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package shell
import ( "bufio" "bytes" "context" "errors" "flag" "fmt" "github.com/seaweedfs/seaweedfs/weed/filer" "github.com/seaweedfs/seaweedfs/weed/operation" "github.com/seaweedfs/seaweedfs/weed/pb" "github.com/seaweedfs/seaweedfs/weed/pb/filer_pb" "github.com/seaweedfs/seaweedfs/weed/pb/master_pb" "github.com/seaweedfs/seaweedfs/weed/pb/volume_server_pb" "github.com/seaweedfs/seaweedfs/weed/storage" "github.com/seaweedfs/seaweedfs/weed/storage/idx" "github.com/seaweedfs/seaweedfs/weed/storage/needle" "github.com/seaweedfs/seaweedfs/weed/storage/needle_map" "github.com/seaweedfs/seaweedfs/weed/storage/types" "github.com/seaweedfs/seaweedfs/weed/util" "io" "math" "net/http" "net/url" "os" "path" "path/filepath" "strconv" "strings" "sync" "time" )
func init() { Commands = append(Commands, &commandVolumeFsck{}) }
const ( readbufferSize = 16 )
type commandVolumeFsck struct { env *CommandEnv writer io.Writer bucketsPath string collection *string volumeIds map[uint32]bool tempFolder string verbose *bool forcePurging *bool findMissingChunksInFiler *bool verifyNeedle *bool }
func (c *commandVolumeFsck) Name() string { return "volume.fsck" }
func (c *commandVolumeFsck) Help() string { return `check all volumes to find entries not used by the filer
Important assumption!!! the system is all used by one filer.
This command works this way: 1. collect all file ids from all volumes, as set A 2. collect all file ids from the filer, as set B 3. find out the set A subtract B
If -findMissingChunksInFiler is enabled, this works in a reverse way: 1. collect all file ids from all volumes, as set A 2. collect all file ids from the filer, as set B 3. find out the set B subtract A
` }
func (c *commandVolumeFsck) Do(args []string, commandEnv *CommandEnv, writer io.Writer) (err error) {
fsckCommand := flag.NewFlagSet(c.Name(), flag.ContinueOnError) c.verbose = fsckCommand.Bool("v", false, "verbose mode") c.findMissingChunksInFiler = fsckCommand.Bool("findMissingChunksInFiler", false, "see \"help volume.fsck\"") c.collection = fsckCommand.String("collection", "", "the collection name") volumeIds := fsckCommand.String("volumeId", "", "comma separated the volume id") applyPurging := fsckCommand.Bool("reallyDeleteFromVolume", false, "<expert only!> after detection, delete missing data from volumes / delete missing file entries from filer. Currently this only works with default filerGroup.") c.forcePurging = fsckCommand.Bool("forcePurging", false, "delete missing data from volumes in one replica used together with applyPurging") purgeAbsent := fsckCommand.Bool("reallyDeleteFilerEntries", false, "<expert only!> delete missing file entries from filer if the corresponding volume is missing for any reason, please ensure all still existing/expected volumes are connected! used together with findMissingChunksInFiler") tempPath := fsckCommand.String("tempPath", path.Join(os.TempDir()), "path for temporary idx files") cutoffTimeAgo := fsckCommand.Duration("cutoffTimeAgo", 5*time.Minute, "only include entries on volume servers before this cutoff time to check orphan chunks") c.verifyNeedle = fsckCommand.Bool("verifyNeedles", false, "check needles status from volume server")
if err = fsckCommand.Parse(args); err != nil { return nil }
if err = commandEnv.confirmIsLocked(args); err != nil { return } c.volumeIds = make(map[uint32]bool) if *volumeIds != "" { for _, volumeIdStr := range strings.Split(*volumeIds, ",") { if volumeIdInt, err := strconv.ParseUint(volumeIdStr, 10, 32); err == nil { c.volumeIds[uint32(volumeIdInt)] = true } else { return fmt.Errorf("parse volumeId string %s to int: %v", volumeIdStr, err) } } } c.env = commandEnv c.writer = writer
c.bucketsPath, err = readFilerBucketsPath(commandEnv) if err != nil { return fmt.Errorf("read filer buckets path: %v", err) }
// create a temp folder
c.tempFolder, err = os.MkdirTemp(*tempPath, "sw_fsck") if err != nil { return fmt.Errorf("failed to create temp folder: %v", err) } if *c.verbose { fmt.Fprintf(c.writer, "working directory: %s\n", c.tempFolder) } defer os.RemoveAll(c.tempFolder)
// collect all volume id locations
dataNodeVolumeIdToVInfo, err := c.collectVolumeIds() if err != nil { return fmt.Errorf("failed to collect all volume locations: %v", err) }
if err != nil { return fmt.Errorf("read filer buckets path: %v", err) }
collectCutoffFromAtNs := time.Now().UnixNano() // collect each volume file ids
for dataNodeId, volumeIdToVInfo := range dataNodeVolumeIdToVInfo { for volumeId, vinfo := range volumeIdToVInfo { if len(c.volumeIds) > 0 { if _, ok := c.volumeIds[volumeId]; !ok { delete(volumeIdToVInfo, volumeId) continue } } if *c.collection != "" && vinfo.collection != *c.collection { delete(volumeIdToVInfo, volumeId) continue } cutoffFrom := time.Now().Add(-*cutoffTimeAgo).UnixNano() err = c.collectOneVolumeFileIds(dataNodeId, volumeId, vinfo, uint64(cutoffFrom)) if err != nil { return fmt.Errorf("failed to collect file ids from volume %d on %s: %v", volumeId, vinfo.server, err) } } if *c.verbose { fmt.Fprintf(c.writer, "dn %+v filtred %d volumes and locations.\n", dataNodeId, len(dataNodeVolumeIdToVInfo[dataNodeId])) } }
if *c.findMissingChunksInFiler { // collect all filer file ids and paths
if err = c.collectFilerFileIdAndPaths(dataNodeVolumeIdToVInfo, *purgeAbsent, collectCutoffFromAtNs); err != nil { return fmt.Errorf("collectFilerFileIdAndPaths: %v", err) } for dataNodeId, volumeIdToVInfo := range dataNodeVolumeIdToVInfo { // for each volume, check filer file ids
if err = c.findFilerChunksMissingInVolumeServers(volumeIdToVInfo, dataNodeId, *applyPurging); err != nil { return fmt.Errorf("findFilerChunksMissingInVolumeServers: %v", err) } } } else { // collect all filer file ids
if err = c.collectFilerFileIdAndPaths(dataNodeVolumeIdToVInfo, false, 0); err != nil { return fmt.Errorf("failed to collect file ids from filer: %v", err) } // volume file ids subtract filer file ids
if err = c.findExtraChunksInVolumeServers(dataNodeVolumeIdToVInfo, *applyPurging); err != nil { return fmt.Errorf("findExtraChunksInVolumeServers: %v", err) } }
return nil }
func (c *commandVolumeFsck) collectFilerFileIdAndPaths(dataNodeVolumeIdToVInfo map[string]map[uint32]VInfo, purgeAbsent bool, cutoffFromAtNs int64) error { if *c.verbose { fmt.Fprintf(c.writer, "checking each file from filer path %s...\n", c.getCollectFilerFilePath()) }
files := make(map[uint32]*os.File) for _, volumeIdToServer := range dataNodeVolumeIdToVInfo { for vid := range volumeIdToServer { if _, ok := files[vid]; ok { continue } dst, openErr := os.OpenFile(getFilerFileIdFile(c.tempFolder, vid), os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0644) if openErr != nil { return fmt.Errorf("failed to create file %s: %v", getFilerFileIdFile(c.tempFolder, vid), openErr) } files[vid] = dst } } defer func() { for _, f := range files { f.Close() } }()
return doTraverseBfsAndSaving(c.env, c.writer, c.getCollectFilerFilePath(), false, func(entry *filer_pb.FullEntry, outputChan chan interface{}) (err error) { if *c.verbose && entry.Entry.IsDirectory { fmt.Fprintf(c.writer, "checking directory %s\n", util.NewFullPath(entry.Dir, entry.Entry.Name)) } dataChunks, manifestChunks, resolveErr := filer.ResolveChunkManifest(filer.LookupFn(c.env), entry.Entry.GetChunks(), 0, math.MaxInt64) if resolveErr != nil { return fmt.Errorf("failed to ResolveChunkManifest: %+v", resolveErr) } dataChunks = append(dataChunks, manifestChunks...) for _, chunk := range dataChunks { if cutoffFromAtNs != 0 && chunk.ModifiedTsNs > cutoffFromAtNs { continue } outputChan <- &Item{ vid: chunk.Fid.VolumeId, fileKey: chunk.Fid.FileKey, cookie: chunk.Fid.Cookie, path: util.NewFullPath(entry.Dir, entry.Entry.Name), } } return nil }, func(outputChan chan interface{}) { buffer := make([]byte, readbufferSize) for item := range outputChan { i := item.(*Item) if f, ok := files[i.vid]; ok { util.Uint64toBytes(buffer, i.fileKey) util.Uint32toBytes(buffer[8:], i.cookie) util.Uint32toBytes(buffer[12:], uint32(len(i.path))) f.Write(buffer) f.Write([]byte(i.path)) } else if *c.findMissingChunksInFiler && len(c.volumeIds) == 0 { fmt.Fprintf(c.writer, "%d,%x%08x %s volume not found\n", i.vid, i.fileKey, i.cookie, i.path) if purgeAbsent { fmt.Printf("deleting path %s after volume not found", i.path) c.httpDelete(i.path) } } } }) }
func (c *commandVolumeFsck) findFilerChunksMissingInVolumeServers(volumeIdToVInfo map[uint32]VInfo, dataNodeId string, applyPurging bool) error {
for volumeId, vinfo := range volumeIdToVInfo { checkErr := c.oneVolumeFileIdsCheckOneVolume(dataNodeId, volumeId, applyPurging) if checkErr != nil { return fmt.Errorf("failed to collect file ids from volume %d on %s: %v", volumeId, vinfo.server, checkErr) } } return nil }
func (c *commandVolumeFsck) findExtraChunksInVolumeServers(dataNodeVolumeIdToVInfo map[string]map[uint32]VInfo, applyPurging bool) error {
var totalInUseCount, totalOrphanChunkCount, totalOrphanDataSize uint64 volumeIdOrphanFileIds := make(map[uint32]map[string]bool) isSeveralReplicas := make(map[uint32]bool) isEcVolumeReplicas := make(map[uint32]bool) isReadOnlyReplicas := make(map[uint32]bool) serverReplicas := make(map[uint32][]pb.ServerAddress) for dataNodeId, volumeIdToVInfo := range dataNodeVolumeIdToVInfo { for volumeId, vinfo := range volumeIdToVInfo { inUseCount, orphanFileIds, orphanDataSize, checkErr := c.oneVolumeFileIdsSubtractFilerFileIds(dataNodeId, volumeId, &vinfo) if checkErr != nil { return fmt.Errorf("failed to collect file ids from volume %d on %s: %v", volumeId, vinfo.server, checkErr) } isSeveralReplicas[volumeId] = false if _, found := volumeIdOrphanFileIds[volumeId]; !found { volumeIdOrphanFileIds[volumeId] = make(map[string]bool) } else { isSeveralReplicas[volumeId] = true } for _, fid := range orphanFileIds { if isSeveralReplicas[volumeId] { if _, found := volumeIdOrphanFileIds[volumeId][fid]; !found { continue } } volumeIdOrphanFileIds[volumeId][fid] = isSeveralReplicas[volumeId] }
totalInUseCount += inUseCount totalOrphanChunkCount += uint64(len(orphanFileIds)) totalOrphanDataSize += orphanDataSize
if *c.verbose { for _, fid := range orphanFileIds { fmt.Fprintf(c.writer, "%s:%s\n", vinfo.collection, fid) } } isEcVolumeReplicas[volumeId] = vinfo.isEcVolume if isReadOnly, found := isReadOnlyReplicas[volumeId]; !(found && isReadOnly) { isReadOnlyReplicas[volumeId] = vinfo.isReadOnly } serverReplicas[volumeId] = append(serverReplicas[volumeId], vinfo.server) }
for volumeId, orphanReplicaFileIds := range volumeIdOrphanFileIds { if !(applyPurging && len(orphanReplicaFileIds) > 0) { continue } orphanFileIds := []string{} for fid, foundInAllReplicas := range orphanReplicaFileIds { if !isSeveralReplicas[volumeId] || *c.forcePurging || (isSeveralReplicas[volumeId] && foundInAllReplicas) { orphanFileIds = append(orphanFileIds, fid) } } if !(len(orphanFileIds) > 0) { continue } if *c.verbose { fmt.Fprintf(c.writer, "purging process for volume %d.\n", volumeId) }
if isEcVolumeReplicas[volumeId] { fmt.Fprintf(c.writer, "skip purging for Erasure Coded volume %d.\n", volumeId) continue } for _, server := range serverReplicas[volumeId] { needleVID := needle.VolumeId(volumeId)
if isReadOnlyReplicas[volumeId] { err := markVolumeWritable(c.env.option.GrpcDialOption, needleVID, server, true) if err != nil { return fmt.Errorf("mark volume %d read/write: %v", volumeId, err) } fmt.Fprintf(c.writer, "temporarily marked %d on server %v writable for forced purge\n", volumeId, server) defer markVolumeWritable(c.env.option.GrpcDialOption, needleVID, server, false)
fmt.Fprintf(c.writer, "marked %d on server %v writable for forced purge\n", volumeId, server) }
if *c.verbose { fmt.Fprintf(c.writer, "purging files from volume %d\n", volumeId) }
if err := c.purgeFileIdsForOneVolume(volumeId, orphanFileIds); err != nil { return fmt.Errorf("purging volume %d: %v", volumeId, err) } } } }
if !applyPurging { pct := float64(totalOrphanChunkCount*100) / (float64(totalOrphanChunkCount + totalInUseCount)) fmt.Fprintf(c.writer, "\nTotal\t\tentries:%d\torphan:%d\t%.2f%%\t%dB\n", totalOrphanChunkCount+totalInUseCount, totalOrphanChunkCount, pct, totalOrphanDataSize)
fmt.Fprintf(c.writer, "This could be normal if multiple filers or no filers are used.\n") }
if totalOrphanChunkCount == 0 { fmt.Fprintf(c.writer, "no orphan data\n") }
return nil }
func (c *commandVolumeFsck) collectOneVolumeFileIds(dataNodeId string, volumeId uint32, vinfo VInfo, cutoffFrom uint64) error {
if *c.verbose { fmt.Fprintf(c.writer, "collecting volume %d file ids from %s ...\n", volumeId, vinfo.server) }
return operation.WithVolumeServerClient(false, vinfo.server, c.env.option.GrpcDialOption, func(volumeServerClient volume_server_pb.VolumeServerClient) error { ext := ".idx" if vinfo.isEcVolume { ext = ".ecx" }
copyFileClient, err := volumeServerClient.CopyFile(context.Background(), &volume_server_pb.CopyFileRequest{ VolumeId: volumeId, Ext: ext, CompactionRevision: math.MaxUint32, StopOffset: math.MaxInt64, Collection: vinfo.collection, IsEcVolume: vinfo.isEcVolume, IgnoreSourceFileNotFound: false, }) if err != nil { return fmt.Errorf("failed to start copying volume %d%s: %v", volumeId, ext, err) }
var buf bytes.Buffer for { resp, err := copyFileClient.Recv() if errors.Is(err, io.EOF) { break } if err != nil { return err } buf.Write(resp.FileContent) } if !vinfo.isReadOnly { index, err := idx.FirstInvalidIndex(buf.Bytes(), func(key types.NeedleId, offset types.Offset, size types.Size) (bool, error) { resp, err := volumeServerClient.ReadNeedleMeta(context.Background(), &volume_server_pb.ReadNeedleMetaRequest{ VolumeId: volumeId, NeedleId: uint64(key), Offset: offset.ToActualOffset(), Size: int32(size), }) if err != nil { return false, fmt.Errorf("read needle meta with id %d from volume %d: %v", key, volumeId, err) } return resp.AppendAtNs <= cutoffFrom, nil }) if err != nil { fmt.Fprintf(c.writer, "Failed to search for last valid index on volume %d with error %v\n", volumeId, err) } else { buf.Truncate(index * types.NeedleMapEntrySize) } } idxFilename := getVolumeFileIdFile(c.tempFolder, dataNodeId, volumeId) err = writeToFile(buf.Bytes(), idxFilename) if err != nil { return fmt.Errorf("failed to copy %d%s from %s: %v", volumeId, ext, vinfo.server, err) }
return nil })
}
type Item struct { vid uint32 fileKey uint64 cookie uint32 path util.FullPath }
func (c *commandVolumeFsck) readFilerFileIdFile(volumeId uint32, fn func(needleId types.NeedleId, itemPath util.FullPath)) error { fp, err := os.Open(getFilerFileIdFile(c.tempFolder, volumeId)) if err != nil { return err } defer fp.Close()
br := bufio.NewReader(fp) buffer := make([]byte, readbufferSize) var readSize int var readErr error item := &Item{vid: volumeId} for { readSize, readErr = io.ReadFull(br, buffer) if errors.Is(readErr, io.EOF) { break } if readErr != nil { return readErr } if readSize != readbufferSize { return fmt.Errorf("readSize mismatch") } item.fileKey = util.BytesToUint64(buffer[:8]) item.cookie = util.BytesToUint32(buffer[8:12]) pathSize := util.BytesToUint32(buffer[12:16]) pathBytes := make([]byte, int(pathSize)) n, err := io.ReadFull(br, pathBytes) if err != nil { fmt.Fprintf(c.writer, "%d,%x%08x in unexpected error: %v\n", volumeId, item.fileKey, item.cookie, err) } if n != int(pathSize) { fmt.Fprintf(c.writer, "%d,%x%08x %d unexpected file name size %d\n", volumeId, item.fileKey, item.cookie, pathSize, n) } item.path = util.FullPath(pathBytes) needleId := types.NeedleId(item.fileKey) fn(needleId, item.path) } return nil }
func (c *commandVolumeFsck) oneVolumeFileIdsCheckOneVolume(dataNodeId string, volumeId uint32, applyPurging bool) (err error) { if *c.verbose { fmt.Fprintf(c.writer, "find missing file chunks in dataNodeId %s volume %d ...\n", dataNodeId, volumeId) }
db := needle_map.NewMemDb() defer db.Close()
if err = db.LoadFromIdx(getVolumeFileIdFile(c.tempFolder, dataNodeId, volumeId)); err != nil { return } if err = c.readFilerFileIdFile(volumeId, func(needleId types.NeedleId, itemPath util.FullPath) { if _, found := db.Get(needleId); !found { fmt.Fprintf(c.writer, "%s\n", itemPath) if applyPurging { c.httpDelete(itemPath) } } }); err != nil { return } return nil }
func (c *commandVolumeFsck) httpDelete(path util.FullPath) { req, err := http.NewRequest(http.MethodDelete, "", nil)
req.URL = &url.URL{ Scheme: "http", Host: c.env.option.FilerAddress.ToHttpAddress(), Path: string(path), } if *c.verbose { fmt.Fprintf(c.writer, "full HTTP delete request to be sent: %v\n", req) } if err != nil { fmt.Fprintf(c.writer, "HTTP delete request error: %v\n", err) }
client := &http.Client{}
resp, err := client.Do(req) if err != nil { fmt.Fprintf(c.writer, "DELETE fetch error: %v\n", err) } defer resp.Body.Close()
_, err = io.ReadAll(resp.Body) if err != nil { fmt.Fprintf(c.writer, "DELETE response error: %v\n", err) }
if *c.verbose { fmt.Fprintln(c.writer, "delete response Status : ", resp.Status) fmt.Fprintln(c.writer, "delete response Headers : ", resp.Header) } }
func (c *commandVolumeFsck) oneVolumeFileIdsSubtractFilerFileIds(dataNodeId string, volumeId uint32, vinfo *VInfo) (inUseCount uint64, orphanFileIds []string, orphanDataSize uint64, err error) {
volumeFileIdDb := needle_map.NewMemDb() defer volumeFileIdDb.Close()
if err = volumeFileIdDb.LoadFromIdx(getVolumeFileIdFile(c.tempFolder, dataNodeId, volumeId)); err != nil { err = fmt.Errorf("failed to LoadFromIdx %+v", err) return }
if err = c.readFilerFileIdFile(volumeId, func(filerNeedleId types.NeedleId, itemPath util.FullPath) { inUseCount++ if *c.verifyNeedle { if needleValue, ok := volumeFileIdDb.Get(filerNeedleId); ok && !needleValue.Size.IsDeleted() { if _, err := readNeedleStatus(c.env.option.GrpcDialOption, vinfo.server, volumeId, *needleValue); err != nil { // files may be deleted during copying filesIds
if !strings.Contains(err.Error(), storage.ErrorDeleted.Error()) { fmt.Fprintf(c.writer, "failed to read %d:%s needle status of file %s: %+v\n", volumeId, filerNeedleId.String(), itemPath, err) if *c.forcePurging { return } } } } }
if err = volumeFileIdDb.Delete(filerNeedleId); err != nil && *c.verbose { fmt.Fprintf(c.writer, "failed to nm.delete %s(%+v): %+v", itemPath, filerNeedleId, err) } }); err != nil { err = fmt.Errorf("failed to readFilerFileIdFile %+v", err) return }
var orphanFileCount uint64 if err = volumeFileIdDb.AscendingVisit(func(n needle_map.NeedleValue) error { if n.Size.IsDeleted() { return nil } orphanFileIds = append(orphanFileIds, n.Key.FileId(volumeId)) orphanFileCount++ orphanDataSize += uint64(n.Size) return nil }); err != nil { err = fmt.Errorf("failed to AscendingVisit %+v", err) return }
if orphanFileCount > 0 { pct := float64(orphanFileCount*100) / (float64(orphanFileCount + inUseCount)) fmt.Fprintf(c.writer, "dataNode:%s\tvolume:%d\tentries:%d\torphan:%d\t%.2f%%\t%dB\n", dataNodeId, volumeId, orphanFileCount+inUseCount, orphanFileCount, pct, orphanDataSize) }
return
}
type VInfo struct { server pb.ServerAddress collection string isEcVolume bool isReadOnly bool }
func (c *commandVolumeFsck) collectVolumeIds() (volumeIdToServer map[string]map[uint32]VInfo, err error) {
if *c.verbose { fmt.Fprintf(c.writer, "collecting volume id and locations from master ...\n") }
volumeIdToServer = make(map[string]map[uint32]VInfo) // collect topology information
topologyInfo, _, err := collectTopologyInfo(c.env, 0) if err != nil { return }
eachDataNode(topologyInfo, func(dc string, rack RackId, t *master_pb.DataNodeInfo) { for _, diskInfo := range t.DiskInfos { dataNodeId := t.GetId() volumeIdToServer[dataNodeId] = make(map[uint32]VInfo) for _, vi := range diskInfo.VolumeInfos { volumeIdToServer[dataNodeId][vi.Id] = VInfo{ server: pb.NewServerAddressFromDataNode(t), collection: vi.Collection, isEcVolume: false, isReadOnly: vi.ReadOnly, } } for _, ecShardInfo := range diskInfo.EcShardInfos { volumeIdToServer[dataNodeId][ecShardInfo.Id] = VInfo{ server: pb.NewServerAddressFromDataNode(t), collection: ecShardInfo.Collection, isEcVolume: true, isReadOnly: true, } } if *c.verbose { fmt.Fprintf(c.writer, "dn %+v collected %d volumes and locations.\n", dataNodeId, len(volumeIdToServer[dataNodeId])) } } }) return }
func (c *commandVolumeFsck) purgeFileIdsForOneVolume(volumeId uint32, fileIds []string) (err error) { fmt.Fprintf(c.writer, "purging orphan data for volume %d...\n", volumeId) locations, found := c.env.MasterClient.GetLocations(volumeId) if !found { return fmt.Errorf("failed to find volume %d locations", volumeId) }
resultChan := make(chan []*volume_server_pb.DeleteResult, len(locations)) var wg sync.WaitGroup for _, location := range locations { wg.Add(1) go func(server pb.ServerAddress, fidList []string) { defer wg.Done()
if deleteResults, deleteErr := operation.DeleteFilesAtOneVolumeServer(server, c.env.option.GrpcDialOption, fidList, false); deleteErr != nil { err = deleteErr } else if deleteResults != nil { resultChan <- deleteResults }
}(location.ServerAddress(), fileIds) } wg.Wait() close(resultChan)
for results := range resultChan { for _, result := range results { if result.Error != "" { fmt.Fprintf(c.writer, "purge error: %s\n", result.Error) } } }
return }
func (c *commandVolumeFsck) getCollectFilerFilePath() string { if *c.collection != "" { return fmt.Sprintf("%s/%s", c.bucketsPath, *c.collection) } return "/" }
func getVolumeFileIdFile(tempFolder string, dataNodeid string, vid uint32) string { return filepath.Join(tempFolder, fmt.Sprintf("%s_%d.idx", dataNodeid, vid)) }
func getFilerFileIdFile(tempFolder string, vid uint32) string { return filepath.Join(tempFolder, fmt.Sprintf("%d.fid", vid)) }
func writeToFile(bytes []byte, fileName string) error { flags := os.O_WRONLY | os.O_CREATE | os.O_TRUNC dst, err := os.OpenFile(fileName, flags, 0644) if err != nil { return nil } defer dst.Close()
dst.Write(bytes) return nil }
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