %v", event.defnId, event.status)
		err, ok := <-event.notifyCh
		if ok && err != nil {
			logging.Debugf("watcher.waitForEvent(): wait arrives : id %v status %v", event.defnId, event.status)
			return err
		}
	}
	return nil
}
Example #17
0
//
// Handle delete Index request in the dictionary.  If this function
// returns true, it means deleteIndex request completes successfully.
// If this function returns false, then the result is unknown.
//
func (c *Coordinator) deleteIndex(key string) bool {

	id, err := indexDefnId(key)
	if err != nil {
		logging.Debugf("Coordinator.deleteIndex() : deleteIndex fails. Reason = %s", err.Error())
		return false
	}

	if err := c.idxMgr.getLifecycleMgr().DeleteIndex(id, true); err != nil {
		logging.Debugf("Coordinator.deleteIndex() : deleteIndex fails. Reason = %s", err.Error())
		return false
	}

	return true
}
Example #18
0
func convertResponse(r *http.Response, resp interface{}) string {

	buf := new(bytes.Buffer)
	if _, err := buf.ReadFrom(r.Body); err != nil {
		logging.Debugf("RequestHandler::convertResponse: unable to read request body, err %v", err)
		return RESP_ERROR
	}

	if err := json.Unmarshal(buf.Bytes(), resp); err != nil {
		logging.Debugf("convertResponse: unable to unmarshall response body. Buf = %s, err %v", buf, err)
		return RESP_ERROR
	}

	return RESP_SUCCESS
}
Example #19
0
func (w *watcher) processChange(op uint32, key string, content []byte) error {

	logging.Debugf("watcher.processChange(): key = %v", key)
	defer logging.Debugf("watcher.processChange(): done -> key = %v", key)

	opCode := common.OpCode(op)

	switch opCode {
	case common.OPCODE_ADD, common.OPCODE_SET:
		if isIndexDefnKey(key) {
			if len(content) == 0 {
				logging.Debugf("watcher.processChange(): content of key = %v is empty.", key)
			}

			id, err := extractDefnIdFromKey(key)
			if err != nil {
				return err
			}
			w.addDefnWithNoLock(c.IndexDefnId(id))
			if err := w.provider.repo.unmarshallAndAddDefn(content); err != nil {
				return err
			}
			w.notifyEventNoLock()

		} else if isIndexTopologyKey(key) {
			if len(content) == 0 {
				logging.Debugf("watcher.processChange(): content of key = %v is empty.", key)
			}
			if err := w.provider.repo.unmarshallAndAddInst(content); err != nil {
				return err
			}
			w.notifyEventNoLock()
		}
	case common.OPCODE_DELETE:
		if isIndexDefnKey(key) {

			id, err := extractDefnIdFromKey(key)
			if err != nil {
				return err
			}
			w.removeDefnWithNoLock(c.IndexDefnId(id))
			w.provider.repo.removeDefn(c.IndexDefnId(id))
			w.notifyEventNoLock()
		}
	}

	return nil
}
Example #20
0
func (m *mutationMgr) handleAbortPersist(cmd Message) {

	logging.Debugf("MutationMgr::handleAbortPersist %v", cmd)

	bucket := cmd.(*MsgMutMgrFlushMutationQueue).GetBucket()
	streamId := cmd.(*MsgMutMgrFlushMutationQueue).GetStreamId()

	go func() {
		m.flock.Lock()
		defer m.flock.Unlock()

		//abort the flush for given stream and bucket, if its in progress
		if bucketStopChMap, ok := m.streamFlusherStopChMap[streamId]; ok {
			if stopch, ok := bucketStopChMap[bucket]; ok {
				if stopch != nil {
					close(stopch)
				}
			}
		}
		m.supvRespch <- &MsgMutMgrFlushDone{mType: MUT_MGR_ABORT_DONE,
			bucket:   bucket,
			streamId: streamId}
	}()

	m.supvCmdch <- &MsgSuccess{}

}
Example #21
0
func (m *requestHandlerContext) restoreIndex(current *ClusterIndexMetadata,
	context *RestoreContext, indexerHostMap map[common.IndexerId]string) bool {

	indexerCountMap := make(map[common.IndexerId]int)
	for _, meta := range current.Metadata {
		indexerCountMap[common.IndexerId(meta.IndexerId)] = len(meta.IndexDefinitions)
	}

	result := true
	for indexerId, idxs := range context.idxToRestore {
		for _, defn := range idxs {
			host, ok := indexerHostMap[indexerId]
			if !ok {
				indexerId = m.findMinIndexer(indexerCountMap)
				host = indexerHostMap[indexerId]
			}

			logging.Debugf("requestHandler.restoreIndex(): restore index definition (%v,%v) on host %v", defn.Bucket, defn.Name, host)
			result = result && m.makeCreateIndexRequest(defn, host)

			indexerCountMap[indexerId] = indexerCountMap[indexerId] + 1
		}
	}

	return result
}
Example #22
0
//
// Get all deleted index instance Id's
//
func GetAllDeletedIndexInstancesId(mgr *IndexManager, buckets []string) ([]uint64, error) {

	var result []uint64 = nil

	// Get the topology from the dictionary
	for _, bucket := range buckets {
		topology, err := mgr.GetTopologyByBucket(bucket)
		if err != nil {
			// TODO: Determine if it is a real error, or just topology does not exist in dictionary
			// If there is an error, return an empty array.  This assume that the topology does not exist.
			logging.Debugf("GetAllDeletedIndexInstances(): Cannot find topology for bucket %s.  Skip.", bucket)
			continue
		}

		for _, defnRef := range topology.Definitions {
			for _, inst := range defnRef.Instances {
				if common.IndexState(inst.State) == common.INDEX_STATE_DELETED {
					result = append(result, inst.InstId)
				}
			}
		}
	}

	return result, nil
}
Example #23
0
//
// Serialize topology into a protobuf message format
//
func convertTopologyToIndexInstProtoMsg(mgr *IndexManager,
	topology *IndexTopology, port string) ([]*protobuf.Instance, error) {

	var result []*protobuf.Instance = nil

	for _, defnRef := range topology.Definitions {

		// look up the index definition from dictionary
		defn, err := mgr.GetIndexDefnById(common.IndexDefnId(defnRef.DefnId))
		if err != nil {
			logging.Debugf("convertTopologyToIndexInstProtoMsg(): Cannot find definition id = %v. Skip", defnRef.DefnId)
			continue
		}

		// Convert definition to protobuf msg
		defn_proto := convertIndexDefnToProtoMsg(defn)

		// iterate through the index inst for this defnition
		// TODO: Remove CREATED state from the if-stmt
		for _, inst := range defnRef.Instances {
			if common.IndexState(inst.State) == common.INDEX_STATE_READY ||
				common.IndexState(inst.State) == common.INDEX_STATE_INITIAL ||
				common.IndexState(inst.State) == common.INDEX_STATE_CREATED ||
				common.IndexState(inst.State) == common.INDEX_STATE_ACTIVE {
				result = append(result, convertIndexInstToProtoMsg(&inst, defn_proto, port))
			}
		}
	}

	return result, nil
}
Example #24
0
func (m *IndexManager) notifyNewTimestamp(wrapper *timestampSerializable) {

	logging.Debugf("IndexManager.notifyNewTimestamp(): receive new timestamp, notifying to listener")
	streamId := common.StreamId(wrapper.StreamId)
	timestamp, err := unmarshallTimestamp(wrapper.Timestamp)
	if err != nil {
		logging.Debugf("IndexManager.notifyNewTimestamp(): error when unmarshalling timestamp. Ignore timestamp.  Error=%s", err.Error())
	} else {
		ch, ok := m.timestampCh[streamId]
		if ok {
			if len(ch) < TIMESTAMP_NOTIFY_CH_SIZE {
				ch <- timestamp
			}
		}
	}
}
Example #25
0
func (client *Client) withRetry(fn func() error) (err error) {
	interval := client.retryInterval
	maxRetries := client.maxRetries
	for {
		err = fn()
		if err == nil {
			return err
		} else if strings.Contains(err.Error(), "connection refused") == false {
			return err
		} else if interval <= 0 { // No retry
			return err
		}
		if maxRetries > 0 { // applicable only if greater than ZERO
			maxRetries--
			if maxRetries == 0 { // maxRetry expired
				return err
			}
		}
		logging.Debugf("Retrying %q after %v mS\n", client.adminport, interval)
		time.Sleep(time.Duration(interval) * time.Millisecond)
		if client.expBackoff > 0 {
			interval *= client.expBackoff
		}
	}
}
Example #26
0
func (ss *StreamState) initBucketInStream(streamId common.StreamId,
	bucket string) {

	numVbuckets := ss.config["numVbuckets"].Int()
	ss.streamBucketHWTMap[streamId][bucket] = common.NewTsVbuuid(bucket, numVbuckets)
	ss.streamBucketInMemTsCountMap[streamId][bucket] = 0
	ss.streamBucketNewTsReqdMap[streamId][bucket] = false
	ss.streamBucketFlushInProgressTsMap[streamId][bucket] = nil
	ss.streamBucketAbortInProgressMap[streamId][bucket] = false
	ss.streamBucketTsListMap[streamId][bucket] = list.New()
	ss.streamBucketLastFlushedTsMap[streamId][bucket] = nil
	ss.streamBucketLastSnapAlignFlushedTsMap[streamId][bucket] = nil
	ss.streamBucketFlushEnabledMap[streamId][bucket] = true
	ss.streamBucketDrainEnabledMap[streamId][bucket] = true
	ss.streamBucketVbStatusMap[streamId][bucket] = NewTimestamp(numVbuckets)
	ss.streamBucketVbRefCountMap[streamId][bucket] = NewTimestamp(numVbuckets)
	ss.streamBucketRestartVbRetryMap[streamId][bucket] = NewTimestamp(numVbuckets)
	ss.streamBucketRestartVbTsMap[streamId][bucket] = nil
	ss.streamBucketRestartVbErrMap[streamId][bucket] = false
	ss.streamBucketIndexCountMap[streamId][bucket] = 0
	ss.streamBucketRepairStopCh[streamId][bucket] = nil
	ss.streamBucketTimerStopCh[streamId][bucket] = make(StopChannel)
	ss.streamBucketLastPersistTime[streamId][bucket] = time.Now()
	ss.streamBucketRestartTsMap[streamId][bucket] = nil
	ss.streamBucketLastSnapMarker[streamId][bucket] = common.NewTsVbuuid(bucket, numVbuckets)

	ss.streamBucketStatus[streamId][bucket] = STREAM_ACTIVE

	logging.Debugf("StreamState::initBucketInStream \n\tNew Bucket %v Added for "+
		"Stream %v", bucket, streamId)
}
Example #27
0
func (ss *StreamState) resetStreamState(streamId common.StreamId) {

	//delete this stream from internal maps
	delete(ss.streamBucketHWTMap, streamId)
	delete(ss.streamBucketInMemTsCountMap, streamId)
	delete(ss.streamBucketNewTsReqdMap, streamId)
	delete(ss.streamBucketTsListMap, streamId)
	delete(ss.streamBucketFlushInProgressTsMap, streamId)
	delete(ss.streamBucketAbortInProgressMap, streamId)
	delete(ss.streamBucketLastFlushedTsMap, streamId)
	delete(ss.streamBucketLastSnapAlignFlushedTsMap, streamId)
	delete(ss.streamBucketFlushEnabledMap, streamId)
	delete(ss.streamBucketDrainEnabledMap, streamId)
	delete(ss.streamBucketVbStatusMap, streamId)
	delete(ss.streamBucketVbRefCountMap, streamId)
	delete(ss.streamBucketRestartVbRetryMap, streamId)
	delete(ss.streamBucketRestartVbErrMap, streamId)
	delete(ss.streamBucketRestartVbTsMap, streamId)
	delete(ss.streamBucketIndexCountMap, streamId)
	delete(ss.streamBucketLastPersistTime, streamId)
	delete(ss.streamBucketStatus, streamId)
	delete(ss.streamBucketRestartTsMap, streamId)
	delete(ss.streamBucketLastSnapMarker, streamId)

	ss.streamStatus[streamId] = STREAM_INACTIVE

	logging.Debugf("StreamState::resetStreamState \n\tReset Stream %v State", streamId)
}
Example #28
0
//
// Initialize the maintenance stream from the current topology.
//
func (s *StreamManager) initializeMaintenanceStream() error {

	logging.Debugf("StreamManager.initializeMaintenanceStream():Start()")

	// Notify the projector to start the incremental stream
	if err := s.StartStream(common.MAINT_STREAM); err != nil {
		return err
	}

	// Get the list of buckets
	buckets, err := s.getBucketWithIndexes()
	if err != nil {
		return err
	}

	if buckets != nil {
		if err := s.AddIndexForBuckets(common.MAINT_STREAM, buckets); err != nil {
			return err
		}

		if err := s.DeleteIndexForBuckets(common.MAINT_STREAM, buckets); err != nil {
			return err
		}
	}

	return nil
}
Example #29
0
//
// Add index instances to a stream.  The list of instances can be coming from different index definitions, but the
// index definitions must be coming from the same bucket.
//
func (s *StreamManager) addIndexInstances(streamId common.StreamId, bucket string, instances []*protobuf.Instance) error {

	s.mutex.Lock()
	defer s.mutex.Unlock()

	logging.Debugf("StreamManager.addIndexInstances() bucket %v", bucket)

	if s.isClosed {
		return nil
	}

	//if stream not open, return error
	stream, ok := s.streams[streamId]
	if !ok || !stream.status {
		return NewError2(ERROR_STREAM_NOT_OPEN, STREAM)
	}

	// Start the timer before start the stream.  Once the stream comes, the timer needs to be ready.
	s.indexMgr.getTimer().start(streamId, bucket)

	// Pass the new topology to the data source
	if err := s.admin.AddIndexToStream(streamId, []string{bucket}, instances, nil); err != nil {
		return err
	}

	return nil
}
Example #30
0
//
// Start stream manager for processing topology changes
//
func (s *StreamManager) StartHandlingTopologyChange() {

	if !s.IsClosed() {
		logging.Debugf("StreamManager.StartHandlingTopologyChange(): start")
		go s.run()
	}
}