// Copyright (c) 2015-2023 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" "encoding/binary" "errors" "fmt" "io" "math/rand" "net/http" "sort" "strconv" "strings" "time" "github.com/dustin/go-humanize" "github.com/minio/madmin-go/v3" "github.com/minio/minio/internal/hash" "github.com/minio/minio/internal/logger" "github.com/minio/pkg/v2/console" "github.com/minio/pkg/v2/env" "github.com/minio/pkg/v2/workers" ) // PoolDecommissionInfo currently decommissioning information type PoolDecommissionInfo struct { StartTime time.Time `json:"startTime" msg:"st"` StartSize int64 `json:"startSize" msg:"ss"` TotalSize int64 `json:"totalSize" msg:"ts"` CurrentSize int64 `json:"currentSize" msg:"cs"` Complete bool `json:"complete" msg:"cmp"` Failed bool `json:"failed" msg:"fl"` Canceled bool `json:"canceled" msg:"cnl"` // Internal information. QueuedBuckets []string `json:"-" msg:"bkts"` DecommissionedBuckets []string `json:"-" msg:"dbkts"` // Last bucket/object decommissioned. Bucket string `json:"-" msg:"bkt"` // Captures prefix that is currently being // decommissioned inside the 'Bucket' Prefix string `json:"-" msg:"pfx"` Object string `json:"-" msg:"obj"` // Verbose information ItemsDecommissioned int64 `json:"objectsDecommissioned" msg:"id"` ItemsDecommissionFailed int64 `json:"objectsDecommissionedFailed" msg:"idf"` BytesDone int64 `json:"bytesDecommissioned" msg:"bd"` BytesFailed int64 `json:"bytesDecommissionedFailed" msg:"bf"` } // Clone make a copy of PoolDecommissionInfo func (pd *PoolDecommissionInfo) Clone() *PoolDecommissionInfo { if pd == nil { return nil } if pd.StartTime.IsZero() { return nil } return &PoolDecommissionInfo{ StartTime: pd.StartTime, StartSize: pd.StartSize, TotalSize: pd.TotalSize, CurrentSize: pd.CurrentSize, Complete: pd.Complete, Failed: pd.Failed, Canceled: pd.Canceled, QueuedBuckets: pd.QueuedBuckets, DecommissionedBuckets: pd.DecommissionedBuckets, Bucket: pd.Bucket, Prefix: pd.Prefix, Object: pd.Object, ItemsDecommissioned: pd.ItemsDecommissioned, ItemsDecommissionFailed: pd.ItemsDecommissionFailed, BytesDone: pd.BytesDone, BytesFailed: pd.BytesFailed, } } // bucketPop should be called when a bucket is done decommissioning. // Adds the bucket to the list of decommissioned buckets and updates resume numbers. func (pd *PoolDecommissionInfo) bucketPop(bucket string) { pd.DecommissionedBuckets = append(pd.DecommissionedBuckets, bucket) for i, b := range pd.QueuedBuckets { if b == bucket { // Bucket is done. pd.QueuedBuckets = append(pd.QueuedBuckets[:i], pd.QueuedBuckets[i+1:]...) // Clear tracker info. if pd.Bucket == bucket { pd.Bucket = "" // empty this out for next bucket pd.Prefix = "" // empty this out for the next bucket pd.Object = "" // empty this out for next object } return } } } func (pd *PoolDecommissionInfo) isBucketDecommissioned(bucket string) bool { for _, b := range pd.DecommissionedBuckets { if b == bucket { return true } } return false } func (pd *PoolDecommissionInfo) bucketPush(bucket decomBucketInfo) { for _, b := range pd.QueuedBuckets { if pd.isBucketDecommissioned(b) { return } if b == bucket.String() { return } } pd.QueuedBuckets = append(pd.QueuedBuckets, bucket.String()) pd.Bucket = bucket.Name pd.Prefix = bucket.Prefix } // PoolStatus captures current pool status type PoolStatus struct { ID int `json:"id" msg:"id"` CmdLine string `json:"cmdline" msg:"cl"` LastUpdate time.Time `json:"lastUpdate" msg:"lu"` Decommission *PoolDecommissionInfo `json:"decommissionInfo,omitempty" msg:"dec"` } // Clone returns a copy of PoolStatus func (ps PoolStatus) Clone() PoolStatus { return PoolStatus{ ID: ps.ID, CmdLine: ps.CmdLine, LastUpdate: ps.LastUpdate, Decommission: ps.Decommission.Clone(), } } //go:generate msgp -file $GOFILE -unexported type poolMeta struct { Version int `msg:"v"` Pools []PoolStatus `msg:"pls"` } // A decommission resumable tells us if decommission is worth // resuming upon restart of a cluster. func (p *poolMeta) returnResumablePools() []PoolStatus { var newPools []PoolStatus for _, pool := range p.Pools { if pool.Decommission == nil { continue } if pool.Decommission.Complete || pool.Decommission.Canceled { // Do not resume decommission upon startup for // - decommission complete // - decommission canceled continue } // In all other situations we need to resume newPools = append(newPools, pool) } return newPools } func (p *poolMeta) DecommissionComplete(idx int) bool { if p.Pools[idx].Decommission != nil && !p.Pools[idx].Decommission.Complete { p.Pools[idx].LastUpdate = UTCNow() p.Pools[idx].Decommission.Complete = true p.Pools[idx].Decommission.Failed = false p.Pools[idx].Decommission.Canceled = false return true } return false } func (p *poolMeta) DecommissionFailed(idx int) bool { if p.Pools[idx].Decommission != nil && !p.Pools[idx].Decommission.Failed { p.Pools[idx].LastUpdate = UTCNow() p.Pools[idx].Decommission.StartTime = time.Time{} p.Pools[idx].Decommission.Complete = false p.Pools[idx].Decommission.Failed = true p.Pools[idx].Decommission.Canceled = false return true } return false } func (p *poolMeta) DecommissionCancel(idx int) bool { if p.Pools[idx].Decommission != nil && !p.Pools[idx].Decommission.Canceled { p.Pools[idx].LastUpdate = UTCNow() p.Pools[idx].Decommission.StartTime = time.Time{} p.Pools[idx].Decommission.Complete = false p.Pools[idx].Decommission.Failed = false p.Pools[idx].Decommission.Canceled = true return true } return false } func (p poolMeta) isBucketDecommissioned(idx int, bucket string) bool { return p.Pools[idx].Decommission.isBucketDecommissioned(bucket) } func (p *poolMeta) BucketDone(idx int, bucket decomBucketInfo) { if p.Pools[idx].Decommission == nil { // Decommission not in progress. return } p.Pools[idx].Decommission.bucketPop(bucket.String()) } func (p poolMeta) ResumeBucketObject(idx int) (bucket, object string) { if p.Pools[idx].Decommission != nil { bucket = p.Pools[idx].Decommission.Bucket object = p.Pools[idx].Decommission.Object } return } func (p *poolMeta) TrackCurrentBucketObject(idx int, bucket string, object string) { if p.Pools[idx].Decommission == nil { // Decommission not in progress. return } p.Pools[idx].Decommission.Bucket = bucket p.Pools[idx].Decommission.Object = object } func (p *poolMeta) PendingBuckets(idx int) []decomBucketInfo { if p.Pools[idx].Decommission == nil { // Decommission not in progress. return nil } decomBuckets := make([]decomBucketInfo, len(p.Pools[idx].Decommission.QueuedBuckets)) for i := range decomBuckets { bucket, prefix := path2BucketObject(p.Pools[idx].Decommission.QueuedBuckets[i]) decomBuckets[i] = decomBucketInfo{ Name: bucket, Prefix: prefix, } } return decomBuckets } //msgp:ignore decomBucketInfo type decomBucketInfo struct { Name string Prefix string } func (db decomBucketInfo) String() string { return pathJoin(db.Name, db.Prefix) } func (p *poolMeta) QueueBuckets(idx int, buckets []decomBucketInfo) { // add new queued buckets for _, bucket := range buckets { p.Pools[idx].Decommission.bucketPush(bucket) } } var ( errDecommissionAlreadyRunning = errors.New("decommission is already in progress") errDecommissionComplete = errors.New("decommission is complete, please remove the servers from command-line") errDecommissionNotStarted = errors.New("decommission is not in progress") ) func (p *poolMeta) Decommission(idx int, pi poolSpaceInfo) error { // Return an error when there is decommission on going - the user needs // to explicitly cancel it first in order to restart decommissioning again. if p.Pools[idx].Decommission != nil && !p.Pools[idx].Decommission.Complete && !p.Pools[idx].Decommission.Failed && !p.Pools[idx].Decommission.Canceled { return errDecommissionAlreadyRunning } now := UTCNow() p.Pools[idx].LastUpdate = now p.Pools[idx].Decommission = &PoolDecommissionInfo{ StartTime: now, StartSize: pi.Free, CurrentSize: pi.Free, TotalSize: pi.Total, } return nil } func (p poolMeta) IsSuspended(idx int) bool { return p.Pools[idx].Decommission != nil } func (p *poolMeta) validate(pools []*erasureSets) (bool, error) { type poolInfo struct { position int completed bool decomStarted bool // started but not finished yet } rememberedPools := make(map[string]poolInfo) for idx, pool := range p.Pools { complete := false decomStarted := false if pool.Decommission != nil { if pool.Decommission.Complete { complete = true } decomStarted = true } rememberedPools[pool.CmdLine] = poolInfo{ position: idx, completed: complete, decomStarted: decomStarted, } } specifiedPools := make(map[string]int) for idx, pool := range pools { specifiedPools[pool.endpoints.CmdLine] = idx } var update bool // Check if specified pools need to be removed from decommissioned pool. for k := range specifiedPools { pi, ok := rememberedPools[k] if !ok { // we do not have the pool anymore that we previously remembered, since all // the CLI checks out we can allow updates since we are mostly adding a pool here. update = true } if ok && pi.completed { return false, fmt.Errorf("pool(%s) = %s is decommissioned, please remove from server command line", humanize.Ordinal(pi.position+1), k) } } if len(specifiedPools) == len(rememberedPools) { for k, pi := range rememberedPools { pos, ok := specifiedPools[k] if ok && pos != pi.position { update = true // pool order is changing, its okay to allow it. } } } if !update { update = len(specifiedPools) != len(rememberedPools) } return update, nil } func (p *poolMeta) load(ctx context.Context, pool *erasureSets, pools []*erasureSets) error { data, err := readConfig(ctx, pool, poolMetaName) if err != nil { if errors.Is(err, errConfigNotFound) || isErrObjectNotFound(err) { return nil } return err } if len(data) == 0 { // Seems to be empty create a new poolMeta object. return nil } if len(data) <= 4 { return fmt.Errorf("poolMeta: no data") } // Read header switch binary.LittleEndian.Uint16(data[0:2]) { case poolMetaFormat: default: return fmt.Errorf("poolMeta: unknown format: %d", binary.LittleEndian.Uint16(data[0:2])) } switch binary.LittleEndian.Uint16(data[2:4]) { case poolMetaVersion: default: return fmt.Errorf("poolMeta: unknown version: %d", binary.LittleEndian.Uint16(data[2:4])) } // OK, parse data. if _, err = p.UnmarshalMsg(data[4:]); err != nil { return err } switch p.Version { case poolMetaVersionV1: default: return fmt.Errorf("unexpected pool meta version: %d", p.Version) } return nil } func (p *poolMeta) CountItem(idx int, size int64, failed bool) { pd := p.Pools[idx].Decommission if pd == nil { return } if failed { pd.ItemsDecommissionFailed++ pd.BytesFailed += size } else { pd.ItemsDecommissioned++ pd.BytesDone += size } p.Pools[idx].Decommission = pd } func (p *poolMeta) updateAfter(ctx context.Context, idx int, pools []*erasureSets, duration time.Duration) (bool, error) { if p.Pools[idx].Decommission == nil { return false, errInvalidArgument } now := UTCNow() if now.Sub(p.Pools[idx].LastUpdate) >= duration { if serverDebugLog { console.Debugf("decommission: persisting poolMeta on drive: threshold:%s, poolMeta:%#v\n", now.Sub(p.Pools[idx].LastUpdate), p.Pools[idx]) } p.Pools[idx].LastUpdate = now if err := p.save(ctx, pools); err != nil { return false, err } return true, nil } return false, nil } func (p poolMeta) save(ctx context.Context, pools []*erasureSets) error { data := make([]byte, 4, p.Msgsize()+4) // Initialize the header. binary.LittleEndian.PutUint16(data[0:2], poolMetaFormat) binary.LittleEndian.PutUint16(data[2:4], poolMetaVersion) buf, err := p.MarshalMsg(data) if err != nil { return err } // Saves on all pools to make sure decommissioning of first pool is allowed. for i, eset := range pools { if err = saveConfig(ctx, eset, poolMetaName, buf); err != nil { if !errors.Is(err, context.Canceled) { logger.LogIf(ctx, fmt.Errorf("saving pool.bin for pool index %d failed with: %v", i, err)) } return err } } return nil } const ( poolMetaName = "pool.bin" poolMetaFormat = 1 poolMetaVersionV1 = 1 poolMetaVersion = poolMetaVersionV1 ) // Init() initializes pools and saves additional information about them // in 'pool.bin', this is eventually used for decommissioning the pool. func (z *erasureServerPools) Init(ctx context.Context) error { // Load rebalance metadata if present err := z.loadRebalanceMeta(ctx) if err != nil { return fmt.Errorf("failed to load rebalance data: %w", err) } // Start rebalance routine z.StartRebalance() meta := poolMeta{} if err := meta.load(ctx, z.serverPools[0], z.serverPools); err != nil { return err } update, err := meta.validate(z.serverPools) if err != nil { return err } // if no update is needed return right away. if !update { z.poolMeta = meta } else { newMeta := poolMeta{} // to update write poolMeta fresh. // looks like new pool was added we need to update, // or this is a fresh installation (or an existing // installation with pool removed) newMeta.Version = poolMetaVersion for idx, pool := range z.serverPools { var skip bool for _, currentPool := range meta.Pools { // Preserve any current pool status. if currentPool.CmdLine == pool.endpoints.CmdLine { newMeta.Pools = append(newMeta.Pools, currentPool) skip = true break } } if skip { continue } newMeta.Pools = append(newMeta.Pools, PoolStatus{ CmdLine: pool.endpoints.CmdLine, ID: idx, LastUpdate: UTCNow(), }) } if err = newMeta.save(ctx, z.serverPools); err != nil { return err } z.poolMeta = newMeta } pools := meta.returnResumablePools() poolIndices := make([]int, 0, len(pools)) for _, pool := range pools { idx := globalEndpoints.GetPoolIdx(pool.CmdLine) if idx == -1 { return fmt.Errorf("unexpected state present for decommission status pool(%s) not found", pool.CmdLine) } poolIndices = append(poolIndices, idx) } if len(poolIndices) > 0 && globalEndpoints[poolIndices[0]].Endpoints[0].IsLocal { go func() { r := rand.New(rand.NewSource(time.Now().UnixNano())) for { if err := z.Decommission(ctx, poolIndices...); err != nil { if errors.Is(err, errDecommissionAlreadyRunning) { // A previous decommission running found restart it. for _, idx := range poolIndices { z.doDecommissionInRoutine(ctx, idx) } return } if configRetriableErrors(err) { logger.LogIf(ctx, fmt.Errorf("Unable to resume decommission of pools %v: %w: retrying..", pools, err)) time.Sleep(time.Second + time.Duration(r.Float64()*float64(5*time.Second))) continue } logger.LogIf(ctx, fmt.Errorf("Unable to resume decommission of pool %v: %w", pools, err)) return } } }() } return nil } func (z *erasureServerPools) IsDecommissionRunning() bool { z.poolMetaMutex.RLock() defer z.poolMetaMutex.RUnlock() meta := z.poolMeta for _, pool := range meta.Pools { if pool.Decommission != nil && !pool.Decommission.Complete && !pool.Decommission.Failed && !pool.Decommission.Canceled { return true } } return false } func (z *erasureServerPools) decommissionObject(ctx context.Context, bucket string, gr *GetObjectReader) (err error) { objInfo := gr.ObjInfo defer func() { gr.Close() auditLogDecom(ctx, "DecomCopyData", objInfo.Bucket, objInfo.Name, objInfo.VersionID, err) }() actualSize, err := objInfo.GetActualSize() if err != nil { return err } if objInfo.isMultipart() { res, err := z.NewMultipartUpload(ctx, bucket, objInfo.Name, ObjectOptions{ VersionID: objInfo.VersionID, UserDefined: objInfo.UserDefined, }) if err != nil { return fmt.Errorf("decommissionObject: NewMultipartUpload() %w", err) } defer z.AbortMultipartUpload(ctx, bucket, objInfo.Name, res.UploadID, ObjectOptions{}) parts := make([]CompletePart, len(objInfo.Parts)) for i, part := range objInfo.Parts { hr, err := hash.NewReader(ctx, io.LimitReader(gr, part.Size), part.Size, "", "", part.ActualSize) if err != nil { return fmt.Errorf("decommissionObject: hash.NewReader() %w", err) } pi, err := z.PutObjectPart(ctx, bucket, objInfo.Name, res.UploadID, part.Number, NewPutObjReader(hr), ObjectOptions{ PreserveETag: part.ETag, // Preserve original ETag to ensure same metadata. IndexCB: func() []byte { return part.Index // Preserve part Index to ensure decompression works. }, }) if err != nil { return fmt.Errorf("decommissionObject: PutObjectPart() %w", err) } parts[i] = CompletePart{ ETag: pi.ETag, PartNumber: pi.PartNumber, ChecksumCRC32: pi.ChecksumCRC32, ChecksumCRC32C: pi.ChecksumCRC32C, ChecksumSHA256: pi.ChecksumSHA256, ChecksumSHA1: pi.ChecksumSHA1, } } _, err = z.CompleteMultipartUpload(ctx, bucket, objInfo.Name, res.UploadID, parts, ObjectOptions{ MTime: objInfo.ModTime, }) if err != nil { err = fmt.Errorf("decommissionObject: CompleteMultipartUpload() %w", err) } return err } hr, err := hash.NewReader(ctx, io.LimitReader(gr, objInfo.Size), objInfo.Size, "", "", actualSize) if err != nil { return fmt.Errorf("decommissionObject: hash.NewReader() %w", err) } _, err = z.PutObject(ctx, bucket, objInfo.Name, NewPutObjReader(hr), ObjectOptions{ VersionID: objInfo.VersionID, MTime: objInfo.ModTime, UserDefined: objInfo.UserDefined, PreserveETag: objInfo.ETag, // Preserve original ETag to ensure same metadata. IndexCB: func() []byte { return objInfo.Parts[0].Index // Preserve part Index to ensure decompression works. }, }) if err != nil { err = fmt.Errorf("decommissionObject: PutObject() %w", err) } return err } // versionsSorter sorts FileInfo slices by version. // //msgp:ignore versionsSorter type versionsSorter []FileInfo func (v versionsSorter) reverse() { sort.Slice(v, func(i, j int) bool { return v[i].ModTime.Before(v[j].ModTime) }) } func (set *erasureObjects) listObjectsToDecommission(ctx context.Context, bi decomBucketInfo, fn func(entry metaCacheEntry)) error { disks := set.getOnlineDisks() if len(disks) == 0 { return fmt.Errorf("no online drives found for set with endpoints %s", set.getEndpoints()) } // How to resolve partial results. resolver := metadataResolutionParams{ dirQuorum: len(disks) / 2, // make sure to capture all quorum ratios objQuorum: len(disks) / 2, // make sure to capture all quorum ratios bucket: bi.Name, } err := listPathRaw(ctx, listPathRawOptions{ disks: disks, bucket: bi.Name, path: bi.Prefix, recursive: true, forwardTo: "", minDisks: len(disks) / 2, // to capture all quorum ratios reportNotFound: false, agreed: fn, partial: func(entries metaCacheEntries, _ []error) { entry, ok := entries.resolve(&resolver) if ok { fn(*entry) } }, finished: nil, }) return err } func (z *erasureServerPools) decommissionPool(ctx context.Context, idx int, pool *erasureSets, bi decomBucketInfo) error { ctx = logger.SetReqInfo(ctx, &logger.ReqInfo{}) wStr := env.Get("_MINIO_DECOMMISSION_WORKERS", strconv.Itoa(len(pool.sets))) workerSize, err := strconv.Atoi(wStr) if err != nil { return err } // each set get its own thread separate from the concurrent // objects/versions being decommissioned. workerSize += len(pool.sets) wk, err := workers.New(workerSize) if err != nil { return err } vc, _ := globalBucketVersioningSys.Get(bi.Name) // Check if the current bucket has a configured lifecycle policy lc, _ := globalLifecycleSys.Get(bi.Name) // Check if bucket is object locked. lr, _ := globalBucketObjectLockSys.Get(bi.Name) rcfg, _ := getReplicationConfig(ctx, bi.Name) for setIdx, set := range pool.sets { set := set 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, z, objInfo, evt, lcEventSrc_Decom) return false case evt.Action.Delete(): globalExpiryState.enqueueByDays(objInfo, evt, lcEventSrc_Decom) return true default: return false } } decommissionEntry := func(entry metaCacheEntry) { defer wk.Give() if entry.isDir() { return } fivs, err := entry.fileInfoVersions(bi.Name) if err != nil { return } // We need a reversed order for decommissioning, // to create the appropriate stack. versionsSorter(fivs.Versions).reverse() var decommissioned, expired int for _, version := range fivs.Versions { stopFn := globalDecommissionMetrics.log(decomMetricDecommissionObject, idx, bi.Name, version.Name, version.VersionID) // Apply lifecycle rules on the objects that are expired. if filterLifecycle(bi.Name, version.Name, version) { expired++ decommissioned++ stopFn(errors.New("ILM expired object/version will be skipped")) continue } // any object with only single DEL marker we don't need // to decommission, just skip it, this also includes // any other versions that have already expired. remainingVersions := len(fivs.Versions) - expired if version.Deleted && remainingVersions == 1 { decommissioned++ stopFn(errors.New("DELETE marked object with no other non-current versions will be skipped")) continue } versionID := version.VersionID if versionID == "" { versionID = nullVersionID } if version.Deleted { _, err := z.DeleteObject(ctx, bi.Name, version.Name, ObjectOptions{ // Since we are preserving a delete marker, we have to make sure this is always true. // regardless of the current configuration of the bucket we must preserve all versions // on the pool being decommissioned. Versioned: true, VersionID: versionID, MTime: version.ModTime, DeleteReplication: version.ReplicationState, DeleteMarker: true, // make sure we create a delete marker SkipDecommissioned: true, // make sure we skip the decommissioned pool }) var failure bool if err != nil { if isErrObjectNotFound(err) || isErrVersionNotFound(err) { err = nil } } stopFn(err) if err != nil { logger.LogIf(ctx, err) failure = true } z.poolMetaMutex.Lock() z.poolMeta.CountItem(idx, 0, failure) z.poolMetaMutex.Unlock() if !failure { // Success keep a count. decommissioned++ } continue } var failure, ignore bool // gr.Close() is ensured by decommissionObject(). for try := 0; try < 3; try++ { if version.IsRemote() { if err := z.DecomTieredObject(ctx, bi.Name, version.Name, version, ObjectOptions{ VersionID: versionID, MTime: version.ModTime, UserDefined: version.Metadata, }); err != nil { stopFn(err) failure = true logger.LogIf(ctx, err) continue } stopFn(nil) failure = false break } gr, err := set.GetObjectNInfo(ctx, bi.Name, encodeDirObject(version.Name), nil, http.Header{}, ObjectOptions{ VersionID: versionID, NoDecryption: true, NoLock: true, }) if isErrObjectNotFound(err) || isErrVersionNotFound(err) { // object deleted by the application, nothing to do here we move on. ignore = true stopFn(nil) break } if err != nil && !ignore { // if usage-cache.bin is not readable log and ignore it. if bi.Name == minioMetaBucket && strings.Contains(version.Name, dataUsageCacheName) { ignore = true stopFn(err) logger.LogIf(ctx, err) break } } if err != nil { failure = true logger.LogIf(ctx, err) stopFn(err) continue } if err = z.decommissionObject(ctx, bi.Name, gr); err != nil { stopFn(err) failure = true logger.LogIf(ctx, err) continue } stopFn(nil) failure = false break } if ignore { continue } z.poolMetaMutex.Lock() z.poolMeta.CountItem(idx, version.Size, failure) z.poolMetaMutex.Unlock() if failure { break // break out on first error } decommissioned++ } // if all versions were decommissioned, then we can delete the object versions. if decommissioned == len(fivs.Versions) { stopFn := globalDecommissionMetrics.log(decomMetricDecommissionRemoveObject, idx, bi.Name, entry.name) _, err := set.DeleteObject(ctx, bi.Name, encodeDirObject(entry.name), ObjectOptions{ DeletePrefix: true, // use prefix delete to delete all versions at once. }, ) stopFn(err) auditLogDecom(ctx, "DecomDeleteObject", bi.Name, entry.name, "", err) if err != nil { logger.LogIf(ctx, err) } } z.poolMetaMutex.Lock() z.poolMeta.TrackCurrentBucketObject(idx, bi.Name, entry.name) ok, err := z.poolMeta.updateAfter(ctx, idx, z.serverPools, 30*time.Second) logger.LogIf(ctx, err) if ok { globalNotificationSys.ReloadPoolMeta(ctx) } z.poolMetaMutex.Unlock() } wk.Take() go func(setIdx int) { defer wk.Give() // We will perpetually retry listing if it fails, since we cannot // possibly give up in this matter for { err := set.listObjectsToDecommission(ctx, bi, func(entry metaCacheEntry) { wk.Take() go decommissionEntry(entry) }, ) if err == nil || errors.Is(err, context.Canceled) { break } setN := humanize.Ordinal(setIdx + 1) retryDur := time.Duration(rand.Float64() * float64(5*time.Second)) logger.LogOnceIf(ctx, fmt.Errorf("listing objects from %s set failed with %v, retrying in %v", setN, err, retryDur), "decom-listing-failed"+setN) time.Sleep(retryDur) } }(setIdx) } wk.Wait() return nil } //msgp:ignore decomMetrics type decomMetrics struct{} var globalDecommissionMetrics decomMetrics //msgp:ignore decomMetric //go:generate stringer -type=decomMetric -trimprefix=decomMetric $GOFILE type decomMetric uint8 const ( decomMetricDecommissionBucket decomMetric = iota decomMetricDecommissionObject decomMetricDecommissionRemoveObject ) func decomTrace(d decomMetric, poolIdx int, startTime time.Time, duration time.Duration, path string, err error) madmin.TraceInfo { var errStr string if err != nil { errStr = err.Error() } return madmin.TraceInfo{ TraceType: madmin.TraceDecommission, Time: startTime, NodeName: globalLocalNodeName, FuncName: fmt.Sprintf("decommission.%s (pool-id=%d)", d.String(), poolIdx), Duration: duration, Path: path, Error: errStr, } } func (m *decomMetrics) log(d decomMetric, poolIdx int, paths ...string) func(err error) { startTime := time.Now() return func(err error) { duration := time.Since(startTime) if globalTrace.NumSubscribers(madmin.TraceDecommission) > 0 { globalTrace.Publish(decomTrace(d, poolIdx, startTime, duration, strings.Join(paths, " "), err)) } } } func (z *erasureServerPools) decommissionInBackground(ctx context.Context, idx int) error { pool := z.serverPools[idx] for _, bucket := range z.poolMeta.PendingBuckets(idx) { if z.poolMeta.isBucketDecommissioned(idx, bucket.String()) { if serverDebugLog { console.Debugln("decommission: already done, moving on", bucket) } z.poolMetaMutex.Lock() z.poolMeta.BucketDone(idx, bucket) // remove from pendingBuckets and persist. z.poolMeta.save(ctx, z.serverPools) z.poolMetaMutex.Unlock() continue } if serverDebugLog { console.Debugln("decommission: currently on bucket", bucket.Name) } stopFn := globalDecommissionMetrics.log(decomMetricDecommissionBucket, idx, bucket.Name) if err := z.decommissionPool(ctx, idx, pool, bucket); err != nil { stopFn(err) return err } stopFn(nil) z.poolMetaMutex.Lock() z.poolMeta.BucketDone(idx, bucket) z.poolMeta.save(ctx, z.serverPools) z.poolMetaMutex.Unlock() } return nil } func (z *erasureServerPools) checkAfterDecom(ctx context.Context, idx int) error { buckets, err := z.getBucketsToDecommission(ctx) if err != nil { return err } pool := z.serverPools[idx] for _, set := range pool.sets { for _, bi := range buckets { vc, _ := globalBucketVersioningSys.Get(bi.Name) // Check if the current bucket has a configured lifecycle policy lc, _ := globalLifecycleSys.Get(bi.Name) // Check if bucket is object locked. lr, _ := globalBucketObjectLockSys.Get(bi.Name) rcfg, _ := getReplicationConfig(ctx, bi.Name) 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, z, objInfo, evt, lcEventSrc_Decom) return false case evt.Action.Delete(): globalExpiryState.enqueueByDays(objInfo, evt, lcEventSrc_Decom) return true default: return false } } var versionsFound int err := set.listObjectsToDecommission(ctx, bi, func(entry metaCacheEntry) { if !entry.isObject() { return } fivs, err := entry.fileInfoVersions(bi.Name) if err != nil { return } // We need a reversed order for decommissioning, // to create the appropriate stack. versionsSorter(fivs.Versions).reverse() for _, version := range fivs.Versions { // Apply lifecycle rules on the objects that are expired. if filterLifecycle(bi.Name, version.Name, version) { continue } // `.usage-cache.bin` still exists, must be not readable ignore it. if bi.Name == minioMetaBucket && strings.Contains(version.Name, dataUsageCacheName) { // skipping bucket usage cache name, as its autogenerated. continue } versionsFound++ } }) if err != nil { return err } if versionsFound > 0 { return fmt.Errorf("at least %d object(s)/version(s) were found in bucket `%s` after decommissioning", versionsFound, bi.Name) } } } return nil } func (z *erasureServerPools) doDecommissionInRoutine(ctx context.Context, idx int) { z.poolMetaMutex.Lock() var dctx context.Context dctx, z.decommissionCancelers[idx] = context.WithCancel(GlobalContext) z.poolMetaMutex.Unlock() // Generate an empty request info so it can be directly modified later by audit dctx = logger.SetReqInfo(dctx, &logger.ReqInfo{}) if err := z.decommissionInBackground(dctx, idx); err != nil { logger.LogIf(GlobalContext, err) logger.LogIf(GlobalContext, z.DecommissionFailed(dctx, idx)) return } z.poolMetaMutex.Lock() failed := z.poolMeta.Pools[idx].Decommission.ItemsDecommissionFailed > 0 || contextCanceled(dctx) poolCmdLine := z.poolMeta.Pools[idx].CmdLine z.poolMetaMutex.Unlock() if !failed { logger.Info("Decommissioning complete for pool '%s', verifying for any pending objects", poolCmdLine) err := z.checkAfterDecom(dctx, idx) if err != nil { logger.LogIf(ctx, err) failed = true } } if failed { // Decommission failed indicate as such. logger.LogIf(GlobalContext, z.DecommissionFailed(dctx, idx)) } else { // Complete the decommission.. logger.LogIf(GlobalContext, z.CompleteDecommission(dctx, idx)) } } func (z *erasureServerPools) IsSuspended(idx int) bool { z.poolMetaMutex.RLock() defer z.poolMetaMutex.RUnlock() return z.poolMeta.IsSuspended(idx) } // Decommission - start decommission session. func (z *erasureServerPools) Decommission(ctx context.Context, indices ...int) error { if len(indices) == 0 { return errInvalidArgument } if z.SinglePool() { return errInvalidArgument } // Make pool unwritable before decommissioning. if err := z.StartDecommission(ctx, indices...); err != nil { return err } go func() { for _, idx := range indices { // decommission all pools serially one after // the other. z.doDecommissionInRoutine(ctx, idx) } }() // Successfully started decommissioning. return nil } type decomError struct { Err string } func (d decomError) Error() string { return d.Err } type poolSpaceInfo struct { Free int64 Total int64 Used int64 } func (z *erasureServerPools) getDecommissionPoolSpaceInfo(idx int) (pi poolSpaceInfo, err error) { if idx < 0 { return pi, errInvalidArgument } if idx+1 > len(z.serverPools) { return pi, errInvalidArgument } info := z.serverPools[idx].StorageInfo(context.Background()) info.Backend = z.BackendInfo() usableTotal := int64(GetTotalUsableCapacity(info.Disks, info)) usableFree := int64(GetTotalUsableCapacityFree(info.Disks, info)) return poolSpaceInfo{ Total: usableTotal, Free: usableFree, Used: usableTotal - usableFree, }, nil } func (z *erasureServerPools) Status(ctx context.Context, idx int) (PoolStatus, error) { if idx < 0 { return PoolStatus{}, errInvalidArgument } pi, err := z.getDecommissionPoolSpaceInfo(idx) if err != nil { return PoolStatus{}, err } z.poolMetaMutex.RLock() defer z.poolMetaMutex.RUnlock() poolInfo := z.poolMeta.Pools[idx].Clone() if poolInfo.Decommission != nil { poolInfo.Decommission.TotalSize = pi.Total if poolInfo.Decommission.Failed || poolInfo.Decommission.Canceled { poolInfo.Decommission.CurrentSize = pi.Free } else { poolInfo.Decommission.CurrentSize = poolInfo.Decommission.StartSize + poolInfo.Decommission.BytesDone } } else { poolInfo.Decommission = &PoolDecommissionInfo{ TotalSize: pi.Total, CurrentSize: pi.Free, } } return poolInfo, nil } func (z *erasureServerPools) ReloadPoolMeta(ctx context.Context) (err error) { meta := poolMeta{} if err = meta.load(ctx, z.serverPools[0], z.serverPools); err != nil { return err } z.poolMetaMutex.Lock() defer z.poolMetaMutex.Unlock() z.poolMeta = meta return nil } func (z *erasureServerPools) DecommissionCancel(ctx context.Context, idx int) (err error) { if idx < 0 { return errInvalidArgument } if z.SinglePool() { return errInvalidArgument } z.poolMetaMutex.Lock() defer z.poolMetaMutex.Unlock() fn := z.decommissionCancelers[idx] if fn == nil { // canceling a decommission before it started return an error. return errDecommissionNotStarted } defer fn() // cancel any active thread. if z.poolMeta.DecommissionCancel(idx) { if err = z.poolMeta.save(ctx, z.serverPools); err != nil { return err } globalNotificationSys.ReloadPoolMeta(ctx) } return nil } func (z *erasureServerPools) DecommissionFailed(ctx context.Context, idx int) (err error) { if idx < 0 { return errInvalidArgument } if z.SinglePool() { return errInvalidArgument } z.poolMetaMutex.Lock() defer z.poolMetaMutex.Unlock() if z.poolMeta.DecommissionFailed(idx) { if fn := z.decommissionCancelers[idx]; fn != nil { defer fn() } // cancel any active thread. if err = z.poolMeta.save(ctx, z.serverPools); err != nil { return err } globalNotificationSys.ReloadPoolMeta(ctx) } return nil } func (z *erasureServerPools) CompleteDecommission(ctx context.Context, idx int) (err error) { if idx < 0 { return errInvalidArgument } if z.SinglePool() { return errInvalidArgument } z.poolMetaMutex.Lock() defer z.poolMetaMutex.Unlock() if z.poolMeta.DecommissionComplete(idx) { if fn := z.decommissionCancelers[idx]; fn != nil { defer fn() } // cancel any active thread. if err = z.poolMeta.save(ctx, z.serverPools); err != nil { return err } globalNotificationSys.ReloadPoolMeta(ctx) } return nil } func (z *erasureServerPools) getBucketsToDecommission(ctx context.Context) ([]decomBucketInfo, error) { buckets, err := z.ListBuckets(ctx, BucketOptions{}) if err != nil { return nil, err } decomBuckets := make([]decomBucketInfo, len(buckets)) for i := range buckets { decomBuckets[i] = decomBucketInfo{ Name: buckets[i].Name, } } // Buckets data are dispersed in multiple zones/sets, make // sure to decommission the necessary metadata. decomBuckets = append(decomBuckets, decomBucketInfo{ Name: minioMetaBucket, Prefix: minioConfigPrefix, }) decomBuckets = append(decomBuckets, decomBucketInfo{ Name: minioMetaBucket, Prefix: bucketMetaPrefix, }) return decomBuckets, nil } func (z *erasureServerPools) StartDecommission(ctx context.Context, indices ...int) (err error) { if len(indices) == 0 { return errInvalidArgument } if z.SinglePool() { return errInvalidArgument } decomBuckets, err := z.getBucketsToDecommission(ctx) if err != nil { return err } for _, bucket := range decomBuckets { z.HealBucket(ctx, bucket.Name, madmin.HealOpts{}) } // Create .minio.sys/config, .minio.sys/buckets paths if missing, // this code is present to avoid any missing meta buckets on other // pools. for _, metaBucket := range []string{ pathJoin(minioMetaBucket, minioConfigPrefix), pathJoin(minioMetaBucket, bucketMetaPrefix), } { var bucketExists BucketExists if err = z.MakeBucket(ctx, metaBucket, MakeBucketOptions{}); err != nil { if !errors.As(err, &bucketExists) { return err } } } z.poolMetaMutex.Lock() defer z.poolMetaMutex.Unlock() for _, idx := range indices { pi, err := z.getDecommissionPoolSpaceInfo(idx) if err != nil { return err } if err = z.poolMeta.Decommission(idx, pi); err != nil { return err } z.poolMeta.QueueBuckets(idx, decomBuckets) } if err = z.poolMeta.save(ctx, z.serverPools); err != nil { return err } globalNotificationSys.ReloadPoolMeta(ctx) return nil } func auditLogDecom(ctx context.Context, apiName, bucket, object, versionID string, err error) { errStr := "" if err != nil { errStr = err.Error() } auditLogInternal(ctx, AuditLogOptions{ Event: "decommission", APIName: apiName, Bucket: bucket, Object: object, VersionID: versionID, Error: errStr, }) }