mirror of
https://github.com/seaweedfs/seaweedfs.git
synced 2024-11-30 23:29:02 +08:00
303 lines
9.7 KiB
Go
303 lines
9.7 KiB
Go
package shell
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import (
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"context"
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"flag"
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"fmt"
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"github.com/seaweedfs/seaweedfs/weed/pb"
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"io"
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"math/rand"
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"sync"
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"time"
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"google.golang.org/grpc"
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"github.com/seaweedfs/seaweedfs/weed/operation"
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"github.com/seaweedfs/seaweedfs/weed/pb/master_pb"
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"github.com/seaweedfs/seaweedfs/weed/pb/volume_server_pb"
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"github.com/seaweedfs/seaweedfs/weed/storage/erasure_coding"
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"github.com/seaweedfs/seaweedfs/weed/storage/needle"
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"github.com/seaweedfs/seaweedfs/weed/wdclient"
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)
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func init() {
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Commands = append(Commands, &commandEcEncode{})
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}
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type commandEcEncode struct {
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}
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func (c *commandEcEncode) Name() string {
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return "ec.encode"
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}
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func (c *commandEcEncode) Help() string {
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return `apply erasure coding to a volume
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ec.encode [-collection=""] [-fullPercent=95 -quietFor=1h]
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ec.encode [-collection=""] [-volumeId=<volume_id>]
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This command will:
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1. freeze one volume
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2. apply erasure coding to the volume
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3. move the encoded shards to multiple volume servers
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The erasure coding is 10.4. So ideally you have more than 14 volume servers, and you can afford
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to lose 4 volume servers.
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If the number of volumes are not high, the worst case is that you only have 4 volume servers,
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and the shards are spread as 4,4,3,3, respectively. You can afford to lose one volume server.
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If you only have less than 4 volume servers, with erasure coding, at least you can afford to
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have 4 corrupted shard files.
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`
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}
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func (c *commandEcEncode) Do(args []string, commandEnv *CommandEnv, writer io.Writer) (err error) {
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encodeCommand := flag.NewFlagSet(c.Name(), flag.ContinueOnError)
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volumeId := encodeCommand.Int("volumeId", 0, "the volume id")
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collection := encodeCommand.String("collection", "", "the collection name")
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fullPercentage := encodeCommand.Float64("fullPercent", 95, "the volume reaches the percentage of max volume size")
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quietPeriod := encodeCommand.Duration("quietFor", time.Hour, "select volumes without no writes for this period")
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parallelCopy := encodeCommand.Bool("parallelCopy", true, "copy shards in parallel")
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if err = encodeCommand.Parse(args); err != nil {
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return nil
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}
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if err = commandEnv.confirmIsLocked(args); err != nil {
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return
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}
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vid := needle.VolumeId(*volumeId)
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// volumeId is provided
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if vid != 0 {
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return doEcEncode(commandEnv, *collection, vid, *parallelCopy)
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}
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// apply to all volumes in the collection
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volumeIds, err := collectVolumeIdsForEcEncode(commandEnv, *collection, *fullPercentage, *quietPeriod)
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if err != nil {
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return err
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}
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fmt.Printf("ec encode volumes: %v\n", volumeIds)
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for _, vid := range volumeIds {
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if err = doEcEncode(commandEnv, *collection, vid, *parallelCopy); 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 doEcEncode(commandEnv *CommandEnv, collection string, vid needle.VolumeId, parallelCopy bool) (err error) {
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if !commandEnv.isLocked() {
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return fmt.Errorf("lock is lost")
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}
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// find volume location
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locations, found := commandEnv.MasterClient.GetLocationsClone(uint32(vid))
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if !found {
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return fmt.Errorf("volume %d not found", vid)
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}
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// fmt.Printf("found ec %d shards on %v\n", vid, locations)
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// mark the volume as readonly
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err = markVolumeReplicasWritable(commandEnv.option.GrpcDialOption, vid, locations, false)
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if err != nil {
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return fmt.Errorf("mark volume %d as readonly on %s: %v", vid, locations[0].Url, err)
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}
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// generate ec shards
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err = generateEcShards(commandEnv.option.GrpcDialOption, vid, collection, locations[0].ServerAddress())
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if err != nil {
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return fmt.Errorf("generate ec shards for volume %d on %s: %v", vid, locations[0].Url, err)
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}
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// balance the ec shards to current cluster
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err = spreadEcShards(commandEnv, vid, collection, locations, parallelCopy)
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if err != nil {
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return fmt.Errorf("spread ec shards for volume %d from %s: %v", vid, locations[0].Url, err)
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}
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return nil
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}
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func generateEcShards(grpcDialOption grpc.DialOption, volumeId needle.VolumeId, collection string, sourceVolumeServer pb.ServerAddress) error {
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fmt.Printf("generateEcShards %s %d on %s ...\n", collection, volumeId, sourceVolumeServer)
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err := operation.WithVolumeServerClient(false, sourceVolumeServer, grpcDialOption, func(volumeServerClient volume_server_pb.VolumeServerClient) error {
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_, genErr := volumeServerClient.VolumeEcShardsGenerate(context.Background(), &volume_server_pb.VolumeEcShardsGenerateRequest{
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VolumeId: uint32(volumeId),
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Collection: collection,
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})
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return genErr
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})
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return err
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}
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func spreadEcShards(commandEnv *CommandEnv, volumeId needle.VolumeId, collection string, existingLocations []wdclient.Location, parallelCopy bool) (err error) {
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allEcNodes, totalFreeEcSlots, err := collectEcNodes(commandEnv, "")
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if err != nil {
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return err
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}
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if totalFreeEcSlots < erasure_coding.TotalShardsCount {
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return fmt.Errorf("not enough free ec shard slots. only %d left", totalFreeEcSlots)
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}
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allocatedDataNodes := allEcNodes
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if len(allocatedDataNodes) > erasure_coding.TotalShardsCount {
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allocatedDataNodes = allocatedDataNodes[:erasure_coding.TotalShardsCount]
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}
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// calculate how many shards to allocate for these servers
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allocatedEcIds := balancedEcDistribution(allocatedDataNodes)
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// ask the data nodes to copy from the source volume server
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copiedShardIds, err := parallelCopyEcShardsFromSource(commandEnv.option.GrpcDialOption, allocatedDataNodes, allocatedEcIds, volumeId, collection, existingLocations[0], parallelCopy)
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if err != nil {
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return err
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}
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// unmount the to be deleted shards
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err = unmountEcShards(commandEnv.option.GrpcDialOption, volumeId, existingLocations[0].ServerAddress(), copiedShardIds)
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if err != nil {
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return err
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}
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// ask the source volume server to clean up copied ec shards
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err = sourceServerDeleteEcShards(commandEnv.option.GrpcDialOption, collection, volumeId, existingLocations[0].ServerAddress(), copiedShardIds)
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if err != nil {
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return fmt.Errorf("source delete copied ecShards %s %d.%v: %v", existingLocations[0].Url, volumeId, copiedShardIds, err)
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}
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// ask the source volume server to delete the original volume
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for _, location := range existingLocations {
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fmt.Printf("delete volume %d from %s\n", volumeId, location.Url)
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err = deleteVolume(commandEnv.option.GrpcDialOption, volumeId, location.ServerAddress(), false)
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if err != nil {
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return fmt.Errorf("deleteVolume %s volume %d: %v", location.Url, volumeId, err)
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}
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}
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return err
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}
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func parallelCopyEcShardsFromSource(grpcDialOption grpc.DialOption, targetServers []*EcNode, allocatedEcIds [][]uint32, volumeId needle.VolumeId, collection string, existingLocation wdclient.Location, parallelCopy bool) (actuallyCopied []uint32, err error) {
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fmt.Printf("parallelCopyEcShardsFromSource %d %s\n", volumeId, existingLocation.Url)
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var wg sync.WaitGroup
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shardIdChan := make(chan []uint32, len(targetServers))
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copyFunc := func(server *EcNode, allocatedEcShardIds []uint32) {
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defer wg.Done()
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copiedShardIds, copyErr := oneServerCopyAndMountEcShardsFromSource(grpcDialOption, server,
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allocatedEcShardIds, volumeId, collection, existingLocation.ServerAddress())
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if copyErr != nil {
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err = copyErr
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} else {
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shardIdChan <- copiedShardIds
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server.addEcVolumeShards(volumeId, collection, copiedShardIds)
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}
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}
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cleanupFunc := func(server *EcNode, allocatedEcShardIds []uint32) {
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if err := unmountEcShards(grpcDialOption, volumeId, pb.NewServerAddressFromDataNode(server.info), allocatedEcShardIds); err != nil {
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fmt.Printf("unmount aborted shards %d.%v on %s: %v\n", volumeId, allocatedEcShardIds, server.info.Id, err)
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}
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if err := sourceServerDeleteEcShards(grpcDialOption, collection, volumeId, pb.NewServerAddressFromDataNode(server.info), allocatedEcShardIds); err != nil {
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fmt.Printf("remove aborted shards %d.%v on %s: %v\n", volumeId, allocatedEcShardIds, server.info.Id, err)
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}
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}
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// maybe parallelize
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for i, server := range targetServers {
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if len(allocatedEcIds[i]) <= 0 {
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continue
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}
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wg.Add(1)
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if parallelCopy {
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go copyFunc(server, allocatedEcIds[i])
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} else {
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copyFunc(server, allocatedEcIds[i])
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}
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}
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wg.Wait()
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close(shardIdChan)
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if err != nil {
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for i, server := range targetServers {
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if len(allocatedEcIds[i]) <= 0 {
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continue
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}
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cleanupFunc(server, allocatedEcIds[i])
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}
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return nil, err
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}
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for shardIds := range shardIdChan {
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actuallyCopied = append(actuallyCopied, shardIds...)
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}
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return
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}
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func balancedEcDistribution(servers []*EcNode) (allocated [][]uint32) {
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allocated = make([][]uint32, len(servers))
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allocatedShardIdIndex := uint32(0)
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serverIndex := rand.Intn(len(servers))
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for allocatedShardIdIndex < erasure_coding.TotalShardsCount {
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if servers[serverIndex].freeEcSlot > 0 {
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allocated[serverIndex] = append(allocated[serverIndex], allocatedShardIdIndex)
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allocatedShardIdIndex++
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}
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serverIndex++
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if serverIndex >= len(servers) {
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serverIndex = 0
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}
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}
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return allocated
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}
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func collectVolumeIdsForEcEncode(commandEnv *CommandEnv, selectedCollection string, fullPercentage float64, quietPeriod time.Duration) (vids []needle.VolumeId, err error) {
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// collect topology information
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topologyInfo, volumeSizeLimitMb, err := collectTopologyInfo(commandEnv, 0)
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if err != nil {
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return
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}
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quietSeconds := int64(quietPeriod / time.Second)
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nowUnixSeconds := time.Now().Unix()
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fmt.Printf("collect volumes quiet for: %d seconds\n", quietSeconds)
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vidMap := make(map[uint32]bool)
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eachDataNode(topologyInfo, func(dc string, rack RackId, dn *master_pb.DataNodeInfo) {
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for _, diskInfo := range dn.DiskInfos {
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for _, v := range diskInfo.VolumeInfos {
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if v.Collection == selectedCollection && v.ModifiedAtSecond+quietSeconds < nowUnixSeconds {
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if float64(v.Size) > fullPercentage/100*float64(volumeSizeLimitMb)*1024*1024 {
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vidMap[v.Id] = 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 vid := range vidMap {
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vids = append(vids, needle.VolumeId(vid))
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}
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return
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}
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