package sub_coordinator import ( cmap "github.com/orcaman/concurrent-map/v2" "github.com/seaweedfs/seaweedfs/weed/mq/pub_balancer" "github.com/seaweedfs/seaweedfs/weed/pb/mq_pb" ) type TopicConsumerGroups struct { // map a consumer group name to a consumer group ConsumerGroups cmap.ConcurrentMap[string, *ConsumerGroup] } // Coordinator coordinates the instances in the consumer group for one topic. // It is responsible for: // 1. (Maybe) assigning partitions when a consumer instance is up/down. type Coordinator struct { // map topic name to consumer groups TopicSubscribers cmap.ConcurrentMap[string, *TopicConsumerGroups] balancer *pub_balancer.Balancer } func NewCoordinator(balancer *pub_balancer.Balancer) *Coordinator { return &Coordinator{ TopicSubscribers: cmap.New[*TopicConsumerGroups](), balancer: balancer, } } func (c *Coordinator) GetTopicConsumerGroups(topic *mq_pb.Topic, createIfMissing bool) *TopicConsumerGroups { topicName := toTopicName(topic) tcg, _ := c.TopicSubscribers.Get(topicName) if tcg == nil && createIfMissing { tcg = &TopicConsumerGroups{ ConsumerGroups: cmap.New[*ConsumerGroup](), } if !c.TopicSubscribers.SetIfAbsent(topicName, tcg) { tcg, _ = c.TopicSubscribers.Get(topicName) } } return tcg } func (c *Coordinator) RemoveTopic(topic *mq_pb.Topic) { topicName := toTopicName(topic) c.TopicSubscribers.Remove(topicName) } func toTopicName(topic *mq_pb.Topic) string { topicName := topic.Namespace + "." + topic.Name return topicName } func (c *Coordinator) AddSubscriber(consumerGroup, consumerGroupInstance string, topic *mq_pb.Topic) *ConsumerGroupInstance { tcg := c.GetTopicConsumerGroups(topic, true) cg, _ := tcg.ConsumerGroups.Get(consumerGroup) if cg == nil { cg = NewConsumerGroup(topic, c.balancer) if !tcg.ConsumerGroups.SetIfAbsent(consumerGroup, cg) { cg, _ = tcg.ConsumerGroups.Get(consumerGroup) } } cgi, _ := cg.ConsumerGroupInstances.Get(consumerGroupInstance) if cgi == nil { cgi = NewConsumerGroupInstance(consumerGroupInstance) if !cg.ConsumerGroupInstances.SetIfAbsent(consumerGroupInstance, cgi) { cgi, _ = cg.ConsumerGroupInstances.Get(consumerGroupInstance) } } cg.OnAddConsumerGroupInstance(consumerGroupInstance, topic) return cgi } func (c *Coordinator) RemoveSubscriber(consumerGroup, consumerGroupInstance string, topic *mq_pb.Topic) { tcg := c.GetTopicConsumerGroups(topic, false) if tcg == nil { return } cg, _ := tcg.ConsumerGroups.Get(consumerGroup) if cg == nil { return } cg.ConsumerGroupInstances.Remove(consumerGroupInstance) cg.OnRemoveConsumerGroupInstance(consumerGroupInstance, topic) if cg.ConsumerGroupInstances.Count() == 0 { tcg.ConsumerGroups.Remove(consumerGroup) } if tcg.ConsumerGroups.Count() == 0 { c.RemoveTopic(topic) } } func (c *Coordinator) OnPartitionChange(topic *mq_pb.Topic, assignments []*mq_pb.BrokerPartitionAssignment) { tcg, _ := c.TopicSubscribers.Get(toTopicName(topic)) if tcg == nil { return } for _, cg := range tcg.ConsumerGroups.Items() { cg.OnPartitionListChange(assignments) } } // OnSubAddBroker is called when a broker is added to the balancer func (c *Coordinator) OnSubAddBroker(broker string, brokerStats *pub_balancer.BrokerStats) { } // OnSubRemoveBroker is called when a broker is removed from the balancer func (c *Coordinator) OnSubRemoveBroker(broker string, brokerStats *pub_balancer.BrokerStats) { }