package broker import ( "context" "github.com/seaweedfs/seaweedfs/weed/cluster" "github.com/seaweedfs/seaweedfs/weed/glog" "github.com/seaweedfs/seaweedfs/weed/mq/topic" "github.com/seaweedfs/seaweedfs/weed/pb" "github.com/seaweedfs/seaweedfs/weed/pb/master_pb" "github.com/seaweedfs/seaweedfs/weed/pb/mq_pb" "sort" "sync" ) const ( MaxPartitionCount = 1024 ) func (broker *MessageQueueBroker) FindBrokerLeader(c context.Context, request *mq_pb.FindBrokerLeaderRequest) (*mq_pb.FindBrokerLeaderResponse, error) { ret := &mq_pb.FindBrokerLeaderResponse{} err := broker.withMasterClient(false, broker.MasterClient.GetMaster(), func(client master_pb.SeaweedClient) error { resp, err := client.ListClusterNodes(context.Background(), &master_pb.ListClusterNodesRequest{ ClientType: cluster.BrokerType, FilerGroup: request.FilerGroup, }) if err != nil { return err } if len(resp.ClusterNodes) == 0 { return nil } ret.Broker = resp.ClusterNodes[0].Address return nil }) return ret, err } func (broker *MessageQueueBroker) AssignSegmentBrokers(c context.Context, request *mq_pb.AssignSegmentBrokersRequest) (*mq_pb.AssignSegmentBrokersResponse, error) { ret := &mq_pb.AssignSegmentBrokersResponse{} segment := topic.FromPbSegment(request.Segment) // check existing segment locations on filer existingBrokers, err := broker.checkSegmentOnFiler(segment) if err != nil { return ret, err } if len(existingBrokers) > 0 { // good if the segment is still on the brokers isActive, err := broker.checkSegmentsOnBrokers(segment, existingBrokers) if err != nil { return ret, err } if isActive { for _, broker := range existingBrokers { ret.Brokers = append(ret.Brokers, string(broker)) } return ret, nil } } // randomly pick up to 10 brokers, and find the ones with the lightest load selectedBrokers, err := broker.selectBrokers() if err != nil { return ret, err } // save the allocated brokers info for this segment on the filer if err := broker.saveSegmentBrokersOnFiler(segment, selectedBrokers); err != nil { return ret, err } for _, broker := range selectedBrokers { ret.Brokers = append(ret.Brokers, string(broker)) } return ret, nil } func (broker *MessageQueueBroker) CheckSegmentStatus(c context.Context, request *mq_pb.CheckSegmentStatusRequest) (*mq_pb.CheckSegmentStatusResponse, error) { ret := &mq_pb.CheckSegmentStatusResponse{} // TODO add in memory active segment return ret, nil } func (broker *MessageQueueBroker) CheckBrokerLoad(c context.Context, request *mq_pb.CheckBrokerLoadRequest) (*mq_pb.CheckBrokerLoadResponse, error) { ret := &mq_pb.CheckBrokerLoadResponse{} // TODO read broker's load return ret, nil } // FindTopicBrokers returns the brokers that are serving the topic // // 1. lock the topic // // 2. find the topic partitions on the filer // 2.1 if the topic is not found, return error // 2.2 if the request is_for_publish, create the topic // 2.2.1 if the request is_for_subscribe, return error not found // 2.2.2 if the request is_for_publish, create the topic // 2.2 if the topic is found, return the brokers // // 3. unlock the topic func (broker *MessageQueueBroker) FindTopicBrokers(c context.Context, request *mq_pb.FindTopicBrokersRequest) (*mq_pb.FindTopicBrokersResponse, error) { ret := &mq_pb.FindTopicBrokersResponse{} // lock the topic // find the topic partitions on the filer // if the topic is not found // if the request is_for_publish // create the topic // if the request is_for_subscribe // return error not found return ret, nil } // CheckTopicPartitionsStatus check the topic partitions on the broker func (broker *MessageQueueBroker) CheckTopicPartitionsStatus(c context.Context, request *mq_pb.CheckTopicPartitionsStatusRequest) (*mq_pb.CheckTopicPartitionsStatusResponse, error) { ret := &mq_pb.CheckTopicPartitionsStatusResponse{} return ret, nil } // createOrUpdateTopicPartitions creates the topic partitions on the broker // 1. check func (broker *MessageQueueBroker) createOrUpdateTopicPartitions(topic *topic.Topic, prevAssignment *mq_pb.TopicPartitionsAssignment) (err error) { // create or update each partition if prevAssignment == nil { broker.createOrUpdateTopicPartition(topic, nil) } else { for _, partitionAssignment := range prevAssignment.BrokerPartitions { broker.createOrUpdateTopicPartition(topic, partitionAssignment) } } return nil } func (broker *MessageQueueBroker) createOrUpdateTopicPartition(topic *topic.Topic, oldAssignment *mq_pb.BrokerPartitionsAssignment) (newAssignment *mq_pb.BrokerPartitionsAssignment) { shouldCreate := broker.confirmBrokerPartitionAssignment(topic, oldAssignment) if !shouldCreate { } return } func (broker *MessageQueueBroker) confirmBrokerPartitionAssignment(topic *topic.Topic, oldAssignment *mq_pb.BrokerPartitionsAssignment) (shouldCreate bool) { if oldAssignment == nil { return true } for _, b := range oldAssignment.FollowerBrokers { pb.WithBrokerGrpcClient(false, b, broker.grpcDialOption, func(client mq_pb.SeaweedMessagingClient) error { _, err := client.CheckTopicPartitionsStatus(context.Background(), &mq_pb.CheckTopicPartitionsStatusRequest{ Namespace: string(topic.Namespace), Topic: topic.Name, BrokerPartitionsAssignment: oldAssignment, ShouldCancelIfNotMatch: true, }) if err != nil { shouldCreate = true } return nil }) } return } func (broker *MessageQueueBroker) checkSegmentsOnBrokers(segment *topic.Segment, brokers []pb.ServerAddress) (active bool, err error) { var wg sync.WaitGroup for _, candidate := range brokers { wg.Add(1) go func(candidate pb.ServerAddress) { defer wg.Done() broker.withBrokerClient(false, candidate, func(client mq_pb.SeaweedMessagingClient) error { resp, checkErr := client.CheckSegmentStatus(context.Background(), &mq_pb.CheckSegmentStatusRequest{ Segment: &mq_pb.Segment{ Namespace: string(segment.Topic.Namespace), Topic: segment.Topic.Name, Id: segment.Id, }, }) if checkErr != nil { err = checkErr glog.V(0).Infof("check segment status on %s: %v", candidate, checkErr) return nil } if resp.IsActive == false { active = false } return nil }) }(candidate) } wg.Wait() return } func (broker *MessageQueueBroker) selectBrokers() (brokers []pb.ServerAddress, err error) { candidates, err := broker.selectCandidatesFromMaster(10) if err != nil { return } brokers, err = broker.pickLightestCandidates(candidates, 3) return } func (broker *MessageQueueBroker) selectCandidatesFromMaster(limit int32) (candidates []pb.ServerAddress, err error) { err = broker.withMasterClient(false, broker.MasterClient.GetMaster(), func(client master_pb.SeaweedClient) error { resp, err := client.ListClusterNodes(context.Background(), &master_pb.ListClusterNodesRequest{ ClientType: cluster.BrokerType, FilerGroup: broker.option.FilerGroup, Limit: limit, }) if err != nil { return err } if len(resp.ClusterNodes) == 0 { return nil } for _, node := range resp.ClusterNodes { candidates = append(candidates, pb.ServerAddress(node.Address)) } return nil }) return } type CandidateStatus struct { address pb.ServerAddress messageCount int64 bytesCount int64 load int64 } func (broker *MessageQueueBroker) pickLightestCandidates(candidates []pb.ServerAddress, limit int) (selected []pb.ServerAddress, err error) { if len(candidates) <= limit { return candidates, nil } candidateStatuses, err := broker.checkBrokerStatus(candidates) if err != nil { return nil, err } sort.Slice(candidateStatuses, func(i, j int) bool { return candidateStatuses[i].load < candidateStatuses[j].load }) for i, candidate := range candidateStatuses { if i >= limit { break } selected = append(selected, candidate.address) } return } func (broker *MessageQueueBroker) checkBrokerStatus(candidates []pb.ServerAddress) (candidateStatuses []*CandidateStatus, err error) { candidateStatuses = make([]*CandidateStatus, len(candidates)) var wg sync.WaitGroup for i, candidate := range candidates { wg.Add(1) go func(i int, candidate pb.ServerAddress) { defer wg.Done() err = broker.withBrokerClient(false, candidate, func(client mq_pb.SeaweedMessagingClient) error { resp, checkErr := client.CheckBrokerLoad(context.Background(), &mq_pb.CheckBrokerLoadRequest{}) if checkErr != nil { err = checkErr return err } candidateStatuses[i] = &CandidateStatus{ address: candidate, messageCount: resp.MessageCount, bytesCount: resp.BytesCount, load: resp.MessageCount + resp.BytesCount/(64*1024), } return nil }) }(i, candidate) } wg.Wait() return }