seaweedfs/weed/mq/client/sub_client/subscribe.go

package sub_client

import (
	"github.com/seaweedfs/seaweedfs/weed/glog"
	"github.com/seaweedfs/seaweedfs/weed/mq/topic"
	"github.com/seaweedfs/seaweedfs/weed/pb/mq_pb"
	"sync"
	"time"
)

type ProcessorState struct {
	stopCh chan struct{}
}

// Subscribe subscribes to a topic's specified partitions.
// If a partition is moved to another broker, the subscriber will automatically reconnect to the new broker.

func (sub *TopicSubscriber) Subscribe() error {

	go sub.startProcessors()

	// loop forever
	sub.doKeepConnectedToSubCoordinator()

	return nil
}

func (sub *TopicSubscriber) startProcessors() {
	// listen to the messages from the sub coordinator
	// start one processor per partition
	var wg sync.WaitGroup
	semaphore := make(chan struct{}, sub.SubscriberConfig.MaxPartitionCount)

	for message := range sub.brokerPartitionAssignmentChan {
		if assigned := message.GetAssignment(); assigned != nil {
			wg.Add(1)
			semaphore <- struct{}{}

			topicPartition := topic.FromPbPartition(assigned.PartitionAssignment.Partition)

			// wait until no covering partition is still in progress
			sub.waitUntilNoOverlappingPartitionInFlight(topicPartition)

			// start a processors
			stopChan := make(chan struct{})
			sub.activeProcessorsLock.Lock()
			sub.activeProcessors[topicPartition] = &ProcessorState{
				stopCh: stopChan,
			}
			sub.activeProcessorsLock.Unlock()

			go func(assigned *mq_pb.BrokerPartitionAssignment, topicPartition topic.Partition) {
				defer func() {
					sub.activeProcessorsLock.Lock()
					delete(sub.activeProcessors, topicPartition)
					sub.activeProcessorsLock.Unlock()

					<-semaphore
					wg.Done()
				}()
				glog.V(0).Infof("subscriber %s/%s assigned partition %+v at %v", sub.ContentConfig.Topic, sub.SubscriberConfig.ConsumerGroup, assigned.Partition, assigned.LeaderBroker)
				sub.brokerPartitionAssignmentAckChan <- &mq_pb.SubscriberToSubCoordinatorRequest{
					Message: &mq_pb.SubscriberToSubCoordinatorRequest_AckAssignment{
						AckAssignment: &mq_pb.SubscriberToSubCoordinatorRequest_AckAssignmentMessage{
							Partition: assigned.Partition,
						},
					},
				}
				err := sub.onEachPartition(assigned, stopChan)
				if err != nil {
					glog.V(0).Infof("subscriber %s/%s partition %+v at %v: %v", sub.ContentConfig.Topic, sub.SubscriberConfig.ConsumerGroup, assigned.Partition, assigned.LeaderBroker, err)
				} else {
					glog.V(0).Infof("subscriber %s/%s partition %+v at %v completed", sub.ContentConfig.Topic, sub.SubscriberConfig.ConsumerGroup, assigned.Partition, assigned.LeaderBroker)
				}
				sub.brokerPartitionAssignmentAckChan <- &mq_pb.SubscriberToSubCoordinatorRequest{
					Message: &mq_pb.SubscriberToSubCoordinatorRequest_AckUnAssignment{
						AckUnAssignment: &mq_pb.SubscriberToSubCoordinatorRequest_AckUnAssignmentMessage{
							Partition: assigned.Partition,
						},
					},
				}
			}(assigned.PartitionAssignment, topicPartition)
		}
		if unAssignment := message.GetUnAssignment(); unAssignment != nil {
			topicPartition := topic.FromPbPartition(unAssignment.Partition)
			sub.activeProcessorsLock.Lock()
			if processor, found := sub.activeProcessors[topicPartition]; found {
				close(processor.stopCh)
				delete(sub.activeProcessors, topicPartition)
			}
			sub.activeProcessorsLock.Unlock()
		}
	}

	wg.Wait()

}

func (sub *TopicSubscriber) waitUntilNoOverlappingPartitionInFlight(topicPartition topic.Partition) {
	foundOverlapping := true
	for foundOverlapping {
		sub.activeProcessorsLock.Lock()
		foundOverlapping = false
		var overlappedPartition topic.Partition
		for partition, _ := range sub.activeProcessors {
			if partition.Overlaps(topicPartition) {
				if partition.Equals(topicPartition) {
					continue
				}
				foundOverlapping = true
				overlappedPartition = partition
				break
			}
		}
		sub.activeProcessorsLock.Unlock()
		if foundOverlapping {
			glog.V(0).Infof("subscriber %s new partition %v waiting for partition %+v to complete", sub.ContentConfig.Topic, topicPartition, overlappedPartition)
			time.Sleep(1 * time.Second)
		}
	}
}
connect and publish 2023-08-29 00:02:12 +08:00			`package sub_client`

subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00			`import (`
			`"github.com/seaweedfs/seaweedfs/weed/glog"`
			`"github.com/seaweedfs/seaweedfs/weed/mq/topic"`
			`"github.com/seaweedfs/seaweedfs/weed/pb/mq_pb"`
			`"sync"`
			`"time"`
			`)`

			`type ProcessorState struct {`
client side stop partition subscribing if unassigned 2024-05-21 23:42:04 +08:00			`stopCh chan struct{}`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00			`}`

api for sub 2023-09-05 12:43:50 +08:00			`// Subscribe subscribes to a topic's specified partitions.`
			`// If a partition is moved to another broker, the subscriber will automatically reconnect to the new broker.`
connect and publish 2023-08-29 00:02:12 +08:00
api for sub 2023-09-05 12:43:50 +08:00			`func (sub *TopicSubscriber) Subscribe() error {`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00
			`go sub.startProcessors()`

subscriber keep connected to the balancer 2023-12-29 03:56:37 +08:00			`// loop forever`
			`sub.doKeepConnectedToSubCoordinator()`

can pub and sub 2023-09-01 15:36:51 +08:00			`return nil`
connect and publish 2023-08-29 00:02:12 +08:00			`}`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00
			`func (sub *TopicSubscriber) startProcessors() {`
			`// listen to the messages from the sub coordinator`
			`// start one processor per partition`
			`var wg sync.WaitGroup`
remove ProcessorConfiguration 2024-05-21 03:28:01 +08:00			`semaphore := make(chan struct{}, sub.SubscriberConfig.MaxPartitionCount)`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00
refactor ToDo 1. handle unassignment on client side 2. get notified of completed unassignment 3. in consumer_group.go, balance and send unassignment 2024-05-21 23:05:56 +08:00			`for message := range sub.brokerPartitionAssignmentChan {`
			`if assigned := message.GetAssignment(); assigned != nil {`
			`wg.Add(1)`
			`semaphore <- struct{}{}`

			`topicPartition := topic.FromPbPartition(assigned.PartitionAssignment.Partition)`

			`// wait until no covering partition is still in progress`
			`sub.waitUntilNoOverlappingPartitionInFlight(topicPartition)`

			`// start a processors`
client side stop partition subscribing if unassigned 2024-05-21 23:42:04 +08:00			`stopChan := make(chan struct{})`
refactor ToDo 1. handle unassignment on client side 2. get notified of completed unassignment 3. in consumer_group.go, balance and send unassignment 2024-05-21 23:05:56 +08:00			`sub.activeProcessorsLock.Lock()`
client side stop partition subscribing if unassigned 2024-05-21 23:42:04 +08:00			`sub.activeProcessors[topicPartition] = &ProcessorState{`
			`stopCh: stopChan,`
			`}`
refactor ToDo 1. handle unassignment on client side 2. get notified of completed unassignment 3. in consumer_group.go, balance and send unassignment 2024-05-21 23:05:56 +08:00			`sub.activeProcessorsLock.Unlock()`

			`go func(assigned *mq_pb.BrokerPartitionAssignment, topicPartition topic.Partition) {`
			`defer func() {`
			`sub.activeProcessorsLock.Lock()`
			`delete(sub.activeProcessors, topicPartition)`
			`sub.activeProcessorsLock.Unlock()`

			`<-semaphore`
			`wg.Done()`
			`}()`
			`glog.V(0).Infof("subscriber %s/%s assigned partition %+v at %v", sub.ContentConfig.Topic, sub.SubscriberConfig.ConsumerGroup, assigned.Partition, assigned.LeaderBroker)`
balance subscribers need to ensure the offsets are persisted 2024-05-28 08:30:16 +08:00			`sub.brokerPartitionAssignmentAckChan <- &mq_pb.SubscriberToSubCoordinatorRequest{`
			`Message: &mq_pb.SubscriberToSubCoordinatorRequest_AckAssignment{`
			`AckAssignment: &mq_pb.SubscriberToSubCoordinatorRequest_AckAssignmentMessage{`
			`Partition: assigned.Partition,`
			`},`
			`},`
			`}`
client side stop partition subscribing if unassigned 2024-05-21 23:42:04 +08:00			`err := sub.onEachPartition(assigned, stopChan)`
refactor ToDo 1. handle unassignment on client side 2. get notified of completed unassignment 3. in consumer_group.go, balance and send unassignment 2024-05-21 23:05:56 +08:00			`if err != nil {`
			`glog.V(0).Infof("subscriber %s/%s partition %+v at %v: %v", sub.ContentConfig.Topic, sub.SubscriberConfig.ConsumerGroup, assigned.Partition, assigned.LeaderBroker, err)`
			`} else {`
			`glog.V(0).Infof("subscriber %s/%s partition %+v at %v completed", sub.ContentConfig.Topic, sub.SubscriberConfig.ConsumerGroup, assigned.Partition, assigned.LeaderBroker)`
			`}`
coordinator receives unassignment ack 2024-05-23 23:23:35 +08:00			`sub.brokerPartitionAssignmentAckChan <- &mq_pb.SubscriberToSubCoordinatorRequest{`
			`Message: &mq_pb.SubscriberToSubCoordinatorRequest_AckUnAssignment{`
			`AckUnAssignment: &mq_pb.SubscriberToSubCoordinatorRequest_AckUnAssignmentMessage{`
			`Partition: assigned.Partition,`
			`},`
			`},`
			`}`
refactor ToDo 1. handle unassignment on client side 2. get notified of completed unassignment 3. in consumer_group.go, balance and send unassignment 2024-05-21 23:05:56 +08:00			`}(assigned.PartitionAssignment, topicPartition)`
			`}`
			`if unAssignment := message.GetUnAssignment(); unAssignment != nil {`
client side stop partition subscribing if unassigned 2024-05-21 23:42:04 +08:00			`topicPartition := topic.FromPbPartition(unAssignment.Partition)`
			`sub.activeProcessorsLock.Lock()`
			`if processor, found := sub.activeProcessors[topicPartition]; found {`
			`close(processor.stopCh)`
			`delete(sub.activeProcessors, topicPartition)`
			`}`
			`sub.activeProcessorsLock.Unlock()`
refactor ToDo 1. handle unassignment on client side 2. get notified of completed unassignment 3. in consumer_group.go, balance and send unassignment 2024-05-21 23:05:56 +08:00			`}`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00			`}`

			`wg.Wait()`

			`}`

			`func (sub *TopicSubscriber) waitUntilNoOverlappingPartitionInFlight(topicPartition topic.Partition) {`
			`foundOverlapping := true`
			`for foundOverlapping {`
			`sub.activeProcessorsLock.Lock()`
			`foundOverlapping = false`
consumer acks received messages 2024-05-17 11:28:19 +08:00			`var overlappedPartition topic.Partition`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00			`for partition, _ := range sub.activeProcessors {`
			`if partition.Overlaps(topicPartition) {`
consumer acks received messages 2024-05-17 11:28:19 +08:00			`if partition.Equals(topicPartition) {`
			`continue`
			`}`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00			`foundOverlapping = true`
consumer acks received messages 2024-05-17 11:28:19 +08:00			`overlappedPartition = partition`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00			`break`
			`}`
			`}`
			`sub.activeProcessorsLock.Unlock()`
			`if foundOverlapping {`
consumer acks received messages 2024-05-17 11:28:19 +08:00			`glog.V(0).Infof("subscriber %s new partition %v waiting for partition %+v to complete", sub.ContentConfig.Topic, topicPartition, overlappedPartition)`
subscriber receives partitions and dispatch to processors 2024-05-15 14:22:43 +08:00			`time.Sleep(1 * time.Second)`
			`}`
			`}`
			`}`