package sub_coordinator import ( cmap "github.com/orcaman/concurrent-map/v2" "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/mq_pb" "time" ) type ConsumerGroupInstance struct { InstanceId string // the consumer group instance may not have an active partition Partitions []*topic.Partition ResponseChan chan *mq_pb.SubscriberToSubCoordinatorResponse MaxPartitionCount int32 } type ConsumerGroup struct { topic topic.Topic // map a consumer group instance id to a consumer group instance ConsumerGroupInstances cmap.ConcurrentMap[string, *ConsumerGroupInstance] mapping *PartitionConsumerMapping reBalanceTimer *time.Timer pubBalancer *pub_balancer.Balancer filerClientAccessor *FilerClientAccessor } func NewConsumerGroup(t *mq_pb.Topic, pubBalancer *pub_balancer.Balancer, filerClientAccessor *FilerClientAccessor) *ConsumerGroup { return &ConsumerGroup{ topic: topic.FromPbTopic(t), ConsumerGroupInstances: cmap.New[*ConsumerGroupInstance](), mapping: NewPartitionConsumerMapping(pub_balancer.MaxPartitionCount), pubBalancer: pubBalancer, filerClientAccessor: filerClientAccessor, } } func NewConsumerGroupInstance(instanceId string) *ConsumerGroupInstance { return &ConsumerGroupInstance{ InstanceId: instanceId, ResponseChan: make(chan *mq_pb.SubscriberToSubCoordinatorResponse, 1), } } func (cg *ConsumerGroup) OnAddConsumerGroupInstance(consumerGroupInstance string, topic *mq_pb.Topic) { cg.onConsumerGroupInstanceChange("add consumer instance " + consumerGroupInstance) } func (cg *ConsumerGroup) OnRemoveConsumerGroupInstance(consumerGroupInstance string, topic *mq_pb.Topic) { cg.onConsumerGroupInstanceChange("remove consumer instance " + consumerGroupInstance) } func (cg *ConsumerGroup) onConsumerGroupInstanceChange(reason string) { if cg.reBalanceTimer != nil { cg.reBalanceTimer.Stop() cg.reBalanceTimer = nil } cg.reBalanceTimer = time.AfterFunc(5*time.Second, func() { cg.BalanceConsumerGroupInstances(nil, reason) cg.reBalanceTimer = nil }) } func (cg *ConsumerGroup) OnPartitionListChange(assignments []*mq_pb.BrokerPartitionAssignment) { if cg.reBalanceTimer != nil { cg.reBalanceTimer.Stop() cg.reBalanceTimer = nil } partitionSlotToBrokerList := pub_balancer.NewPartitionSlotToBrokerList(pub_balancer.MaxPartitionCount) for _, assignment := range assignments { partitionSlotToBrokerList.AddBroker(assignment.Partition, assignment.LeaderBroker) } cg.BalanceConsumerGroupInstances(partitionSlotToBrokerList, "partition list change") } func (cg *ConsumerGroup) BalanceConsumerGroupInstances(knownPartitionSlotToBrokerList *pub_balancer.PartitionSlotToBrokerList, reason string) { glog.V(0).Infof("rebalance consumer group %s due to %s", cg.topic.String(), reason) // collect current topic partitions partitionSlotToBrokerList := knownPartitionSlotToBrokerList if partitionSlotToBrokerList == nil { if conf, err := cg.filerClientAccessor.ReadTopicConfFromFiler(cg.topic); err == nil { partitionSlotToBrokerList = pub_balancer.NewPartitionSlotToBrokerList(pub_balancer.MaxPartitionCount) for _, assignment := range conf.BrokerPartitionAssignments { partitionSlotToBrokerList.AddBroker(assignment.Partition, assignment.LeaderBroker) } } else { glog.V(0).Infof("fail to read topic conf from filer: %v", err) return } } // collect current consumer group instance ids var consumerInstances []*ConsumerGroupInstance for _, consumerGroupInstance := range cg.ConsumerGroupInstances.Items() { consumerInstances = append(consumerInstances, consumerGroupInstance) } cg.mapping.BalanceToConsumerInstances(partitionSlotToBrokerList, consumerInstances) // convert cg.mapping currentMapping to map of consumer group instance id to partition slots consumerInstanceToPartitionSlots := make(map[string][]*PartitionSlotToConsumerInstance) for _, partitionSlot := range cg.mapping.currentMapping.PartitionSlots { consumerInstanceToPartitionSlots[partitionSlot.AssignedInstanceId] = append(consumerInstanceToPartitionSlots[partitionSlot.AssignedInstanceId], partitionSlot) } // notify consumer group instances for _, consumerGroupInstance := range cg.ConsumerGroupInstances.Items() { partitionSlots, found := consumerInstanceToPartitionSlots[consumerGroupInstance.InstanceId] if !found { partitionSlots = make([]*PartitionSlotToConsumerInstance, 0) } consumerGroupInstance.Partitions = ToPartitions(partitionSlotToBrokerList.RingSize, partitionSlots) assignedPartitions := make([]*mq_pb.BrokerPartitionAssignment, len(partitionSlots)) for i, partitionSlot := range partitionSlots { assignedPartitions[i] = &mq_pb.BrokerPartitionAssignment{ Partition: &mq_pb.Partition{ RangeStop: partitionSlot.RangeStop, RangeStart: partitionSlot.RangeStart, RingSize: partitionSlotToBrokerList.RingSize, UnixTimeNs: partitionSlot.UnixTimeNs, }, LeaderBroker: partitionSlot.Broker, } } response := &mq_pb.SubscriberToSubCoordinatorResponse{ Message: &mq_pb.SubscriberToSubCoordinatorResponse_Assignment_{ Assignment: &mq_pb.SubscriberToSubCoordinatorResponse_Assignment{ PartitionAssignments: assignedPartitions, }, }, } consumerGroupInstance.ResponseChan <- response } }