seaweedfs/weed/mq/pub_balancer/repair.go
2024-05-21 09:56:30 -07:00

123 lines
3.9 KiB
Go

package pub_balancer
import (
cmap "github.com/orcaman/concurrent-map/v2"
"github.com/seaweedfs/seaweedfs/weed/mq/topic"
"math/rand"
"modernc.org/mathutil"
"sort"
)
func (balancer *PubBalancer) RepairTopics() []BalanceAction {
action := BalanceTopicPartitionOnBrokers(balancer.Brokers)
return []BalanceAction{action}
}
type TopicPartitionInfo struct {
Broker string
}
// RepairMissingTopicPartitions check the stats of all brokers,
// and repair the missing topic partitions on the brokers.
func RepairMissingTopicPartitions(brokers cmap.ConcurrentMap[string, *BrokerStats]) (actions []BalanceAction) {
// find all topic partitions
topicToTopicPartitions := make(map[topic.Topic]map[topic.Partition]*TopicPartitionInfo)
for brokerStatsItem := range brokers.IterBuffered() {
broker, brokerStats := brokerStatsItem.Key, brokerStatsItem.Val
for topicPartitionStatsItem := range brokerStats.TopicPartitionStats.IterBuffered() {
topicPartitionStat := topicPartitionStatsItem.Val
topicPartitionToInfo, found := topicToTopicPartitions[topicPartitionStat.Topic]
if !found {
topicPartitionToInfo = make(map[topic.Partition]*TopicPartitionInfo)
topicToTopicPartitions[topicPartitionStat.Topic] = topicPartitionToInfo
}
tpi, found := topicPartitionToInfo[topicPartitionStat.Partition]
if !found {
tpi = &TopicPartitionInfo{}
topicPartitionToInfo[topicPartitionStat.Partition] = tpi
}
tpi.Broker = broker
}
}
// collect all brokers as candidates
candidates := make([]string, 0, brokers.Count())
for brokerStatsItem := range brokers.IterBuffered() {
candidates = append(candidates, brokerStatsItem.Key)
}
// find the missing topic partitions
for t, topicPartitionToInfo := range topicToTopicPartitions {
missingPartitions := EachTopicRepairMissingTopicPartitions(t, topicPartitionToInfo)
for _, partition := range missingPartitions {
actions = append(actions, BalanceActionCreate{
TopicPartition: topic.TopicPartition{
Topic: t,
Partition: partition,
},
TargetBroker: candidates[rand.Intn(len(candidates))],
})
}
}
return actions
}
func EachTopicRepairMissingTopicPartitions(t topic.Topic, info map[topic.Partition]*TopicPartitionInfo) (missingPartitions []topic.Partition) {
// find the missing topic partitions
var partitions []topic.Partition
for partition := range info {
partitions = append(partitions, partition)
}
return findMissingPartitions(partitions, MaxPartitionCount)
}
// findMissingPartitions find the missing partitions
func findMissingPartitions(partitions []topic.Partition, ringSize int32) (missingPartitions []topic.Partition) {
// sort the partitions by range start
sort.Slice(partitions, func(i, j int) bool {
return partitions[i].RangeStart < partitions[j].RangeStart
})
// calculate the average partition size
var covered int32
for _, partition := range partitions {
covered += partition.RangeStop - partition.RangeStart
}
averagePartitionSize := covered / int32(len(partitions))
// find the missing partitions
var coveredWatermark int32
i := 0
for i < len(partitions) {
partition := partitions[i]
if partition.RangeStart > coveredWatermark {
upperBound := mathutil.MinInt32(coveredWatermark+averagePartitionSize, partition.RangeStart)
missingPartitions = append(missingPartitions, topic.Partition{
RangeStart: coveredWatermark,
RangeStop: upperBound,
RingSize: ringSize,
})
coveredWatermark = upperBound
if coveredWatermark == partition.RangeStop {
i++
}
} else {
coveredWatermark = partition.RangeStop
i++
}
}
for coveredWatermark < ringSize {
upperBound := mathutil.MinInt32(coveredWatermark+averagePartitionSize, ringSize)
missingPartitions = append(missingPartitions, topic.Partition{
RangeStart: coveredWatermark,
RangeStop: upperBound,
RingSize: ringSize,
})
coveredWatermark = upperBound
}
return missingPartitions
}