// Copyright (c) 2015-2024 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "context" "errors" "fmt" "math/rand" "runtime" "sort" "time" "github.com/dustin/go-humanize" "github.com/minio/madmin-go/v3" "github.com/minio/minio/internal/bucket/lifecycle" objectlock "github.com/minio/minio/internal/bucket/object/lock" "github.com/minio/minio/internal/bucket/replication" "github.com/minio/minio/internal/bucket/versioning" "github.com/minio/minio/internal/color" "github.com/minio/minio/internal/config/storageclass" xioutil "github.com/minio/minio/internal/ioutil" "github.com/minio/minio/internal/logger" "github.com/minio/pkg/v2/console" "github.com/minio/pkg/v2/wildcard" "github.com/minio/pkg/v2/workers" ) const ( bgHealingUUID = "0000-0000-0000-0000" ) // NewBgHealSequence creates a background healing sequence // operation which scans all objects and heal them. func newBgHealSequence() *healSequence { reqInfo := &logger.ReqInfo{API: "BackgroundHeal"} ctx, cancelCtx := context.WithCancel(logger.SetReqInfo(GlobalContext, reqInfo)) hs := madmin.HealOpts{ // Remove objects that do not have read-quorum Remove: healDeleteDangling, } return &healSequence{ startTime: UTCNow(), clientToken: bgHealingUUID, // run-background heal with reserved bucket bucket: minioReservedBucket, settings: hs, currentStatus: healSequenceStatus{ Summary: healNotStartedStatus, HealSettings: hs, }, cancelCtx: cancelCtx, ctx: ctx, reportProgress: false, scannedItemsMap: make(map[madmin.HealItemType]int64), healedItemsMap: make(map[madmin.HealItemType]int64), healFailedItemsMap: make(map[string]int64), } } // getLocalBackgroundHealStatus will return the heal status of the local node func getLocalBackgroundHealStatus(ctx context.Context, o ObjectLayer) (madmin.BgHealState, bool) { if globalBackgroundHealState == nil { return madmin.BgHealState{}, false } bgSeq, ok := globalBackgroundHealState.getHealSequenceByToken(bgHealingUUID) if !ok { return madmin.BgHealState{}, false } status := madmin.BgHealState{ ScannedItemsCount: bgSeq.getScannedItemsCount(), } healDisksMap := map[string]struct{}{} for _, ep := range getLocalDisksToHeal() { healDisksMap[ep.String()] = struct{}{} } if o == nil { healing := globalBackgroundHealState.getLocalHealingDisks() for _, disk := range healing { status.HealDisks = append(status.HealDisks, disk.Endpoint) } return status, true } si := o.LocalStorageInfo(ctx, true) indexed := make(map[string][]madmin.Disk) for _, disk := range si.Disks { setIdx := fmt.Sprintf("%d-%d", disk.PoolIndex, disk.SetIndex) indexed[setIdx] = append(indexed[setIdx], disk) } for id, disks := range indexed { ss := madmin.SetStatus{ ID: id, SetIndex: disks[0].SetIndex, PoolIndex: disks[0].PoolIndex, } for _, disk := range disks { ss.Disks = append(ss.Disks, disk) if disk.Healing { ss.HealStatus = "Healing" ss.HealPriority = "high" status.HealDisks = append(status.HealDisks, disk.Endpoint) } } sortDisks(ss.Disks) status.Sets = append(status.Sets, ss) } sort.Slice(status.Sets, func(i, j int) bool { return status.Sets[i].ID < status.Sets[j].ID }) backendInfo := o.BackendInfo() status.SCParity = make(map[string]int) status.SCParity[storageclass.STANDARD] = backendInfo.StandardSCParity status.SCParity[storageclass.RRS] = backendInfo.RRSCParity return status, true } // healErasureSet lists and heals all objects in a specific erasure set func (er *erasureObjects) healErasureSet(ctx context.Context, buckets []string, tracker *healingTracker) error { scanMode := madmin.HealNormalScan // Make sure to copy since `buckets slice` // is modified in place by tracker. healBuckets := make([]string, len(buckets)) copy(healBuckets, buckets) objAPI := newObjectLayerFn() if objAPI == nil { return errServerNotInitialized } for _, bucket := range healBuckets { _, err := objAPI.HealBucket(ctx, bucket, madmin.HealOpts{ScanMode: scanMode}) if err != nil { // Log bucket healing error if any, we shall retry again. healingLogIf(ctx, err) } } info, err := tracker.disk.DiskInfo(ctx, DiskInfoOptions{}) if err != nil { return fmt.Errorf("unable to get disk information before healing it: %w", err) } var numHealers uint64 if numCores := uint64(runtime.GOMAXPROCS(0)); info.NRRequests > numCores { numHealers = numCores / 4 } else { numHealers = info.NRRequests / 4 } if numHealers < 4 { numHealers = 4 } // allow overriding this value as well.. if v := globalHealConfig.GetWorkers(); v > 0 { numHealers = uint64(v) } healingLogEvent(ctx, fmt.Sprintf("Healing drive '%s' - use %d parallel workers.", tracker.disk.String(), numHealers)) jt, _ := workers.New(int(numHealers)) var retErr error // Heal all buckets with all objects for _, bucket := range healBuckets { if tracker.isHealed(bucket) { continue } var forwardTo string // If we resume to the same bucket, forward to last known item. if b := tracker.getBucket(); b != "" { if b == bucket { forwardTo = tracker.getObject() } else { // Reset to where last bucket ended if resuming. tracker.resume() } } tracker.setObject("") tracker.setBucket(bucket) // Heal current bucket again in case if it is failed // in the beginning of erasure set healing if _, err := objAPI.HealBucket(ctx, bucket, madmin.HealOpts{ ScanMode: scanMode, }); err != nil { // Set this such that when we return this function // we let the caller retry this disk again for the // buckets that failed healing. retErr = err healingLogIf(ctx, err) continue } var ( vc *versioning.Versioning lc *lifecycle.Lifecycle lr objectlock.Retention rcfg *replication.Config ) if !isMinioMetaBucketName(bucket) { vc, err = globalBucketVersioningSys.Get(bucket) if err != nil { retErr = err healingLogIf(ctx, err) continue } // Check if the current bucket has a configured lifecycle policy lc, err = globalLifecycleSys.Get(bucket) if err != nil && !errors.Is(err, BucketLifecycleNotFound{Bucket: bucket}) { retErr = err healingLogIf(ctx, err) continue } // Check if bucket is object locked. lr, err = globalBucketObjectLockSys.Get(bucket) if err != nil { retErr = err healingLogIf(ctx, err) continue } rcfg, err = getReplicationConfig(ctx, bucket) if err != nil { retErr = err healingLogIf(ctx, err) continue } } if serverDebugLog { console.Debugf(color.Green("healDrive:")+" healing bucket %s content on %s erasure set\n", bucket, humanize.Ordinal(er.setIndex+1)) } disks, _, healing := er.getOnlineDisksWithHealingAndInfo(true) if len(disks) == healing { // All drives in this erasure set were reformatted for some reasons, abort healing and mark it as successful healingLogIf(ctx, errors.New("all drives are in healing state, aborting..")) return nil } disks = disks[:len(disks)-healing] // healing drives are always at the end of the list if len(disks) < er.setDriveCount/2 { return fmt.Errorf("not enough drives (found=%d, healing=%d, total=%d) are available to heal `%s`", len(disks), healing, er.setDriveCount, tracker.disk.String()) } rand.Shuffle(len(disks), func(i, j int) { disks[i], disks[j] = disks[j], disks[i] }) expectedDisks := len(disks)/2 + 1 fallbackDisks := disks[expectedDisks:] disks = disks[:expectedDisks] type healEntryResult struct { bytes uint64 success bool skipped bool entryDone bool name string } healEntryDone := func(name string) healEntryResult { return healEntryResult{ entryDone: true, name: name, } } healEntrySuccess := func(sz uint64) healEntryResult { return healEntryResult{ bytes: sz, success: true, } } healEntryFailure := func(sz uint64) healEntryResult { return healEntryResult{ bytes: sz, } } healEntrySkipped := func(sz uint64) healEntryResult { return healEntryResult{ bytes: sz, skipped: true, } } filterLifecycle := func(bucket, object string, fi FileInfo) bool { if lc == nil { return false } versioned := vc != nil && vc.Versioned(object) objInfo := fi.ToObjectInfo(bucket, object, versioned) evt := evalActionFromLifecycle(ctx, *lc, lr, rcfg, objInfo) switch { case evt.Action.DeleteRestored(): // if restored copy has expired,delete it synchronously applyExpiryOnTransitionedObject(ctx, newObjectLayerFn(), objInfo, evt, lcEventSrc_Heal) return false case evt.Action.Delete(): globalExpiryState.enqueueByDays(objInfo, evt, lcEventSrc_Heal) return true default: return false } } // Collect updates to tracker from concurrent healEntry calls results := make(chan healEntryResult, 1000) go func() { for res := range results { if res.entryDone { tracker.setObject(res.name) if time.Since(tracker.getLastUpdate()) > time.Minute { healingLogIf(ctx, tracker.update(ctx)) } continue } tracker.updateProgress(res.success, res.skipped, res.bytes) } }() send := func(result healEntryResult) bool { select { case <-ctx.Done(): if !contextCanceled(ctx) { healingLogIf(ctx, ctx.Err()) } return false case results <- result: return true } } // Note: updates from healEntry to tracker must be sent on results channel. healEntry := func(bucket string, entry metaCacheEntry) { defer jt.Give() if entry.name == "" && len(entry.metadata) == 0 { // ignore entries that don't have metadata. return } if entry.isDir() { // ignore healing entry.name's with `/` suffix. return } // We might land at .metacache, .trash, .multipart // no need to heal them skip, only when bucket // is '.minio.sys' if bucket == minioMetaBucket { if wildcard.Match("buckets/*/.metacache/*", entry.name) { return } if wildcard.Match("tmp/.trash/*", entry.name) { return } if wildcard.Match("multipart/*", entry.name) { return } } // erasureObjects layer needs object names to be encoded encodedEntryName := encodeDirObject(entry.name) var result healEntryResult fivs, err := entry.fileInfoVersions(bucket) if err != nil { _, err := er.HealObject(ctx, bucket, encodedEntryName, "", madmin.HealOpts{ ScanMode: scanMode, Remove: healDeleteDangling, }) if err != nil { if isErrObjectNotFound(err) || isErrVersionNotFound(err) { // queueing happens across namespace, ignore // objects that are not found. return } result = healEntryFailure(0) healingLogIf(ctx, fmt.Errorf("unable to heal object %s/%s: %w", bucket, entry.name, err)) } else { result = healEntrySuccess(0) } send(result) return } var versionNotFound int for _, version := range fivs.Versions { // Ignore a version with a modtime newer than healing start time. if version.ModTime.After(tracker.Started) { continue } // Apply lifecycle rules on the objects that are expired. if filterLifecycle(bucket, version.Name, version) { versionNotFound++ if !send(healEntrySkipped(uint64(version.Size))) { return } continue } if _, err := er.HealObject(ctx, bucket, encodedEntryName, version.VersionID, madmin.HealOpts{ ScanMode: scanMode, Remove: healDeleteDangling, }); err != nil { if isErrObjectNotFound(err) || isErrVersionNotFound(err) { // queueing happens across namespace, ignore // objects that are not found. versionNotFound++ continue } // If not deleted, assume they failed. result = healEntryFailure(uint64(version.Size)) if version.VersionID != "" { healingLogIf(ctx, fmt.Errorf("unable to heal object %s/%s-v(%s): %w", bucket, version.Name, version.VersionID, err)) } else { healingLogIf(ctx, fmt.Errorf("unable to heal object %s/%s: %w", bucket, version.Name, err)) } } else { result = healEntrySuccess(uint64(version.Size)) } if !send(result) { return } } // All versions resulted in 'ObjectNotFound/VersionNotFound' if versionNotFound == len(fivs.Versions) { return } select { case <-ctx.Done(): return case results <- healEntryDone(entry.name): } // Wait and proceed if there are active requests waitForLowHTTPReq() } // How to resolve partial results. resolver := metadataResolutionParams{ dirQuorum: 1, objQuorum: 1, bucket: bucket, } err = listPathRaw(ctx, listPathRawOptions{ disks: disks, fallbackDisks: fallbackDisks, bucket: bucket, recursive: true, forwardTo: forwardTo, minDisks: 1, reportNotFound: false, agreed: func(entry metaCacheEntry) { jt.Take() go healEntry(bucket, entry) }, partial: func(entries metaCacheEntries, _ []error) { entry, ok := entries.resolve(&resolver) if !ok { // check if we can get one entry at least // proceed to heal nonetheless. entry, _ = entries.firstFound() } jt.Take() go healEntry(bucket, *entry) }, finished: nil, }) jt.Wait() // synchronize all the concurrent heal jobs xioutil.SafeClose(results) if err != nil { // Set this such that when we return this function // we let the caller retry this disk again for the // buckets it failed to list. retErr = err healingLogIf(ctx, err) continue } select { // If context is canceled don't mark as done... case <-ctx.Done(): return ctx.Err() default: tracker.bucketDone(bucket) healingLogIf(ctx, tracker.update(ctx)) } } tracker.setObject("") tracker.setBucket("") return retErr } func healBucket(bucket string, scan madmin.HealScanMode) error { // Get background heal sequence to send elements to heal bgSeq, ok := globalBackgroundHealState.getHealSequenceByToken(bgHealingUUID) if ok { return bgSeq.queueHealTask(healSource{bucket: bucket}, madmin.HealItemBucket) } return nil } // healObject sends the given object/version to the background healing workers func healObject(bucket, object, versionID string, scan madmin.HealScanMode) error { // Get background heal sequence to send elements to heal bgSeq, ok := globalBackgroundHealState.getHealSequenceByToken(bgHealingUUID) if ok { return bgSeq.healObject(bucket, object, versionID, scan) } return nil }