mirror of
https://github.com/seaweedfs/seaweedfs.git
synced 2024-12-22 16:17:55 +08:00
419 lines
13 KiB
Go
419 lines
13 KiB
Go
package shell
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import (
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"cmp"
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"flag"
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"fmt"
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"io"
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"os"
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"time"
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"github.com/seaweedfs/seaweedfs/weed/pb"
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"github.com/seaweedfs/seaweedfs/weed/storage/erasure_coding"
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"github.com/seaweedfs/seaweedfs/weed/storage/super_block"
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"github.com/seaweedfs/seaweedfs/weed/storage/types"
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"golang.org/x/exp/slices"
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"github.com/seaweedfs/seaweedfs/weed/pb/master_pb"
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"github.com/seaweedfs/seaweedfs/weed/storage/needle"
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)
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func init() {
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Commands = append(Commands, &commandVolumeBalance{})
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}
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type commandVolumeBalance struct {
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}
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func (c *commandVolumeBalance) Name() string {
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return "volume.balance"
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}
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func (c *commandVolumeBalance) Help() string {
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return `balance all volumes among volume servers
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volume.balance [-collection ALL_COLLECTIONS|EACH_COLLECTION|<collection_name>] [-force] [-dataCenter=<data_center_name>]
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Algorithm:
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For each type of volume server (different max volume count limit){
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for each collection {
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balanceWritableVolumes()
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balanceReadOnlyVolumes()
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}
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}
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func balanceWritableVolumes(){
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idealWritableVolumeRatio = totalWritableVolumes / totalNumberOfMaxVolumes
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for hasMovedOneVolume {
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sort all volume servers ordered by the localWritableVolumeRatio = localWritableVolumes to localVolumeMax
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pick the volume server B with the highest localWritableVolumeRatio y
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for any the volume server A with the number of writable volumes x + 1 <= idealWritableVolumeRatio * localVolumeMax {
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if y > localWritableVolumeRatio {
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if B has a writable volume id v that A does not have, and satisfy v replication requirements {
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move writable volume v from A to B
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}
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}
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}
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}
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}
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func balanceReadOnlyVolumes(){
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//similar to balanceWritableVolumes
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}
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`
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}
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func (c *commandVolumeBalance) Do(args []string, commandEnv *CommandEnv, writer io.Writer) (err error) {
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balanceCommand := flag.NewFlagSet(c.Name(), flag.ContinueOnError)
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collection := balanceCommand.String("collection", "ALL_COLLECTIONS", "collection name, or use \"ALL_COLLECTIONS\" across collections, \"EACH_COLLECTION\" for each collection")
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dc := balanceCommand.String("dataCenter", "", "only apply the balancing for this dataCenter")
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applyBalancing := balanceCommand.Bool("force", false, "apply the balancing plan.")
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if err = balanceCommand.Parse(args); err != nil {
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return nil
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}
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infoAboutSimulationMode(writer, *applyBalancing, "-force")
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if err = commandEnv.confirmIsLocked(args); err != nil {
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return
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}
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// collect topology information
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topologyInfo, _, err := collectTopologyInfo(commandEnv, 15*time.Second)
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if err != nil {
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return err
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}
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volumeServers := collectVolumeServersByDc(topologyInfo, *dc)
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volumeReplicas, _ := collectVolumeReplicaLocations(topologyInfo)
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diskTypes := collectVolumeDiskTypes(topologyInfo)
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if *collection == "EACH_COLLECTION" {
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collections, err := ListCollectionNames(commandEnv, true, false)
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if err != nil {
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return err
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}
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for _, c := range collections {
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if err = balanceVolumeServers(commandEnv, diskTypes, volumeReplicas, volumeServers, c, *applyBalancing); err != nil {
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return err
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}
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}
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} else {
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if err = balanceVolumeServers(commandEnv, diskTypes, volumeReplicas, volumeServers, *collection, *applyBalancing); err != nil {
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return err
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}
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}
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return nil
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}
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func balanceVolumeServers(commandEnv *CommandEnv, diskTypes []types.DiskType, volumeReplicas map[uint32][]*VolumeReplica, nodes []*Node, collection string, applyBalancing bool) error {
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for _, diskType := range diskTypes {
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if err := balanceVolumeServersByDiskType(commandEnv, diskType, volumeReplicas, nodes, collection, applyBalancing); err != nil {
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return err
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}
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}
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return nil
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}
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func balanceVolumeServersByDiskType(commandEnv *CommandEnv, diskType types.DiskType, volumeReplicas map[uint32][]*VolumeReplica, nodes []*Node, collection string, applyBalancing bool) error {
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for _, n := range nodes {
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n.selectVolumes(func(v *master_pb.VolumeInformationMessage) bool {
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if collection != "ALL_COLLECTIONS" {
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if v.Collection != collection {
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return false
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}
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}
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return v.DiskType == string(diskType)
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})
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}
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if err := balanceSelectedVolume(commandEnv, diskType, volumeReplicas, nodes, sortWritableVolumes, applyBalancing); err != nil {
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return err
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}
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return nil
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}
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func collectVolumeServersByDc(t *master_pb.TopologyInfo, selectedDataCenter string) (nodes []*Node) {
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for _, dc := range t.DataCenterInfos {
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if selectedDataCenter != "" && dc.Id != selectedDataCenter {
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continue
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}
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for _, r := range dc.RackInfos {
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for _, dn := range r.DataNodeInfos {
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nodes = append(nodes, &Node{
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info: dn,
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dc: dc.Id,
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rack: r.Id,
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})
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}
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}
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}
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return
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}
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func collectVolumeDiskTypes(t *master_pb.TopologyInfo) (diskTypes []types.DiskType) {
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knownTypes := make(map[string]bool)
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for _, dc := range t.DataCenterInfos {
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for _, r := range dc.RackInfos {
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for _, dn := range r.DataNodeInfos {
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for diskType := range dn.DiskInfos {
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if _, found := knownTypes[diskType]; !found {
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knownTypes[diskType] = true
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}
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}
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}
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}
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}
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for diskType := range knownTypes {
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diskTypes = append(diskTypes, types.ToDiskType(diskType))
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}
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return
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}
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type Node struct {
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info *master_pb.DataNodeInfo
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selectedVolumes map[uint32]*master_pb.VolumeInformationMessage
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dc string
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rack string
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}
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type CapacityFunc func(*master_pb.DataNodeInfo) float64
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func capacityByMaxVolumeCount(diskType types.DiskType) CapacityFunc {
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return func(info *master_pb.DataNodeInfo) float64 {
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diskInfo, found := info.DiskInfos[string(diskType)]
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if !found {
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return 0
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}
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return float64(diskInfo.MaxVolumeCount)
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}
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}
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func capacityByFreeVolumeCount(diskType types.DiskType) CapacityFunc {
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return func(info *master_pb.DataNodeInfo) float64 {
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diskInfo, found := info.DiskInfos[string(diskType)]
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if !found {
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return 0
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}
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var ecShardCount int
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for _, ecShardInfo := range diskInfo.EcShardInfos {
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ecShardCount += erasure_coding.ShardBits(ecShardInfo.EcIndexBits).ShardIdCount()
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}
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return float64(diskInfo.MaxVolumeCount-diskInfo.VolumeCount) - float64(ecShardCount)/erasure_coding.DataShardsCount
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}
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}
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func (n *Node) localVolumeRatio(capacityFunc CapacityFunc) float64 {
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return float64(len(n.selectedVolumes)) / capacityFunc(n.info)
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}
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func (n *Node) localVolumeNextRatio(capacityFunc CapacityFunc) float64 {
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return float64(len(n.selectedVolumes)+1) / capacityFunc(n.info)
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}
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func (n *Node) isOneVolumeOnly() bool {
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if len(n.selectedVolumes) != 1 {
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return false
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}
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for _, disk := range n.info.DiskInfos {
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if disk.VolumeCount == 1 && disk.MaxVolumeCount == 1 {
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return true
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}
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}
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return false
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}
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func (n *Node) selectVolumes(fn func(v *master_pb.VolumeInformationMessage) bool) {
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n.selectedVolumes = make(map[uint32]*master_pb.VolumeInformationMessage)
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for _, diskInfo := range n.info.DiskInfos {
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for _, v := range diskInfo.VolumeInfos {
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if fn(v) {
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n.selectedVolumes[v.Id] = v
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}
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}
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}
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}
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func sortWritableVolumes(volumes []*master_pb.VolumeInformationMessage) {
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slices.SortFunc(volumes, func(a, b *master_pb.VolumeInformationMessage) int {
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return cmp.Compare(a.Size, b.Size)
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})
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}
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func balanceSelectedVolume(commandEnv *CommandEnv, diskType types.DiskType, volumeReplicas map[uint32][]*VolumeReplica, nodes []*Node, sortCandidatesFn func(volumes []*master_pb.VolumeInformationMessage), applyBalancing bool) (err error) {
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selectedVolumeCount, volumeMaxCount := 0, float64(0)
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var nodesWithCapacity []*Node
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capacityFunc := capacityByMaxVolumeCount(diskType)
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for _, dn := range nodes {
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selectedVolumeCount += len(dn.selectedVolumes)
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capacity := capacityFunc(dn.info)
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if capacity > 0 {
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nodesWithCapacity = append(nodesWithCapacity, dn)
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}
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volumeMaxCount += capacity
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}
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idealVolumeRatio := float64(selectedVolumeCount) / volumeMaxCount
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hasMoved := true
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// fmt.Fprintf(os.Stdout, " total %d volumes, max %d volumes, idealVolumeRatio %f\n", selectedVolumeCount, volumeMaxCount, idealVolumeRatio)
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for hasMoved {
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hasMoved = false
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slices.SortFunc(nodesWithCapacity, func(a, b *Node) int {
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return cmp.Compare(a.localVolumeRatio(capacityFunc), b.localVolumeRatio(capacityFunc))
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})
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if len(nodesWithCapacity) == 0 {
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fmt.Printf("no volume server found with capacity for %s", diskType.ReadableString())
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return nil
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}
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var fullNode *Node
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var fullNodeIndex int
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for fullNodeIndex = len(nodesWithCapacity) - 1; fullNodeIndex >= 0; fullNodeIndex-- {
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fullNode = nodesWithCapacity[fullNodeIndex]
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if !fullNode.isOneVolumeOnly() {
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break
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}
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}
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var candidateVolumes []*master_pb.VolumeInformationMessage
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for _, v := range fullNode.selectedVolumes {
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candidateVolumes = append(candidateVolumes, v)
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}
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sortCandidatesFn(candidateVolumes)
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for _, emptyNode := range nodesWithCapacity[:fullNodeIndex] {
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if !(fullNode.localVolumeRatio(capacityFunc) > idealVolumeRatio && emptyNode.localVolumeNextRatio(capacityFunc) <= idealVolumeRatio) {
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// no more volume servers with empty slots
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break
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}
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fmt.Fprintf(os.Stdout, "%s %.2f %.2f:%.2f\t", diskType.ReadableString(), idealVolumeRatio, fullNode.localVolumeRatio(capacityFunc), emptyNode.localVolumeNextRatio(capacityFunc))
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hasMoved, err = attemptToMoveOneVolume(commandEnv, volumeReplicas, fullNode, candidateVolumes, emptyNode, applyBalancing)
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if err != nil {
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return
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}
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if hasMoved {
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// moved one volume
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break
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}
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}
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}
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return nil
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}
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func attemptToMoveOneVolume(commandEnv *CommandEnv, volumeReplicas map[uint32][]*VolumeReplica, fullNode *Node, candidateVolumes []*master_pb.VolumeInformationMessage, emptyNode *Node, applyBalancing bool) (hasMoved bool, err error) {
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for _, v := range candidateVolumes {
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hasMoved, err = maybeMoveOneVolume(commandEnv, volumeReplicas, fullNode, v, emptyNode, applyBalancing)
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if err != nil {
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return
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}
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if hasMoved {
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break
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}
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}
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return
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}
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func maybeMoveOneVolume(commandEnv *CommandEnv, volumeReplicas map[uint32][]*VolumeReplica, fullNode *Node, candidateVolume *master_pb.VolumeInformationMessage, emptyNode *Node, applyChange bool) (hasMoved bool, err error) {
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if !commandEnv.isLocked() {
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return false, fmt.Errorf("lock is lost")
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}
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if candidateVolume.RemoteStorageName != "" {
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return false, fmt.Errorf("does not move volume in remove storage")
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}
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if candidateVolume.ReplicaPlacement > 0 {
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replicaPlacement, _ := super_block.NewReplicaPlacementFromByte(byte(candidateVolume.ReplicaPlacement))
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if !isGoodMove(replicaPlacement, volumeReplicas[candidateVolume.Id], fullNode, emptyNode) {
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return false, nil
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}
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}
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if _, found := emptyNode.selectedVolumes[candidateVolume.Id]; !found {
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if err = moveVolume(commandEnv, candidateVolume, fullNode, emptyNode, applyChange); err == nil {
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adjustAfterMove(candidateVolume, volumeReplicas, fullNode, emptyNode)
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return true, nil
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} else {
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return
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}
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}
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return
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}
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func moveVolume(commandEnv *CommandEnv, v *master_pb.VolumeInformationMessage, fullNode *Node, emptyNode *Node, applyChange bool) error {
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collectionPrefix := v.Collection + "_"
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if v.Collection == "" {
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collectionPrefix = ""
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}
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fmt.Fprintf(os.Stdout, " moving %s volume %s%d %s => %s\n", v.DiskType, collectionPrefix, v.Id, fullNode.info.Id, emptyNode.info.Id)
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if applyChange {
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return LiveMoveVolume(commandEnv.option.GrpcDialOption, os.Stderr, needle.VolumeId(v.Id), pb.NewServerAddressFromDataNode(fullNode.info), pb.NewServerAddressFromDataNode(emptyNode.info), 5*time.Second, v.DiskType, 0, false)
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}
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return nil
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}
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func isGoodMove(placement *super_block.ReplicaPlacement, existingReplicas []*VolumeReplica, sourceNode, targetNode *Node) bool {
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for _, replica := range existingReplicas {
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if replica.location.dataNode.Id == targetNode.info.Id &&
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replica.location.rack == targetNode.rack &&
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replica.location.dc == targetNode.dc {
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// never move to existing nodes
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return false
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}
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}
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// existing replicas except the one on sourceNode
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existingReplicasExceptSourceNode := make([]*VolumeReplica, 0)
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for _, replica := range existingReplicas {
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if replica.location.dataNode.Id != sourceNode.info.Id {
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existingReplicasExceptSourceNode = append(existingReplicasExceptSourceNode, replica)
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}
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}
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// target location
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targetLocation := location{
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dc: targetNode.dc,
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rack: targetNode.rack,
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dataNode: targetNode.info,
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}
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// check if this satisfies replication requirements
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return satisfyReplicaPlacement(placement, existingReplicasExceptSourceNode, targetLocation)
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}
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func adjustAfterMove(v *master_pb.VolumeInformationMessage, volumeReplicas map[uint32][]*VolumeReplica, fullNode *Node, emptyNode *Node) {
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delete(fullNode.selectedVolumes, v.Id)
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if emptyNode.selectedVolumes != nil {
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emptyNode.selectedVolumes[v.Id] = v
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}
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existingReplicas := volumeReplicas[v.Id]
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for _, replica := range existingReplicas {
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if replica.location.dataNode.Id == fullNode.info.Id &&
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replica.location.rack == fullNode.rack &&
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replica.location.dc == fullNode.dc {
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loc := newLocation(emptyNode.dc, emptyNode.rack, emptyNode.info)
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replica.location = &loc
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for diskType, diskInfo := range fullNode.info.DiskInfos {
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if diskType == v.DiskType {
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diskInfo.VolumeCount--
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diskInfo.FreeVolumeCount++
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}
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}
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for diskType, diskInfo := range emptyNode.info.DiskInfos {
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if diskType == v.DiskType {
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diskInfo.VolumeCount++
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diskInfo.FreeVolumeCount--
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}
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}
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return
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}
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}
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}
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