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package pub_balancer
import (
cmap "github.com/orcaman/concurrent-map/v2"
"github.com/seaweedfs/seaweedfs/weed/glog"
"github.com/seaweedfs/seaweedfs/weed/pb/mq_pb"
"math/rand"
"time"
)
func AllocateTopicPartitions(brokers cmap.ConcurrentMap[string, *BrokerStats], partitionCount int32) (assignments []*mq_pb.BrokerPartitionAssignment) {
// divide the ring into partitions
now := time.Now().UnixNano()
rangeSize := MaxPartitionCount / partitionCount
for i := int32(0); i < partitionCount; i++ {
assignment := &mq_pb.BrokerPartitionAssignment{
Partition: &mq_pb.Partition{
RingSize: MaxPartitionCount,
RangeStart: int32(i * rangeSize),
RangeStop: int32((i + 1) * rangeSize),
UnixTimeNs: now,
},
}
if i == partitionCount-1 {
assignment.Partition.RangeStop = MaxPartitionCount
}
assignments = append(assignments, assignment)
}
EnsureAssignmentsToActiveBrokers(brokers, 1, assignments)
glog.V(0).Infof("allocate topic partitions %d: %v", len(assignments), assignments)
return
}
// randomly pick n brokers, which may contain duplicates
// TODO pick brokers based on the broker stats
func pickBrokers(brokers cmap.ConcurrentMap[string, *BrokerStats], count int32) []string {
candidates := make([]string, 0, brokers.Count())
for brokerStatsItem := range brokers.IterBuffered() {
candidates = append(candidates, brokerStatsItem.Key)
}
pickedBrokers := make([]string, 0, count)
for i := int32(0); i < count; i++ {
p := rand.Intn(len(candidates))
pickedBrokers = append(pickedBrokers, candidates[p])
}
return pickedBrokers
}
// reservoir sampling select N brokers from the active brokers, with exclusion of the excluded broker
func pickBrokersExcluded(brokers []string, count int, excludedLeadBroker string, excludedBroker string) []string {
pickedBrokers := make([]string, 0, count)
for i, broker := range brokers {
if broker == excludedBroker {
continue
}
if len(pickedBrokers) < count {
pickedBrokers = append(pickedBrokers, broker)
} else {
j := rand.Intn(i + 1)
if j < count {
pickedBrokers[j] = broker
}
}
}
// shuffle the picked brokers
count = len(pickedBrokers)
for i := 0; i < count; i++ {
j := rand.Intn(count)
pickedBrokers[i], pickedBrokers[j] = pickedBrokers[j], pickedBrokers[i]
}
return pickedBrokers
}
// EnsureAssignmentsToActiveBrokers ensures the assignments are assigned to active brokers
func EnsureAssignmentsToActiveBrokers(activeBrokers cmap.ConcurrentMap[string, *BrokerStats], followerCount int, assignments []*mq_pb.BrokerPartitionAssignment) (hasChanges bool) {
glog.V(0).Infof("EnsureAssignmentsToActiveBrokers: activeBrokers: %v, followerCount: %d, assignments: %v", activeBrokers.Count(), followerCount, assignments)
candidates := make([]string, 0, activeBrokers.Count())
for brokerStatsItem := range activeBrokers.IterBuffered() {
candidates = append(candidates, brokerStatsItem.Key)
}
for _, assignment := range assignments {
// count how many brokers are needed
count := 0
if assignment.LeaderBroker == "" {
count++
} else if _, found := activeBrokers.Get(assignment.LeaderBroker); !found {
assignment.LeaderBroker = ""
count++
}
if assignment.FollowerBroker == "" {
count++
} else if _, found := activeBrokers.Get(assignment.FollowerBroker); !found {
assignment.FollowerBroker = ""
count++
}
if count > 0 {
pickedBrokers := pickBrokersExcluded(candidates, count, assignment.LeaderBroker, assignment.FollowerBroker)
i := 0
if assignment.LeaderBroker == "" {
if i < len(pickedBrokers) {
assignment.LeaderBroker = pickedBrokers[i]
i++
hasChanges = true
}
}
if assignment.FollowerBroker == "" {
if i < len(pickedBrokers) {
assignment.FollowerBroker = pickedBrokers[i]
i++
hasChanges = true
}
}
}
}
glog.V(0).Infof("EnsureAssignmentsToActiveBrokers: activeBrokers: %v, followerCount: %d, assignments: %v hasChanges: %v", activeBrokers.Count(), followerCount, assignments, hasChanges)
return
}