/* * MinIO Cloud Storage, (C) 2016, 2017, 2018 MinIO, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package cmd import ( "bytes" "context" "encoding/json" "fmt" "io/ioutil" "reflect" "sync" "encoding/hex" humanize "github.com/dustin/go-humanize" "github.com/minio/minio/cmd/logger" sha256 "github.com/minio/sha256-simd" ) const ( // Represents XL backend. formatBackendXL = "xl" // formatXLV1.XL.Version - version '1'. formatXLVersionV1 = "1" // formatXLV2.XL.Version - version '2'. formatXLVersionV2 = "2" // formatXLV3.XL.Version - version '3'. formatXLVersionV3 = "3" // Distribution algorithm used. formatXLVersionV2DistributionAlgo = "CRCMOD" ) // Offline disk UUID represents an offline disk. const offlineDiskUUID = "ffffffff-ffff-ffff-ffff-ffffffffffff" // Healing is only supported for the list of errors mentioned here. var formatHealErrors = map[error]struct{}{ errUnformattedDisk: {}, errDiskNotFound: {}, } // List of errors considered critical for disk formatting. var formatCriticalErrors = map[error]struct{}{ errCorruptedFormat: {}, errFaultyDisk: {}, } // Used to detect the version of "xl" format. type formatXLVersionDetect struct { XL struct { Version string `json:"version"` } `json:"xl"` } // Represents the V1 backend disk structure version // under `.minio.sys` and actual data namespace. // formatXLV1 - structure holds format config version '1'. type formatXLV1 struct { formatMetaV1 XL struct { Version string `json:"version"` // Version of 'xl' format. Disk string `json:"disk"` // Disk field carries assigned disk uuid. // JBOD field carries the input disk order generated the first // time when fresh disks were supplied. JBOD []string `json:"jbod"` } `json:"xl"` // XL field holds xl format. } // Represents the V2 backend disk structure version // under `.minio.sys` and actual data namespace. // formatXLV2 - structure holds format config version '2'. // The V2 format to support "large bucket" support where a bucket // can span multiple erasure sets. type formatXLV2 struct { formatMetaV1 XL struct { Version string `json:"version"` // Version of 'xl' format. This string `json:"this"` // This field carries assigned disk uuid. // Sets field carries the input disk order generated the first // time when fresh disks were supplied, it is a two dimensional // array second dimension represents list of disks used per set. Sets [][]string `json:"sets"` // Distribution algorithm represents the hashing algorithm // to pick the right set index for an object. DistributionAlgo string `json:"distributionAlgo"` } `json:"xl"` } // formatXLV3 struct is same as formatXLV2 struct except that formatXLV3.XL.Version is "3" indicating // the simplified multipart backend which is a flat hierarchy now. // In .minio.sys/multipart we have: // sha256(bucket/object)/uploadID/[xl.json, part.1, part.2 ....] type formatXLV3 struct { formatMetaV1 XL struct { Version string `json:"version"` // Version of 'xl' format. This string `json:"this"` // This field carries assigned disk uuid. // Sets field carries the input disk order generated the first // time when fresh disks were supplied, it is a two dimensional // array second dimension represents list of disks used per set. Sets [][]string `json:"sets"` // Distribution algorithm represents the hashing algorithm // to pick the right set index for an object. DistributionAlgo string `json:"distributionAlgo"` } `json:"xl"` } // Returns formatXL.XL.Version func newFormatXLV3(numSets int, setLen int) *formatXLV3 { format := &formatXLV3{} format.Version = formatMetaVersionV1 format.Format = formatBackendXL format.ID = mustGetUUID() format.XL.Version = formatXLVersionV3 format.XL.DistributionAlgo = formatXLVersionV2DistributionAlgo format.XL.Sets = make([][]string, numSets) for i := 0; i < numSets; i++ { format.XL.Sets[i] = make([]string, setLen) for j := 0; j < setLen; j++ { format.XL.Sets[i][j] = mustGetUUID() } } return format } // Returns formatXL.XL.Version information, this code is specifically // used to read XL `format.json` and capture any version information // that it may have. func formatXLGetVersion(formatPath string) (string, error) { format := &formatXLVersionDetect{} b, err := ioutil.ReadFile(formatPath) if err != nil { return "", err } if err = json.Unmarshal(b, format); err != nil { return "", err } return format.XL.Version, nil } // Returns format meta format version from `format.json`. This code // is specifically used to detect meta format. func formatMetaGetFormatBackendXL(formatPath string) (string, error) { meta := &formatMetaV1{} b, err := ioutil.ReadFile(formatPath) if err != nil { return "", err } if err = json.Unmarshal(b, meta); err != nil { return "", err } if meta.Version != formatMetaVersionV1 { return "", fmt.Errorf(`format.Version expected: %s, got: %s`, formatMetaVersionV1, meta.Version) } return meta.Format, nil } // Migrates all previous versions to latest version of `format.json`, // this code calls migration in sequence, such as V1 is migrated to V2 // first before it V2 migrates to V3. func formatXLMigrate(export string) error { formatPath := pathJoin(export, minioMetaBucket, formatConfigFile) backend, err := formatMetaGetFormatBackendXL(formatPath) if err != nil { return err } if backend != formatBackendXL { return fmt.Errorf(`Disk %s: found backend %s, expected %s`, export, backend, formatBackendXL) } version, err := formatXLGetVersion(formatPath) if err != nil { return err } switch version { case formatXLVersionV1: if err = formatXLMigrateV1ToV2(export); err != nil { return err } fallthrough case formatXLVersionV2: if err = formatXLMigrateV2ToV3(export); err != nil { return err } fallthrough case formatXLVersionV3: // format-V3 is the latest verion. return nil } return fmt.Errorf(`%s: unknown format version %s`, export, version) } // Migrates version V1 of format.json to version V2 of format.json, // migration fails upon any error. func formatXLMigrateV1ToV2(export string) error { formatPath := pathJoin(export, minioMetaBucket, formatConfigFile) version, err := formatXLGetVersion(formatPath) if err != nil { return err } if version != formatXLVersionV1 { return fmt.Errorf(`Disk %s: format version expected %s, found %s`, export, formatXLVersionV1, version) } formatV1 := &formatXLV1{} b, err := ioutil.ReadFile(formatPath) if err != nil { return err } if err = json.Unmarshal(b, formatV1); err != nil { return err } formatV2 := &formatXLV2{} formatV2.Version = formatMetaVersionV1 formatV2.Format = formatBackendXL formatV2.XL.Version = formatXLVersionV2 formatV2.XL.DistributionAlgo = formatXLVersionV2DistributionAlgo formatV2.XL.This = formatV1.XL.Disk formatV2.XL.Sets = make([][]string, 1) formatV2.XL.Sets[0] = make([]string, len(formatV1.XL.JBOD)) copy(formatV2.XL.Sets[0], formatV1.XL.JBOD) b, err = json.Marshal(formatV2) if err != nil { return err } return ioutil.WriteFile(formatPath, b, 0644) } // Migrates V2 for format.json to V3 (Flat hierarchy for multipart) func formatXLMigrateV2ToV3(export string) error { formatPath := pathJoin(export, minioMetaBucket, formatConfigFile) version, err := formatXLGetVersion(formatPath) if err != nil { return err } if version != formatXLVersionV2 { return fmt.Errorf(`Disk %s: format version expected %s, found %s`, export, formatXLVersionV2, version) } formatV2 := &formatXLV2{} b, err := ioutil.ReadFile(formatPath) if err != nil { return err } err = json.Unmarshal(b, formatV2) if err != nil { return err } if err = removeAll(pathJoin(export, minioMetaMultipartBucket)); err != nil { return err } if err = mkdirAll(pathJoin(export, minioMetaMultipartBucket), 0755); err != nil { return err } // format-V2 struct is exactly same as format-V1 except that version is "3" // which indicates the simplified multipart backend. formatV3 := formatXLV3{} formatV3.Version = formatV2.Version formatV3.Format = formatV2.Format formatV3.XL = formatV2.XL formatV3.XL.Version = formatXLVersionV3 b, err = json.Marshal(formatV3) if err != nil { return err } return ioutil.WriteFile(formatPath, b, 0644) } // countErrs - count a specific error. func countErrs(errs []error, err error) int { var i = 0 for _, err1 := range errs { if err1 == err { i++ } } return i } // Does all errors indicate we need to initialize all disks?. func shouldInitXLDisks(errs []error) bool { return countErrs(errs, errUnformattedDisk) == len(errs) } // Check if unformatted disks are equal to write quorum. func quorumUnformattedDisks(errs []error) bool { return countErrs(errs, errUnformattedDisk) >= (len(errs)/2)+1 } // loadFormatXLAll - load all format config from all input disks in parallel. func loadFormatXLAll(storageDisks []StorageAPI) ([]*formatXLV3, []error) { // Initialize sync waitgroup. var wg sync.WaitGroup // Initialize list of errors. var sErrs = make([]error, len(storageDisks)) // Initialize format configs. var formats = make([]*formatXLV3, len(storageDisks)) // Load format from each disk in parallel for index, disk := range storageDisks { if disk == nil { sErrs[index] = errDiskNotFound continue } wg.Add(1) // Launch go-routine per disk. go func(index int, disk StorageAPI) { defer wg.Done() format, lErr := loadFormatXL(disk) if lErr != nil { sErrs[index] = lErr return } formats[index] = format }(index, disk) } // Wait for all go-routines to finish. wg.Wait() // Return all formats and nil return formats, sErrs } func saveFormatXL(disk StorageAPI, format interface{}) error { // Marshal and write to disk. formatBytes, err := json.Marshal(format) if err != nil { return err } tmpFormatJSON := mustGetUUID() + ".json" // Purge any existing temporary file, okay to ignore errors here. defer disk.DeleteFile(minioMetaBucket, tmpFormatJSON) // Append file `format.json.tmp`. if err = disk.WriteAll(minioMetaBucket, tmpFormatJSON, bytes.NewReader(formatBytes)); err != nil { return err } // Rename file `uuid.json` --> `format.json`. return disk.RenameFile(minioMetaBucket, tmpFormatJSON, minioMetaBucket, formatConfigFile) } var ignoredHiddenDirectories = []string{ minioMetaBucket, ".snapshot", "lost+found", "$RECYCLE.BIN", "System Volume Information", } func isIgnoreHiddenDirectories(dir string) bool { for _, ignDir := range ignoredHiddenDirectories { if dir == ignDir { return true } } return false } // loadFormatXL - loads format.json from disk. func loadFormatXL(disk StorageAPI) (format *formatXLV3, err error) { buf, err := disk.ReadAll(minioMetaBucket, formatConfigFile) if err != nil { // 'file not found' and 'volume not found' as // same. 'volume not found' usually means its a fresh disk. if err == errFileNotFound || err == errVolumeNotFound { var vols []VolInfo vols, err = disk.ListVols() if err != nil { return nil, err } if len(vols) > 1 || (len(vols) == 1 && !isIgnoreHiddenDirectories(vols[0].Name)) { // 'format.json' not found, but we // found user data. return nil, errCorruptedFormat } // No other data found, its a fresh disk. return nil, errUnformattedDisk } return nil, err } // Try to decode format json into formatConfigV1 struct. format = &formatXLV3{} if err = json.Unmarshal(buf, format); err != nil { return nil, err } // Success. return format, nil } // Valid formatXL basic versions. func checkFormatXLValue(formatXL *formatXLV3) error { // Validate format version and format type. if formatXL.Version != formatMetaVersionV1 { return fmt.Errorf("Unsupported version of backend format [%s] found", formatXL.Version) } if formatXL.Format != formatBackendXL { return fmt.Errorf("Unsupported backend format [%s] found", formatXL.Format) } if formatXL.XL.Version != formatXLVersionV3 { return fmt.Errorf("Unsupported XL backend format found [%s]", formatXL.XL.Version) } return nil } // Check all format values. func checkFormatXLValues(formats []*formatXLV3) error { for i, formatXL := range formats { if formatXL == nil { continue } if err := checkFormatXLValue(formatXL); err != nil { return err } if len(formats) != len(formatXL.XL.Sets)*len(formatXL.XL.Sets[0]) { return fmt.Errorf("%s disk is already being used in another erasure deployment. (Number of disks specified: %d but the number of disks found in the %s disk's format.json: %d)", humanize.Ordinal(i+1), len(formats), humanize.Ordinal(i+1), len(formatXL.XL.Sets)*len(formatXL.XL.Sets[0])) } } return nil } // Get Deployment ID for the XL sets from format.json. // This need not be in quorum. Even if one of the format.json // file has this value, we assume it is valid. // If more than one format.json's have different id, it is considered a corrupt // backend format. func formatXLGetDeploymentID(refFormat *formatXLV3, formats []*formatXLV3) (string, error) { var deploymentID string for _, format := range formats { if format == nil || format.ID == "" { continue } if reflect.DeepEqual(format.XL.Sets, refFormat.XL.Sets) { // Found an ID in one of the format.json file // Set deploymentID for the first time. if deploymentID == "" { deploymentID = format.ID } else if deploymentID != format.ID { // DeploymentID found earlier doesn't match with the // current format.json's ID. return "", errCorruptedFormat } } } return deploymentID, nil } // formatXLFixDeploymentID - Add deployment id if it is not present. func formatXLFixDeploymentID(ctx context.Context, endpoints EndpointList, storageDisks []StorageAPI, refFormat *formatXLV3) (err error) { // Acquire lock on format.json mutex := newNSLock(globalIsDistXL) formatLock := mutex.NewNSLock(ctx, minioMetaBucket, formatConfigFile) if err = formatLock.GetLock(globalHealingTimeout); err != nil { return err } defer formatLock.Unlock() // Attempt to load all `format.json` from all disks. var sErrs []error formats, sErrs := loadFormatXLAll(storageDisks) for i, sErr := range sErrs { if _, ok := formatCriticalErrors[sErr]; ok { return fmt.Errorf("Disk %s: %s", endpoints[i], sErr) } } for index := range formats { // If the XL sets do not match, set those formats to nil, // We do not have to update the ID on those format.json file. if formats[index] != nil && !reflect.DeepEqual(formats[index].XL.Sets, refFormat.XL.Sets) { formats[index] = nil } } refFormat.ID, err = formatXLGetDeploymentID(refFormat, formats) if err != nil { return err } // If ID is set, then some other node got the lock // before this node could and generated an ID // for the deployment. No need to generate one. if refFormat.ID != "" { return nil } // ID is generated for the first time, // We set the ID in all the formats and update. refFormat.ID = mustGetUUID() for _, format := range formats { if format != nil { format.ID = refFormat.ID } } // Deployment ID needs to be set on all the disks. // Save `format.json` across all disks. return saveFormatXLAll(ctx, storageDisks, formats) } // Update only the valid local disks which have not been updated before. func formatXLFixLocalDeploymentID(ctx context.Context, endpoints EndpointList, storageDisks []StorageAPI, refFormat *formatXLV3) error { // If this server was down when the deploymentID was updated // then we make sure that we update the local disks with the deploymentID. for index, storageDisk := range storageDisks { if endpoints[index].IsLocal && storageDisk != nil && storageDisk.IsOnline() { format, err := loadFormatXL(storageDisk) if err != nil { // Disk can be offline etc. // ignore the errors seen here. continue } if format.ID != "" { continue } if !reflect.DeepEqual(format.XL.Sets, refFormat.XL.Sets) { continue } format.ID = refFormat.ID if err := saveFormatXL(storageDisk, format); err != nil { logger.LogIf(ctx, err) return fmt.Errorf("Unable to save format.json, %s", err) } } } return nil } // Get backend XL format in quorum `format.json`. func getFormatXLInQuorum(formats []*formatXLV3) (*formatXLV3, error) { formatHashes := make([]string, len(formats)) for i, format := range formats { if format == nil { continue } h := sha256.New() for _, set := range format.XL.Sets { for _, diskID := range set { h.Write([]byte(diskID)) } } formatHashes[i] = hex.EncodeToString(h.Sum(nil)) } formatCountMap := make(map[string]int) for _, hash := range formatHashes { if hash == "" { continue } formatCountMap[hash]++ } maxHash := "" maxCount := 0 for hash, count := range formatCountMap { if count > maxCount { maxCount = count maxHash = hash } } if maxCount < len(formats)/2 { return nil, errXLReadQuorum } for i, hash := range formatHashes { if hash == maxHash { format := *formats[i] format.XL.This = "" return &format, nil } } return nil, errXLReadQuorum } func formatXLV3Check(reference *formatXLV3, format *formatXLV3) error { tmpFormat := *format this := tmpFormat.XL.This tmpFormat.XL.This = "" if len(reference.XL.Sets) != len(format.XL.Sets) { return fmt.Errorf("Expected number of sets %d, got %d", len(reference.XL.Sets), len(format.XL.Sets)) } // Make sure that the sets match. for i := range reference.XL.Sets { if len(reference.XL.Sets[i]) != len(format.XL.Sets[i]) { return fmt.Errorf("Each set should be of same size, expected %d got %d", len(reference.XL.Sets[i]), len(format.XL.Sets[i])) } for j := range reference.XL.Sets[i] { if reference.XL.Sets[i][j] != format.XL.Sets[i][j] { return fmt.Errorf("UUID on positions %d:%d do not match with, expected %s got %s", i, j, reference.XL.Sets[i][j], format.XL.Sets[i][j]) } } } // Make sure that the diskID is found in the set. for i := 0; i < len(tmpFormat.XL.Sets); i++ { for j := 0; j < len(tmpFormat.XL.Sets[i]); j++ { if this == tmpFormat.XL.Sets[i][j] { return nil } } } return fmt.Errorf("Disk ID %s not found in any disk sets %s", this, format.XL.Sets) } // saveFormatXLAll - populates `format.json` on disks in its order. func saveFormatXLAll(ctx context.Context, storageDisks []StorageAPI, formats []*formatXLV3) error { var errs = make([]error, len(storageDisks)) var wg sync.WaitGroup // Write `format.json` to all disks. for index, disk := range storageDisks { if formats[index] == nil || disk == nil { errs[index] = errDiskNotFound continue } wg.Add(1) go func(index int, disk StorageAPI, format *formatXLV3) { defer wg.Done() errs[index] = saveFormatXL(disk, format) }(index, disk, formats[index]) } // Wait for the routines to finish. wg.Wait() writeQuorum := len(storageDisks)/2 + 1 return reduceWriteQuorumErrs(ctx, errs, nil, writeQuorum) } // relinquishes the underlying connection for all storage disks. func closeStorageDisks(storageDisks []StorageAPI) { for _, disk := range storageDisks { if disk == nil { continue } disk.Close() } } // Initialize storage disks based on input arguments. func initStorageDisks(endpoints EndpointList) ([]StorageAPI, error) { // Bootstrap disks. storageDisks := make([]StorageAPI, len(endpoints)) for index, endpoint := range endpoints { storage, err := newStorageAPI(endpoint) if err != nil && err != errDiskNotFound { return nil, err } storageDisks[index] = storage } return storageDisks, nil } // Runs through the faulty disks and record their errors. func initDisksWithErrors(endpoints EndpointList) ([]StorageAPI, []error) { storageDisks := make([]StorageAPI, len(endpoints)) var dErrs = make([]error, len(storageDisks)) for index, endpoint := range endpoints { storage, err := newStorageAPI(endpoint) if err != nil { logger.LogIf(context.Background(), err) dErrs[index] = err continue } storageDisks[index] = storage } return storageDisks, dErrs } // formatXLV3ThisEmpty - find out if '.This' field is empty // in any of the input `formats`, if yes return true. func formatXLV3ThisEmpty(formats []*formatXLV3) bool { for _, format := range formats { if format == nil { continue } // NOTE: This code is specifically needed when migrating version // V1 to V2 to V3, in a scenario such as this we only need to handle // single sets since we never used to support multiple sets in releases // with V1 format version. if len(format.XL.Sets) > 1 { continue } if format.XL.This == "" { return true } } return false } // fixFormatXLV3 - fix format XL configuration on all disks. func fixFormatXLV3(storageDisks []StorageAPI, endpoints EndpointList, formats []*formatXLV3) error { for i, format := range formats { if format == nil || !endpoints[i].IsLocal { continue } // NOTE: This code is specifically needed when migrating version // V1 to V2 to V3, in a scenario such as this we only need to handle // single sets since we never used to support multiple sets in releases // with V1 format version. if len(format.XL.Sets) > 1 { continue } if format.XL.This == "" { formats[i].XL.This = format.XL.Sets[0][i] if err := saveFormatXL(storageDisks[i], formats[i]); err != nil { return err } } } return nil } // initFormatXL - save XL format configuration on all disks. func initFormatXL(ctx context.Context, storageDisks []StorageAPI, setCount, disksPerSet int) (format *formatXLV3, err error) { format = newFormatXLV3(setCount, disksPerSet) formats := make([]*formatXLV3, len(storageDisks)) for i := 0; i < setCount; i++ { for j := 0; j < disksPerSet; j++ { newFormat := *format newFormat.XL.This = format.XL.Sets[i][j] formats[i*disksPerSet+j] = &newFormat } } // Initialize meta volume, if volume already exists ignores it. if err = initFormatXLMetaVolume(storageDisks, formats); err != nil { return format, fmt.Errorf("Unable to initialize '.minio.sys' meta volume, %s", err) } // Save formats `format.json` across all disks. if err = saveFormatXLAll(ctx, storageDisks, formats); err != nil { return nil, err } return format, nil } // Make XL backend meta volumes. func makeFormatXLMetaVolumes(disk StorageAPI) error { // Attempt to create `.minio.sys`. if err := disk.MakeVol(minioMetaBucket); err != nil { if !IsErrIgnored(err, initMetaVolIgnoredErrs...) { return err } } if err := disk.MakeVol(minioMetaTmpBucket); err != nil { if !IsErrIgnored(err, initMetaVolIgnoredErrs...) { return err } } if err := disk.MakeVol(minioMetaMultipartBucket); err != nil { if !IsErrIgnored(err, initMetaVolIgnoredErrs...) { return err } } return nil } var initMetaVolIgnoredErrs = append(baseIgnoredErrs, errVolumeExists) // Initializes meta volume on all input storage disks. func initFormatXLMetaVolume(storageDisks []StorageAPI, formats []*formatXLV3) error { // This happens for the first time, but keep this here since this // is the only place where it can be made expensive optimizing all // other calls. Create minio meta volume, if it doesn't exist yet. var wg sync.WaitGroup // Initialize errs to collect errors inside go-routine. var errs = make([]error, len(storageDisks)) // Initialize all disks in parallel. for index, disk := range storageDisks { if formats[index] == nil || disk == nil { // Ignore create meta volume on disks which are not found. continue } wg.Add(1) go func(index int, disk StorageAPI) { // Indicate this wait group is done. defer wg.Done() errs[index] = makeFormatXLMetaVolumes(disk) }(index, disk) } // Wait for all cleanup to finish. wg.Wait() // Return upon first error. for _, err := range errs { if err == nil { continue } return toObjectErr(err, minioMetaBucket) } // Return success here. return nil } // Get all UUIDs which are present in reference format should // be present in the list of formats provided, those are considered // as online UUIDs. func getOnlineUUIDs(refFormat *formatXLV3, formats []*formatXLV3) (onlineUUIDs []string) { for _, format := range formats { if format == nil { continue } for _, set := range refFormat.XL.Sets { for _, uuid := range set { if format.XL.This == uuid { onlineUUIDs = append(onlineUUIDs, uuid) } } } } return onlineUUIDs } // Look for all UUIDs which are not present in reference format // but are present in the onlineUUIDs list, construct of list such // offline UUIDs. func getOfflineUUIDs(refFormat *formatXLV3, formats []*formatXLV3) (offlineUUIDs []string) { onlineUUIDs := getOnlineUUIDs(refFormat, formats) for i, set := range refFormat.XL.Sets { for j, uuid := range set { var found bool for _, onlineUUID := range onlineUUIDs { if refFormat.XL.Sets[i][j] == onlineUUID { found = true } } if !found { offlineUUIDs = append(offlineUUIDs, uuid) } } } return offlineUUIDs } // Mark all UUIDs that are offline. func markUUIDsOffline(refFormat *formatXLV3, formats []*formatXLV3) { offlineUUIDs := getOfflineUUIDs(refFormat, formats) for i, set := range refFormat.XL.Sets { for j := range set { for _, offlineUUID := range offlineUUIDs { if refFormat.XL.Sets[i][j] == offlineUUID { refFormat.XL.Sets[i][j] = offlineDiskUUID } } } } } // Initialize a new set of set formats which will be written to all disks. func newHealFormatSets(refFormat *formatXLV3, setCount, disksPerSet int, formats []*formatXLV3, errs []error) [][]*formatXLV3 { newFormats := make([][]*formatXLV3, setCount) for i := range refFormat.XL.Sets { newFormats[i] = make([]*formatXLV3, disksPerSet) } for i := range refFormat.XL.Sets { for j := range refFormat.XL.Sets[i] { if errs[i*disksPerSet+j] == errUnformattedDisk || errs[i*disksPerSet+j] == nil { newFormats[i][j] = &formatXLV3{} newFormats[i][j].Version = refFormat.Version newFormats[i][j].ID = refFormat.ID newFormats[i][j].Format = refFormat.Format newFormats[i][j].XL.Version = refFormat.XL.Version newFormats[i][j].XL.DistributionAlgo = refFormat.XL.DistributionAlgo } if errs[i*disksPerSet+j] == errUnformattedDisk { newFormats[i][j].XL.This = "" newFormats[i][j].XL.Sets = nil continue } if errs[i*disksPerSet+j] == nil { newFormats[i][j].XL.This = formats[i*disksPerSet+j].XL.This newFormats[i][j].XL.Sets = nil } } } return newFormats }