package broker import ( "context" "fmt" "github.com/seaweedfs/seaweedfs/weed/glog" "github.com/seaweedfs/seaweedfs/weed/mq/pub_balancer" "github.com/seaweedfs/seaweedfs/weed/mq/topic" "github.com/seaweedfs/seaweedfs/weed/pb" "github.com/seaweedfs/seaweedfs/weed/pb/mq_pb" "sync" ) // AssignTopicPartitions Runs on the assigned broker, to execute the topic partition assignment func (b *MessageQueueBroker) AssignTopicPartitions(c context.Context, request *mq_pb.AssignTopicPartitionsRequest) (*mq_pb.AssignTopicPartitionsResponse, error) { ret := &mq_pb.AssignTopicPartitionsResponse{} // drain existing topic partition subscriptions for _, assignment := range request.BrokerPartitionAssignments { t := topic.FromPbTopic(request.Topic) partition := topic.FromPbPartition(assignment.Partition) b.accessLock.Lock() if request.IsDraining { // TODO drain existing topic partition subscriptions b.localTopicManager.RemoveLocalPartition(t, partition) } else { var localPartition *topic.LocalPartition if localPartition = b.localTopicManager.GetLocalPartition(t, partition); localPartition == nil { localPartition = topic.NewLocalPartition(partition, b.genLogFlushFunc(t, assignment.Partition), b.genLogOnDiskReadFunc(t, assignment.Partition)) b.localTopicManager.AddLocalPartition(t, localPartition) } } b.accessLock.Unlock() } // if is leader, notify the followers to drain existing topic partition subscriptions if request.IsLeader { for _, brokerPartition := range request.BrokerPartitionAssignments { for _, follower := range brokerPartition.FollowerBrokers { err := pb.WithBrokerGrpcClient(false, follower, b.grpcDialOption, func(client mq_pb.SeaweedMessagingClient) error { _, err := client.AssignTopicPartitions(context.Background(), request) return err }) if err != nil { return ret, err } } } } glog.V(0).Infof("AssignTopicPartitions: topic %s partition assignments: %v", request.Topic, request.BrokerPartitionAssignments) return ret, nil } // called by broker leader to drain existing partitions. // new/updated partitions will be detected by broker from the filer func (b *MessageQueueBroker) assignTopicPartitionsToBrokers(ctx context.Context, t *mq_pb.Topic, assignments []*mq_pb.BrokerPartitionAssignment, isAdd bool) error { // notify the brokers to create the topic partitions in parallel var wg sync.WaitGroup for _, bpa := range assignments { wg.Add(1) go func(bpa *mq_pb.BrokerPartitionAssignment) { defer wg.Done() if doCreateErr := b.withBrokerClient(false, pb.ServerAddress(bpa.LeaderBroker), func(client mq_pb.SeaweedMessagingClient) error { _, doCreateErr := client.AssignTopicPartitions(ctx, &mq_pb.AssignTopicPartitionsRequest{ Topic: t, BrokerPartitionAssignments: []*mq_pb.BrokerPartitionAssignment{ { Partition: bpa.Partition, }, }, IsLeader: true, IsDraining: !isAdd, }) if doCreateErr != nil { if !isAdd { return fmt.Errorf("drain topic %s %v on %s: %v", t, bpa.LeaderBroker, bpa.Partition, doCreateErr) } else { return fmt.Errorf("create topic %s %v on %s: %v", t, bpa.LeaderBroker, bpa.Partition, doCreateErr) } } brokerStats, found := b.Balancer.Brokers.Get(bpa.LeaderBroker) if !found { brokerStats = pub_balancer.NewBrokerStats() if !b.Balancer.Brokers.SetIfAbsent(bpa.LeaderBroker, brokerStats) { brokerStats, _ = b.Balancer.Brokers.Get(bpa.LeaderBroker) } } brokerStats.RegisterAssignment(t, bpa.Partition, isAdd) return nil }); doCreateErr != nil { glog.Errorf("create topic %s partition %+v on %s: %v", t, bpa.Partition, bpa.LeaderBroker, doCreateErr) } }(bpa) } wg.Wait() return nil }