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package shell
import ( "bytes" "context" "flag" "fmt" "io" "math" "net/http" "sync" "time"
"github.com/seaweedfs/seaweedfs/weed/operation" "github.com/seaweedfs/seaweedfs/weed/pb" "github.com/seaweedfs/seaweedfs/weed/pb/master_pb" "github.com/seaweedfs/seaweedfs/weed/pb/volume_server_pb" "github.com/seaweedfs/seaweedfs/weed/server/constants" "github.com/seaweedfs/seaweedfs/weed/storage/needle_map" "golang.org/x/exp/slices" "google.golang.org/grpc" )
func init() { Commands = append(Commands, &commandVolumeCheckDisk{}) }
type commandVolumeCheckDisk struct { env *CommandEnv writer io.Writer }
func (c *commandVolumeCheckDisk) Name() string { return "volume.check.disk" }
func (c *commandVolumeCheckDisk) Help() string { return `check all replicated volumes to find and fix inconsistencies. It is optional and resource intensive.
How it works: find all volumes that are replicated for each volume id, if there are more than 2 replicas, find one pair with the largest 2 in file count. for the pair volume A and B append entries in A and not in B to B append entries in B and not in A to A
` }
func (c *commandVolumeCheckDisk) HasTag(tag CommandTag) bool { return tag == ResourceHeavy }
func (c *commandVolumeCheckDisk) getVolumeStatusFileCount(vid uint32, dn *master_pb.DataNodeInfo) (totalFileCount, deletedFileCount uint64) { err := operation.WithVolumeServerClient(false, pb.NewServerAddressWithGrpcPort(dn.Id, int(dn.GrpcPort)), c.env.option.GrpcDialOption, func(volumeServerClient volume_server_pb.VolumeServerClient) error { resp, reqErr := volumeServerClient.VolumeStatus(context.Background(), &volume_server_pb.VolumeStatusRequest{ VolumeId: uint32(vid), }) if resp != nil { totalFileCount = resp.FileCount deletedFileCount = resp.FileDeletedCount } return reqErr }) if err != nil { fmt.Fprintf(c.writer, "getting number of files for volume id %d from volumes status: %+v\n", vid, err) } return totalFileCount, deletedFileCount }
func (c *commandVolumeCheckDisk) eqVolumeFileCount(a, b *VolumeReplica) (bool, bool) { var waitGroup sync.WaitGroup var fileCountA, fileCountB, fileDeletedCountA, fileDeletedCountB uint64 waitGroup.Add(1) go func() { defer waitGroup.Done() fileCountA, fileDeletedCountA = c.getVolumeStatusFileCount(a.info.Id, a.location.dataNode) }() waitGroup.Add(1) go func() { defer waitGroup.Done() fileCountB, fileDeletedCountB = c.getVolumeStatusFileCount(b.info.Id, b.location.dataNode) }() // Trying to synchronize a remote call to two nodes
waitGroup.Wait() return fileCountA == fileCountB, fileDeletedCountA == fileDeletedCountB }
func (c *commandVolumeCheckDisk) shouldSkipVolume(a, b *VolumeReplica, pulseTimeAtSecond int64, syncDeletions, verbose bool) bool { doSyncDeletedCount := false if syncDeletions && a.info.DeleteCount != b.info.DeleteCount { doSyncDeletedCount = true } if (a.info.FileCount != b.info.FileCount) || doSyncDeletedCount { // Do synchronization of volumes, if the modification time was before the last pulsation time
if a.info.ModifiedAtSecond < pulseTimeAtSecond || b.info.ModifiedAtSecond < pulseTimeAtSecond { return false } if eqFileCount, eqDeletedFileCount := c.eqVolumeFileCount(a, b); eqFileCount { if doSyncDeletedCount && !eqDeletedFileCount { return false } if verbose { fmt.Fprintf(c.writer, "skipping active volumes %d with the same file counts on %s and %s\n", a.info.Id, a.location.dataNode.Id, b.location.dataNode.Id) } } else { return false } } return true }
func (c *commandVolumeCheckDisk) Do(args []string, commandEnv *CommandEnv, writer io.Writer) (err error) {
fsckCommand := flag.NewFlagSet(c.Name(), flag.ContinueOnError) slowMode := fsckCommand.Bool("slow", false, "slow mode checks all replicas even file counts are the same") verbose := fsckCommand.Bool("v", false, "verbose mode") volumeId := fsckCommand.Uint("volumeId", 0, "the volume id") applyChanges := fsckCommand.Bool("force", false, "apply the fix") syncDeletions := fsckCommand.Bool("syncDeleted", false, "sync of deletions the fix") nonRepairThreshold := fsckCommand.Float64("nonRepairThreshold", 0.3, "repair when missing keys is not more than this limit") if err = fsckCommand.Parse(args); err != nil { return nil } infoAboutSimulationMode(writer, *applyChanges, "-force")
if err = commandEnv.confirmIsLocked(args); err != nil { return }
c.env = commandEnv c.writer = writer
// collect topology information
pulseTimeAtSecond := time.Now().Unix() - constants.VolumePulseSeconds*2 topologyInfo, _, err := collectTopologyInfo(commandEnv, 0) if err != nil { return err } volumeReplicas, _ := collectVolumeReplicaLocations(topologyInfo)
// pick 1 pairs of volume replica
for _, replicas := range volumeReplicas { if *volumeId > 0 && replicas[0].info.Id != uint32(*volumeId) { continue } // filter readonly replica
var writableReplicas []*VolumeReplica for _, replica := range replicas { if replica.info.ReadOnly { fmt.Fprintf(writer, "skipping readonly volume %d on %s\n", replica.info.Id, replica.location.dataNode.Id) } else { writableReplicas = append(writableReplicas, replica) } }
slices.SortFunc(writableReplicas, func(a, b *VolumeReplica) int { return int(b.info.FileCount - a.info.FileCount) }) for len(writableReplicas) >= 2 { a, b := writableReplicas[0], writableReplicas[1] if !*slowMode && c.shouldSkipVolume(a, b, pulseTimeAtSecond, *syncDeletions, *verbose) { // always choose the larger volume to be the source
writableReplicas = append(replicas[:1], writableReplicas[2:]...) continue } if err := c.syncTwoReplicas(a, b, *applyChanges, *syncDeletions, *nonRepairThreshold, *verbose); err != nil { fmt.Fprintf(writer, "sync volume %d on %s and %s: %v\n", a.info.Id, a.location.dataNode.Id, b.location.dataNode.Id, err) } // always choose the larger volume to be the source
if a.info.FileCount > b.info.FileCount { writableReplicas = append(writableReplicas[:1], writableReplicas[2:]...) } else { writableReplicas = writableReplicas[1:] } } }
return nil }
func (c *commandVolumeCheckDisk) syncTwoReplicas(a *VolumeReplica, b *VolumeReplica, applyChanges bool, doSyncDeletions bool, nonRepairThreshold float64, verbose bool) (err error) { aHasChanges, bHasChanges := true, true for aHasChanges || bHasChanges { if aHasChanges, bHasChanges, err = c.checkBoth(a, b, applyChanges, doSyncDeletions, nonRepairThreshold, verbose); err != nil { return err } } return nil }
func (c *commandVolumeCheckDisk) checkBoth(a *VolumeReplica, b *VolumeReplica, applyChanges bool, doSyncDeletions bool, nonRepairThreshold float64, verbose bool) (aHasChanges bool, bHasChanges bool, err error) { aDB, bDB := needle_map.NewMemDb(), needle_map.NewMemDb() defer func() { aDB.Close() bDB.Close() }()
// read index db
readIndexDbCutoffFrom := uint64(time.Now().UnixNano()) if err = readIndexDatabase(aDB, a.info.Collection, a.info.Id, pb.NewServerAddressFromDataNode(a.location.dataNode), verbose, c.writer, c.env.option.GrpcDialOption); err != nil { return true, true, fmt.Errorf("readIndexDatabase %s volume %d: %v", a.location.dataNode, a.info.Id, err) } if err := readIndexDatabase(bDB, b.info.Collection, b.info.Id, pb.NewServerAddressFromDataNode(b.location.dataNode), verbose, c.writer, c.env.option.GrpcDialOption); err != nil { return true, true, fmt.Errorf("readIndexDatabase %s volume %d: %v", b.location.dataNode, b.info.Id, err) }
// find and make up the differences
aHasChanges, err1 := doVolumeCheckDisk(bDB, aDB, b, a, verbose, c.writer, applyChanges, doSyncDeletions, nonRepairThreshold, readIndexDbCutoffFrom, c.env.option.GrpcDialOption) bHasChanges, err2 := doVolumeCheckDisk(aDB, bDB, a, b, verbose, c.writer, applyChanges, doSyncDeletions, nonRepairThreshold, readIndexDbCutoffFrom, c.env.option.GrpcDialOption) if err1 != nil { return aHasChanges, bHasChanges, fmt.Errorf("doVolumeCheckDisk source:%s target:%s volume %d: %v", b.location.dataNode.Id, a.location.dataNode.Id, b.info.Id, err1) } if err2 != nil { return aHasChanges, bHasChanges, fmt.Errorf("doVolumeCheckDisk source:%s target:%s volume %d: %v", a.location.dataNode.Id, b.location.dataNode.Id, a.info.Id, err2) } return aHasChanges, bHasChanges, nil }
func doVolumeCheckDisk(minuend, subtrahend *needle_map.MemDb, source, target *VolumeReplica, verbose bool, writer io.Writer, applyChanges bool, doSyncDeletions bool, nonRepairThreshold float64, cutoffFromAtNs uint64, grpcDialOption grpc.DialOption) (hasChanges bool, err error) {
// find missing keys
// hash join, can be more efficient
var missingNeedles []needle_map.NeedleValue var partiallyDeletedNeedles []needle_map.NeedleValue var counter int doCutoffOfLastNeedle := true minuend.DescendingVisit(func(minuendValue needle_map.NeedleValue) error { counter++ if subtrahendValue, found := subtrahend.Get(minuendValue.Key); !found { if minuendValue.Size.IsDeleted() { return nil } if doCutoffOfLastNeedle { if needleMeta, err := readNeedleMeta(grpcDialOption, pb.NewServerAddressFromDataNode(source.location.dataNode), source.info.Id, minuendValue); err == nil { // needles older than the cutoff time are not missing yet
if needleMeta.AppendAtNs > cutoffFromAtNs { return nil } doCutoffOfLastNeedle = false } } missingNeedles = append(missingNeedles, minuendValue) } else { if minuendValue.Size.IsDeleted() && !subtrahendValue.Size.IsDeleted() { partiallyDeletedNeedles = append(partiallyDeletedNeedles, minuendValue) } if doCutoffOfLastNeedle { doCutoffOfLastNeedle = false } } return nil })
fmt.Fprintf(writer, "volume %d %s has %d entries, %s missed %d and partially deleted %d entries\n", source.info.Id, source.location.dataNode.Id, counter, target.location.dataNode.Id, len(missingNeedles), len(partiallyDeletedNeedles))
if counter == 0 || (len(missingNeedles) == 0 && len(partiallyDeletedNeedles) == 0) { return false, nil }
missingNeedlesFraction := float64(len(missingNeedles)) / float64(counter) if missingNeedlesFraction > nonRepairThreshold { return false, fmt.Errorf( "failed to start repair volume %d, percentage of missing keys is greater than the threshold: %.2f > %.2f", source.info.Id, missingNeedlesFraction, nonRepairThreshold) }
for _, needleValue := range missingNeedles { needleBlob, err := readSourceNeedleBlob(grpcDialOption, pb.NewServerAddressFromDataNode(source.location.dataNode), source.info.Id, needleValue) if err != nil { return hasChanges, err }
if !applyChanges { continue }
if verbose { fmt.Fprintf(writer, "read %s %s => %s\n", needleValue.Key.FileId(source.info.Id), source.location.dataNode.Id, target.location.dataNode.Id) }
hasChanges = true
if err = writeNeedleBlobToTarget(grpcDialOption, pb.NewServerAddressFromDataNode(target.location.dataNode), source.info.Id, needleValue, needleBlob); err != nil { return hasChanges, err }
}
if doSyncDeletions && applyChanges && len(partiallyDeletedNeedles) > 0 { var fidList []string for _, needleValue := range partiallyDeletedNeedles { fidList = append(fidList, needleValue.Key.FileId(source.info.Id)) if verbose { fmt.Fprintf(writer, "delete %s %s => %s\n", needleValue.Key.FileId(source.info.Id), source.location.dataNode.Id, target.location.dataNode.Id) } } deleteResults, deleteErr := operation.DeleteFileIdsAtOneVolumeServer( pb.NewServerAddressFromDataNode(target.location.dataNode), grpcDialOption, fidList, false) if deleteErr != nil { return hasChanges, deleteErr } for _, deleteResult := range deleteResults { if deleteResult.Status == http.StatusAccepted && deleteResult.Size > 0 { hasChanges = true return } } } return }
func readSourceNeedleBlob(grpcDialOption grpc.DialOption, sourceVolumeServer pb.ServerAddress, volumeId uint32, needleValue needle_map.NeedleValue) (needleBlob []byte, err error) {
err = operation.WithVolumeServerClient(false, sourceVolumeServer, grpcDialOption, func(client volume_server_pb.VolumeServerClient) error { resp, err := client.ReadNeedleBlob(context.Background(), &volume_server_pb.ReadNeedleBlobRequest{ VolumeId: volumeId, Offset: needleValue.Offset.ToActualOffset(), Size: int32(needleValue.Size), }) if err != nil { return err } needleBlob = resp.NeedleBlob return nil }) return }
func writeNeedleBlobToTarget(grpcDialOption grpc.DialOption, targetVolumeServer pb.ServerAddress, volumeId uint32, needleValue needle_map.NeedleValue, needleBlob []byte) error {
return operation.WithVolumeServerClient(false, targetVolumeServer, grpcDialOption, func(client volume_server_pb.VolumeServerClient) error { _, err := client.WriteNeedleBlob(context.Background(), &volume_server_pb.WriteNeedleBlobRequest{ VolumeId: volumeId, NeedleId: uint64(needleValue.Key), Size: int32(needleValue.Size), NeedleBlob: needleBlob, }) return err })
}
func readIndexDatabase(db *needle_map.MemDb, collection string, volumeId uint32, volumeServer pb.ServerAddress, verbose bool, writer io.Writer, grpcDialOption grpc.DialOption) error {
var buf bytes.Buffer if err := copyVolumeIndexFile(collection, volumeId, volumeServer, &buf, verbose, writer, grpcDialOption); err != nil { return err }
if verbose { fmt.Fprintf(writer, "load collection %s volume %d index size %d from %s ...\n", collection, volumeId, buf.Len(), volumeServer) } return db.LoadFilterFromReaderAt(bytes.NewReader(buf.Bytes()), true, false) }
func copyVolumeIndexFile(collection string, volumeId uint32, volumeServer pb.ServerAddress, buf *bytes.Buffer, verbose bool, writer io.Writer, grpcDialOption grpc.DialOption) error {
return operation.WithVolumeServerClient(true, volumeServer, grpcDialOption, func(volumeServerClient volume_server_pb.VolumeServerClient) error {
ext := ".idx"
copyFileClient, err := volumeServerClient.CopyFile(context.Background(), &volume_server_pb.CopyFileRequest{ VolumeId: volumeId, Ext: ".idx", CompactionRevision: math.MaxUint32, StopOffset: math.MaxInt64, Collection: collection, IsEcVolume: false, IgnoreSourceFileNotFound: false, }) if err != nil { return fmt.Errorf("failed to start copying volume %d%s: %v", volumeId, ext, err) }
err = writeToBuffer(copyFileClient, buf) if err != nil { return fmt.Errorf("failed to copy %d%s from %s: %v", volumeId, ext, volumeServer, err) }
return nil
}) }
func writeToBuffer(client volume_server_pb.VolumeServer_CopyFileClient, buf *bytes.Buffer) error { for { resp, receiveErr := client.Recv() if receiveErr == io.EOF { break } if receiveErr != nil { return fmt.Errorf("receiving: %v", receiveErr) } buf.Write(resp.FileContent) } return nil }
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