// _ _ // __ _____ __ ___ ___ __ _| |_ ___ // \ \ /\ / / _ \/ _` \ \ / / |/ _` | __/ _ \ // \ V V / __/ (_| |\ V /| | (_| | || __/ // \_/\_/ \___|\__,_| \_/ |_|\__,_|\__\___| // // Copyright © 2016 - 2025 Weaviate B.V. All rights reserved. // // CONTACT: hello@weaviate.io // package backup import ( "context" "encoding/json" "errors" "fmt" "io" "os" "path" "path/filepath" "runtime" "sync/atomic" "time" "github.com/prometheus/client_golang/prometheus" "github.com/sirupsen/logrus" "github.com/weaviate/weaviate/cluster/fsm" "github.com/weaviate/weaviate/entities/backup" enterrors "github.com/weaviate/weaviate/entities/errors" "github.com/weaviate/weaviate/entities/modulecapabilities" "github.com/weaviate/weaviate/usecases/monitoring" ) // TODO adjust or make configurable const ( storeTimeout = 24 * time.Hour metaTimeout = 20 * time.Minute // DefaultChunkSize if size is not specified DefaultChunkSize = 1 << 27 // 128MB // maxChunkSize is the upper bound on the chunk size maxChunkSize = 1 << 29 // 512MB // minChunkSize is the lower bound on the chunk size minChunkSize = 1 << 21 // 2MB // maxCPUPercentage max CPU percentage can be consumed by the file writer maxCPUPercentage = 80 // DefaultCPUPercentage default CPU percentage can be consumed by the file writer DefaultCPUPercentage = 50 ) const ( // BackupFile used by a node to store its metadata BackupFile = "backup.json" // GlobalBackupFile used by coordinator to store its metadata GlobalBackupFile = "backup_config.json" GlobalRestoreFile = "restore_config.json" TempDirectory = ".backup.tmp" ) var _NUMCPU = runtime.NumCPU() type objectStore struct { backend modulecapabilities.BackupBackend backupId string // use supplied backup id bucket string // Override bucket for one call path string // Override path for one call } func (s *objectStore) HomeDir(overrideBucket, overridePath string) string { return s.backend.HomeDir(s.backupId, overrideBucket, overridePath) } func (s *objectStore) WriteToFile(ctx context.Context, key, destPath, overrideBucket, overridePath string) error { return s.backend.WriteToFile(ctx, s.backupId, key, destPath, overrideBucket, overridePath) } // SourceDataPath is data path of all source files func (s *objectStore) SourceDataPath() string { return s.backend.SourceDataPath() } func (s *objectStore) Write(ctx context.Context, key, overrideBucket, overridePath string, r io.ReadCloser) (int64, error) { return s.backend.Write(ctx, s.backupId, key, overrideBucket, overridePath, r) } func (s *objectStore) Read(ctx context.Context, key, overrideBucket, overridePath string, w io.WriteCloser) (int64, error) { return s.backend.Read(ctx, s.backupId, key, overrideBucket, overridePath, w) } func (s *objectStore) Initialize(ctx context.Context, overrideBucket, overridePath string) error { return s.backend.Initialize(ctx, s.backupId, overrideBucket, overridePath) } // meta marshals and uploads metadata func (s *objectStore) putMeta(ctx context.Context, key, overrideBucket, overridePath string, desc interface{}) error { bytes, err := json.Marshal(desc) if err != nil { return fmt.Errorf("putMeta: marshal meta file %q: %w", key, err) } ctx, cancel := context.WithTimeout(ctx, metaTimeout) defer cancel() if err := s.backend.PutObject(ctx, s.backupId, key, overrideBucket, overridePath, bytes); err != nil { return fmt.Errorf("putMeta: upload meta file %q into bucket %v, path %v: %w", key, overrideBucket, overridePath, err) } return nil } func (s *objectStore) meta(ctx context.Context, key, overrideBucket, overridePath string, dest interface{}) error { bytes, err := s.backend.GetObject(ctx, s.backupId, key, overrideBucket, overridePath) if err != nil { return err } err = json.Unmarshal(bytes, dest) if err != nil { return fmt.Errorf("marshal meta file %q: %w", key, err) } return nil } type nodeStore struct { objectStore } func NewNodeStore(backend modulecapabilities.BackupBackend, backupId, bucket, path string) *nodeStore { return &nodeStore{objectStore: objectStore{backend, backupId, bucket, path}} } // Meta gets meta data using standard path or deprecated old path // // adjustBasePath: sets the base path to the old path if the backup has been created prior to v1.17. func (s *nodeStore) Meta(ctx context.Context, backupID, overrideBucket, overridePath string, adjustBasePath bool) (*backup.BackupDescriptor, error) { var result backup.BackupDescriptor err := s.meta(ctx, BackupFile, overrideBucket, overridePath, &result) if err != nil { cs := &objectStore{s.backend, backupID, overrideBucket, overridePath} // for backward compatibility if err := cs.meta(ctx, BackupFile, overrideBucket, overridePath, &result); err == nil { if adjustBasePath { s.objectStore.backupId = backupID } return &result, nil } } return &result, err } // meta marshals and uploads metadata func (s *nodeStore) PutMeta(ctx context.Context, desc *backup.BackupDescriptor, overrideBucket, overridePath string) error { return s.putMeta(ctx, BackupFile, overrideBucket, overridePath, desc) } type coordStore struct { objectStore } // PutMeta puts coordinator's global metadata into object store func (s *coordStore) PutMeta(ctx context.Context, filename string, desc *backup.DistributedBackupDescriptor, overrideBucket, overridePath string) error { return s.putMeta(ctx, filename, overrideBucket, overridePath, desc) } // Meta gets coordinator's global metadata from object store func (s *coordStore) Meta(ctx context.Context, filename, overrideBucket, overridePath string) (*backup.DistributedBackupDescriptor, error) { var result backup.DistributedBackupDescriptor err := s.meta(ctx, filename, overrideBucket, overridePath, &result) if err != nil && filename == GlobalBackupFile { var oldBackup backup.BackupDescriptor if err := s.meta(ctx, BackupFile, overrideBucket, overridePath, &oldBackup); err == nil { return oldBackup.ToDistributed(), nil } } return &result, err } // uploader uploads backup artifacts. This includes db files and metadata type uploader struct { sourcer Sourcer rbacSourcer fsm.Snapshotter dynUserSourcer fsm.Snapshotter backend nodeStore backupID string zipConfig setStatus func(st backup.Status) log logrus.FieldLogger } func newUploader(sourcer Sourcer, rbacSourcer fsm.Snapshotter, dynUserSourcer fsm.Snapshotter, backend nodeStore, backupID string, setstatus func(st backup.Status), l logrus.FieldLogger, ) *uploader { return &uploader{ sourcer, rbacSourcer, dynUserSourcer, backend, backupID, newZipConfig(Compression{ Level: DefaultCompression, CPUPercentage: DefaultCPUPercentage, ChunkSize: DefaultChunkSize, }), setstatus, l, } } func (u *uploader) withCompression(cfg zipConfig) *uploader { u.zipConfig = cfg return u } // all uploads all files in addition to the metadata file func (u *uploader) all(ctx context.Context, classes []string, desc *backup.BackupDescriptor, overrideBucket, overridePath string) (err error) { u.setStatus(backup.Transferring) desc.Status = string(backup.Transferring) ch := u.sourcer.BackupDescriptors(ctx, desc.ID, classes) var totalPreCompressionSize int64 // Track total pre-compression bytes defer func() { // release indexes under all conditions u.releaseIndexes(classes, desc.ID) // make sure context is not cancelled when uploading metadata ctx := context.Background() // Handle success case first if err == nil { u.log.Info("start uploading metadata") if err = u.backend.PutMeta(ctx, desc, overrideBucket, overridePath); err != nil { desc.Status = string(backup.Transferred) } u.setStatus(backup.Success) u.log.Info("finish uploading metadata") return } desc.Error = err.Error() // Handle error cases if errors.Is(err, context.Canceled) || errors.Is(ctx.Err(), context.Canceled) { u.setStatus(backup.Cancelled) desc.Status = string(backup.Cancelled) } u.log.Info("start uploading metadata for cancelled or failed backup") if metaErr := u.backend.PutMeta(ctx, desc, overrideBucket, overridePath); metaErr != nil { // combine errors for shadowing the original error in case // of putMeta failure err = fmt.Errorf("upload %w: %w", err, metaErr) } u.log.Info("finish uploading metadata for cancelled or failed backup") }() contextChecker := func(ctx context.Context) error { ctxerr := ctx.Err() if ctxerr != nil { u.setStatus(backup.Cancelled) desc.Status = string(backup.Cancelled) u.releaseIndexes(classes, desc.ID) } return ctxerr } Loop: for { select { case cdesc, ok := <-ch: if !ok { u.releaseIndexes(classes, desc.ID) break Loop // we are done } if cdesc.Error != nil { return cdesc.Error } u.log.WithField("class", cdesc.Name).Info("start uploading files") preCompressionSize, err := u.class(ctx, desc.ID, &cdesc, overrideBucket, overridePath) if err != nil { return err } totalPreCompressionSize += preCompressionSize cdesc.PreCompressionSizeBytes = preCompressionSize // Set pre-compression size for this class desc.Classes = append(desc.Classes, cdesc) u.log.WithField("class", cdesc.Name).Info("finish uploading files") case <-ctx.Done(): return contextChecker(ctx) } } if err := ctx.Err(); err != nil { return contextChecker(ctx) } else if u.rbacSourcer != nil { u.log.Info("start uploading RBAC backups") descrp, err := u.rbacSourcer.Snapshot() if err != nil { return err } desc.RbacBackups = descrp } if err := ctx.Err(); err != nil { return contextChecker(ctx) } else if u.dynUserSourcer != nil { u.log.Info("start uploading dynamic user backups") descrp, err := u.dynUserSourcer.Snapshot() if err != nil { return err } desc.UserBackups = descrp } u.setStatus(backup.Transferred) desc.Status = string(backup.Success) // After all classes, set desc.PreCompressionSizeBytes as the sum of all class sizes desc.PreCompressionSizeBytes = totalPreCompressionSize return nil } func (u *uploader) releaseIndexes(classes []string, ID string) { for _, class := range classes { className := class enterrors.GoWrapper(func() { if err := u.sourcer.ReleaseBackup(context.Background(), ID, className); err != nil { u.log.WithFields(logrus.Fields{ "class": className, "backupID": ID, }).Error("failed to release backup") } }, u.log) } } // class uploads one class // Returns the number of bytes written for this class func (u *uploader) class(ctx context.Context, id string, desc *backup.ClassDescriptor, overrideBucket, overridePath string) (int64, error) { var err error classLabel := desc.Name if monitoring.GetMetrics().Group { classLabel = "n/a" } metric, err := monitoring.GetMetrics().BackupStoreDurations.GetMetricWithLabelValues(getType(u.backend.backend), classLabel) if err == nil { timer := prometheus.NewTimer(metric) defer timer.ObserveDuration() } defer func() { // backups need to be released anyway enterrors.GoWrapper(func() { if err := u.sourcer.ReleaseBackup(context.Background(), id, desc.Name); err != nil { u.log.WithFields(logrus.Fields{ "class": id, "backupID": desc.Name, }).Error("failed to release backup") } }, u.log) }() ctx, cancel := context.WithTimeout(ctx, storeTimeout) defer cancel() u.log.WithFields(logrus.Fields{ "action": "upload_class", "duration": storeTimeout, }).Debug("context.WithTimeout") nShards := len(desc.Shards) if nShards == 0 { return 0, nil } desc.Chunks = make(map[int32][]string, 1+nShards/2) var ( hasJobs atomic.Bool lastChunk = int32(0) nWorker = u.GoPoolSize ) if nWorker > nShards { nWorker = nShards } hasJobs.Store(nShards > 0) // jobs produces work for the processor jobs := func(xs []*backup.ShardDescriptor) <-chan *backup.ShardDescriptor { sendCh := make(chan *backup.ShardDescriptor) f := func() { defer close(sendCh) defer hasJobs.Store(false) for _, shard := range xs { select { case sendCh <- shard: // cancellation will happen for two reasons: // - 1. if the whole operation has been aborted, // - 2. or if the processor routine returns an error case <-ctx.Done(): return } } } enterrors.GoWrapper(f, u.log) return sendCh } // processor processor := func(nWorker int, sender <-chan *backup.ShardDescriptor) <-chan chuckShards { eg, ctx := enterrors.NewErrorGroupWithContextWrapper(u.log, ctx) eg.SetLimit(nWorker) recvCh := make(chan chuckShards, nWorker) f := func() { defer close(recvCh) for i := 0; i < nWorker; i++ { eg.Go(func() error { // operation might have been aborted see comment above if err := ctx.Err(); err != nil { return err } for hasJobs.Load() { if err := ctx.Err(); err != nil { return err } chunk := atomic.AddInt32(&lastChunk, 1) shards, preCompressionSize, err := u.compress(ctx, desc.Name, chunk, sender, overrideBucket, overridePath) if err != nil { return err } if m := int32(len(shards)); m > 0 { recvCh <- chuckShards{chunk, shards, preCompressionSize} } } return err }) } err = eg.Wait() } enterrors.GoWrapper(f, u.log) return recvCh } for x := range processor(nWorker, jobs(desc.Shards)) { desc.Chunks[x.chunk] = x.shards desc.PreCompressionSizeBytes += x.preCompressionSize } return desc.PreCompressionSizeBytes, err } type chuckShards struct { chunk int32 shards []string preCompressionSize int64 } func (u *uploader) compress(ctx context.Context, class string, // class name chunk int32, // chunk index ch <-chan *backup.ShardDescriptor, // chan of shards overrideBucket, overridePath string, // bucket name and path ) ([]string, int64, error) { var ( chunkKey = chunkKey(class, chunk) shards = make([]string, 0, 10) // add tolerance to enable better optimization of the chunk size maxSize = int64(u.ChunkSize + u.ChunkSize/20) // size + 5% preCompressionSize atomic.Int64 eg = enterrors.NewErrorGroupWrapper(u.log) ) zip, reader := NewZip(u.backend.SourceDataPath(), u.Level) producer := func() error { defer zip.Close() lastShardSize := int64(0) for shard := range ch { if err := ctx.Err(); err != nil { return err } eg.Go(func() error { // Calculate pre-compression size for this shard shardPreSize := u.calculateShardPreCompressionSize(shard) preCompressionSize.Add(shardPreSize) return nil }) if _, err := zip.WriteShard(ctx, shard); err != nil { return err } shard.Chunk = chunk shards = append(shards, shard.Name) shard.ClearTemporary() zip.gzw.Flush() // flush new shard lastShardSize = zip.lastWritten() - lastShardSize if zip.lastWritten()+lastShardSize > maxSize { break } } return nil } // consumer eg.Go(func() error { if _, err := u.backend.Write(ctx, chunkKey, overrideBucket, overridePath, reader); err != nil { return err } return nil }) if err := producer(); err != nil { return shards, preCompressionSize.Load(), err } // wait for the consumer to finish return shards, preCompressionSize.Load(), eg.Wait() } // calculateShardPreCompressionSize calculates the total size of a shard before compression // Since shards are paused and memtables are flushed during backup, we only need to calculate // the size of files on disk, not in-memory data. func (u *uploader) calculateShardPreCompressionSize(shard *backup.ShardDescriptor) int64 { var totalSize int64 sourceDataPath := u.backend.SourceDataPath() // Add size of files on disk (in-memory data is flushed to disk during backup preparation) for _, filePath := range shard.Files { fullPath := filepath.Join(sourceDataPath, filePath) if info, err := os.Stat(fullPath); err == nil { totalSize += info.Size() } } u.log.WithFields(logrus.Fields{ "shard": shard.Name, "filesCount": len(shard.Files), "totalSize": totalSize, "sourceDataPath": sourceDataPath, }).Debug("calculated pre-compression size for shard") return totalSize } // fileWriter downloads files from object store and writes files to the destination folder destDir type fileWriter struct { sourcer Sourcer backend nodeStore tempDir string destDir string movedFiles []string // files successfully moved to destination folder compressed bool GoPoolSize int migrator func(classPath string) error logger logrus.FieldLogger } func newFileWriter(sourcer Sourcer, backend nodeStore, compressed bool, logger logrus.FieldLogger, ) *fileWriter { destDir := backend.SourceDataPath() return &fileWriter{ sourcer: sourcer, backend: backend, destDir: destDir, tempDir: path.Join(destDir, TempDirectory), movedFiles: make([]string, 0, 64), compressed: compressed, GoPoolSize: routinePoolSize(50), logger: logger, } } func (fw *fileWriter) WithPoolPercentage(p int) *fileWriter { fw.GoPoolSize = routinePoolSize(p) return fw } func (fw *fileWriter) setMigrator(m func(classPath string) error) { fw.migrator = m } // Write downloads files and put them in the destination directory func (fw *fileWriter) Write(ctx context.Context, desc *backup.ClassDescriptor, overrideBucket, overridePath string) (err error) { if len(desc.Shards) == 0 { // nothing to copy return nil } classTempDir := path.Join(fw.tempDir, desc.Name) if err := fw.writeTempFiles(ctx, classTempDir, overrideBucket, overridePath, desc); err != nil { return fmt.Errorf("get files: %w", err) } if fw.migrator != nil { if err := fw.migrator(classTempDir); err != nil { return fmt.Errorf("migrate from pre 1.23: %w", err) } } return nil } // writeTempFiles writes class files into a temporary directory // temporary directory path = d.tempDir/className // Function makes sure that created files will be removed in case of an error func (fw *fileWriter) writeTempFiles(ctx context.Context, classTempDir, overrideBucket, overridePath string, desc *backup.ClassDescriptor) (err error) { if err := os.RemoveAll(classTempDir); err != nil { return fmt.Errorf("remove %s: %w", classTempDir, err) } if err := os.MkdirAll(classTempDir, os.ModePerm); err != nil { return fmt.Errorf("create temp class folder %s: %w", classTempDir, err) } ctx, cancel := context.WithCancel(ctx) defer cancel() // no compression processed as before eg, ctx := enterrors.NewErrorGroupWithContextWrapper(fw.logger, ctx) if !fw.compressed { eg.SetLimit(2 * _NUMCPU) for _, shard := range desc.Shards { shard := shard eg.Go(func() error { return fw.writeTempShard(ctx, shard, classTempDir, overrideBucket, overridePath) }, shard.Name) } return eg.Wait() } // source files are compressed eg.SetLimit(fw.GoPoolSize) for k := range desc.Chunks { chunk := chunkKey(desc.Name, k) eg.Go(func() error { uz, w := NewUnzip(classTempDir) enterrors.GoWrapper(func() { fw.backend.Read(ctx, chunk, overrideBucket, overridePath, w) }, fw.logger) _, err := uz.ReadChunk() return err }) } return eg.Wait() } func (fw *fileWriter) writeTempShard(ctx context.Context, sd *backup.ShardDescriptor, classTempDir, overrideBucket, overridePath string) error { for _, key := range sd.Files { destPath := path.Join(classTempDir, key) destDir := path.Dir(destPath) if err := os.MkdirAll(destDir, os.ModePerm); err != nil { return fmt.Errorf("create folder %s: %w", destDir, err) } if err := fw.backend.WriteToFile(ctx, key, destPath, overrideBucket, overridePath); err != nil { return fmt.Errorf("write file %s: %w", destPath, err) } } destPath := path.Join(classTempDir, sd.DocIDCounterPath) if err := os.WriteFile(destPath, sd.DocIDCounter, os.ModePerm); err != nil { return fmt.Errorf("write counter file %s: %w", destPath, err) } destPath = path.Join(classTempDir, sd.PropLengthTrackerPath) if err := os.WriteFile(destPath, sd.PropLengthTracker, os.ModePerm); err != nil { return fmt.Errorf("write prop file %s: %w", destPath, err) } destPath = path.Join(classTempDir, sd.ShardVersionPath) if err := os.WriteFile(destPath, sd.Version, os.ModePerm); err != nil { return fmt.Errorf("write version file %s: %w", destPath, err) } return nil } func chunkKey(class string, id int32) string { return fmt.Sprintf("%s/chunk-%d", class, id) } func routinePoolSize(percentage int) int { if percentage == 0 { // default value percentage = DefaultCPUPercentage } else if percentage > maxCPUPercentage { percentage = maxCPUPercentage } if x := (_NUMCPU * percentage) / 100; x > 0 { return x } return 1 } // RestoreClassDir returns a func that restores classes on the filesystem directly from the temporary class backup stored on disk. // This function is invoked by the Raft store when a restoration request is sent by the backup coordinator. func RestoreClassDir(dataPath string) func(class string) error { return func(class string) error { classTempDir := filepath.Join(dataPath, TempDirectory, class) // nothing to restore if _, err := os.Stat(classTempDir); err != nil { return nil } defer os.RemoveAll(classTempDir) files, err := os.ReadDir(classTempDir) if err != nil { return fmt.Errorf("read %s", classTempDir) } destDir := dataPath for _, key := range files { from := path.Join(classTempDir, key.Name()) to := path.Join(destDir, key.Name()) if err := os.Rename(from, to); err != nil { return fmt.Errorf("move %s %s: %w", from, to, err) } } return nil } }