package checker import ( "bufio" "bytes" "context" "fmt" "io" "runtime" "sort" "sync" "github.com/klauspost/compress/zstd" "github.com/minio/sha256-simd" "github.com/restic/restic/internal/backend" "github.com/restic/restic/internal/backend/s3" "github.com/restic/restic/internal/debug" "github.com/restic/restic/internal/errors" "github.com/restic/restic/internal/hashing" "github.com/restic/restic/internal/index" "github.com/restic/restic/internal/pack" "github.com/restic/restic/internal/repository" "github.com/restic/restic/internal/restic" "github.com/restic/restic/internal/ui/progress" "golang.org/x/sync/errgroup" ) // Checker runs various checks on a repository. It is advisable to create an // exclusive Lock in the repository before running any checks. // // A Checker only tests for internal errors within the data structures of the // repository (e.g. missing blobs), and needs a valid Repository to work on. type Checker struct { packs map[restic.ID]int64 blobRefs struct { sync.Mutex M restic.BlobSet } trackUnused bool masterIndex *index.MasterIndex snapshots restic.Lister repo restic.Repository } // New returns a new checker which runs on repo. func New(repo restic.Repository, trackUnused bool) *Checker { c := &Checker{ packs: make(map[restic.ID]int64), masterIndex: index.NewMasterIndex(), repo: repo, trackUnused: trackUnused, } c.blobRefs.M = restic.NewBlobSet() return c } // ErrLegacyLayout is returned when the repository uses the S3 legacy layout. var ErrLegacyLayout = errors.New("repository uses S3 legacy layout") // ErrDuplicatePacks is returned when a pack is found in more than one index. type ErrDuplicatePacks struct { PackID restic.ID Indexes restic.IDSet } func (e *ErrDuplicatePacks) Error() string { return fmt.Sprintf("pack %v contained in several indexes: %v", e.PackID, e.Indexes) } // ErrMixedPack is returned when a pack is found that contains both tree and data blobs. type ErrMixedPack struct { PackID restic.ID } func (e *ErrMixedPack) Error() string { return fmt.Sprintf("pack %v contains a mix of tree and data blobs", e.PackID.Str()) } // ErrOldIndexFormat is returned when an index with the old format is // found. type ErrOldIndexFormat struct { restic.ID } func (err *ErrOldIndexFormat) Error() string { return fmt.Sprintf("index %v has old format", err.ID) } // ErrPackData is returned if errors are discovered while verifying a packfile type ErrPackData struct { PackID restic.ID errs []error } func (e *ErrPackData) Error() string { return fmt.Sprintf("pack %v contains %v errors: %v", e.PackID, len(e.errs), e.errs) } func (c *Checker) LoadSnapshots(ctx context.Context) error { var err error c.snapshots, err = restic.MemorizeList(ctx, c.repo, restic.SnapshotFile) return err } func computePackTypes(ctx context.Context, idx restic.MasterIndex) map[restic.ID]restic.BlobType { packs := make(map[restic.ID]restic.BlobType) idx.Each(ctx, func(pb restic.PackedBlob) { tpe, exists := packs[pb.PackID] if exists { if pb.Type != tpe { tpe = restic.InvalidBlob } } else { tpe = pb.Type } packs[pb.PackID] = tpe }) return packs } // LoadIndex loads all index files. func (c *Checker) LoadIndex(ctx context.Context, p *progress.Counter) (hints []error, errs []error) { debug.Log("Start") indexList, err := restic.MemorizeList(ctx, c.repo, restic.IndexFile) if err != nil { // abort if an error occurs while listing the indexes return hints, append(errs, err) } if p != nil { var numIndexFiles uint64 err := indexList.List(ctx, restic.IndexFile, func(id restic.ID, size int64) error { numIndexFiles++ return nil }) if err != nil { return hints, append(errs, err) } p.SetMax(numIndexFiles) defer p.Done() } packToIndex := make(map[restic.ID]restic.IDSet) err = index.ForAllIndexes(ctx, indexList, c.repo, func(id restic.ID, index *index.Index, oldFormat bool, err error) error { debug.Log("process index %v, err %v", id, err) if p != nil { p.Add(1) } if oldFormat { debug.Log("index %v has old format", id) hints = append(hints, &ErrOldIndexFormat{id}) } err = errors.Wrapf(err, "error loading index %v", id) if err != nil { errs = append(errs, err) return nil } c.masterIndex.Insert(index) debug.Log("process blobs") cnt := 0 index.Each(ctx, func(blob restic.PackedBlob) { cnt++ if _, ok := packToIndex[blob.PackID]; !ok { packToIndex[blob.PackID] = restic.NewIDSet() } packToIndex[blob.PackID].Insert(id) }) debug.Log("%d blobs processed", cnt) return nil }) if err != nil { errs = append(errs, err) } // Merge index before computing pack sizes, as this needs removed duplicates err = c.masterIndex.MergeFinalIndexes() if err != nil { // abort if an error occurs merging the indexes return hints, append(errs, err) } // compute pack size using index entries c.packs = pack.Size(ctx, c.masterIndex, false) packTypes := computePackTypes(ctx, c.masterIndex) debug.Log("checking for duplicate packs") for packID := range c.packs { debug.Log(" check pack %v: contained in %d indexes", packID, len(packToIndex[packID])) if len(packToIndex[packID]) > 1 { hints = append(hints, &ErrDuplicatePacks{ PackID: packID, Indexes: packToIndex[packID], }) } if packTypes[packID] == restic.InvalidBlob { hints = append(hints, &ErrMixedPack{ PackID: packID, }) } } err = c.repo.SetIndex(c.masterIndex) if err != nil { debug.Log("SetIndex returned error: %v", err) errs = append(errs, err) } return hints, errs } // PackError describes an error with a specific pack. type PackError struct { ID restic.ID Orphaned bool Err error } func (e *PackError) Error() string { return "pack " + e.ID.String() + ": " + e.Err.Error() } // IsOrphanedPack returns true if the error describes a pack which is not // contained in any index. func IsOrphanedPack(err error) bool { var e *PackError return errors.As(err, &e) && e.Orphaned } func isS3Legacy(b backend.Backend) bool { be := backend.AsBackend[*s3.Backend](b) return be != nil && be.Layout.Name() == "s3legacy" } // Packs checks that all packs referenced in the index are still available and // there are no packs that aren't in an index. errChan is closed after all // packs have been checked. func (c *Checker) Packs(ctx context.Context, errChan chan<- error) { defer close(errChan) if isS3Legacy(c.repo.Backend()) { errChan <- ErrLegacyLayout } debug.Log("checking for %d packs", len(c.packs)) debug.Log("listing repository packs") repoPacks := make(map[restic.ID]int64) err := c.repo.List(ctx, restic.PackFile, func(id restic.ID, size int64) error { repoPacks[id] = size return nil }) if err != nil { errChan <- err } for id, size := range c.packs { reposize, ok := repoPacks[id] // remove from repoPacks so we can find orphaned packs delete(repoPacks, id) // missing: present in c.packs but not in the repo if !ok { select { case <-ctx.Done(): return case errChan <- &PackError{ID: id, Err: errors.New("does not exist")}: } continue } // size not matching: present in c.packs and in the repo, but sizes do not match if size != reposize { select { case <-ctx.Done(): return case errChan <- &PackError{ID: id, Err: errors.Errorf("unexpected file size: got %d, expected %d", reposize, size)}: } } } // orphaned: present in the repo but not in c.packs for orphanID := range repoPacks { select { case <-ctx.Done(): return case errChan <- &PackError{ID: orphanID, Orphaned: true, Err: errors.New("not referenced in any index")}: } } } // Error is an error that occurred while checking a repository. type Error struct { TreeID restic.ID Err error } func (e *Error) Error() string { if !e.TreeID.IsNull() { return "tree " + e.TreeID.String() + ": " + e.Err.Error() } return e.Err.Error() } // TreeError collects several errors that occurred while processing a tree. type TreeError struct { ID restic.ID Errors []error } func (e *TreeError) Error() string { return fmt.Sprintf("tree %v: %v", e.ID, e.Errors) } // checkTreeWorker checks the trees received and sends out errors to errChan. func (c *Checker) checkTreeWorker(ctx context.Context, trees <-chan restic.TreeItem, out chan<- error) { for job := range trees { debug.Log("check tree %v (tree %v, err %v)", job.ID, job.Tree, job.Error) var errs []error if job.Error != nil { errs = append(errs, job.Error) } else { errs = c.checkTree(job.ID, job.Tree) } if len(errs) == 0 { continue } treeError := &TreeError{ID: job.ID, Errors: errs} select { case <-ctx.Done(): return case out <- treeError: debug.Log("tree %v: sent %d errors", treeError.ID, len(treeError.Errors)) } } } func loadSnapshotTreeIDs(ctx context.Context, lister restic.Lister, repo restic.LoaderUnpacked) (ids restic.IDs, errs []error) { err := restic.ForAllSnapshots(ctx, lister, repo, nil, func(id restic.ID, sn *restic.Snapshot, err error) error { if err != nil { errs = append(errs, err) return nil } treeID := *sn.Tree debug.Log("snapshot %v has tree %v", id, treeID) ids = append(ids, treeID) return nil }) if err != nil { errs = append(errs, err) } return ids, errs } // Structure checks that for all snapshots all referenced data blobs and // subtrees are available in the index. errChan is closed after all trees have // been traversed. func (c *Checker) Structure(ctx context.Context, p *progress.Counter, errChan chan<- error) { trees, errs := loadSnapshotTreeIDs(ctx, c.snapshots, c.repo) p.SetMax(uint64(len(trees))) debug.Log("need to check %d trees from snapshots, %d errs returned", len(trees), len(errs)) for _, err := range errs { select { case <-ctx.Done(): return case errChan <- err: } } wg, ctx := errgroup.WithContext(ctx) treeStream := restic.StreamTrees(ctx, wg, c.repo, trees, func(treeID restic.ID) bool { // blobRefs may be accessed in parallel by checkTree c.blobRefs.Lock() h := restic.BlobHandle{ID: treeID, Type: restic.TreeBlob} blobReferenced := c.blobRefs.M.Has(h) // noop if already referenced c.blobRefs.M.Insert(h) c.blobRefs.Unlock() return blobReferenced }, p) defer close(errChan) // The checkTree worker only processes already decoded trees and is thus CPU-bound workerCount := runtime.GOMAXPROCS(0) for i := 0; i < workerCount; i++ { wg.Go(func() error { c.checkTreeWorker(ctx, treeStream, errChan) return nil }) } // the wait group should not return an error because no worker returns an // error, so panic if that has changed somehow. err := wg.Wait() if err != nil { panic(err) } } func (c *Checker) checkTree(id restic.ID, tree *restic.Tree) (errs []error) { debug.Log("checking tree %v", id) for _, node := range tree.Nodes { switch node.Type { case "file": if node.Content == nil { errs = append(errs, &Error{TreeID: id, Err: errors.Errorf("file %q has nil blob list", node.Name)}) } for b, blobID := range node.Content { if blobID.IsNull() { errs = append(errs, &Error{TreeID: id, Err: errors.Errorf("file %q blob %d has null ID", node.Name, b)}) continue } // Note that we do not use the blob size. The "obvious" check // whether the sum of the blob sizes matches the file size // unfortunately fails in some cases that are not resolvable // by users, so we omit this check, see #1887 _, found := c.repo.LookupBlobSize(blobID, restic.DataBlob) if !found { debug.Log("tree %v references blob %v which isn't contained in index", id, blobID) errs = append(errs, &Error{TreeID: id, Err: errors.Errorf("file %q blob %v not found in index", node.Name, blobID)}) } } if c.trackUnused { // loop a second time to keep the locked section as short as possible c.blobRefs.Lock() for _, blobID := range node.Content { if blobID.IsNull() { continue } h := restic.BlobHandle{ID: blobID, Type: restic.DataBlob} c.blobRefs.M.Insert(h) debug.Log("blob %v is referenced", blobID) } c.blobRefs.Unlock() } case "dir": if node.Subtree == nil { errs = append(errs, &Error{TreeID: id, Err: errors.Errorf("dir node %q has no subtree", node.Name)}) continue } if node.Subtree.IsNull() { errs = append(errs, &Error{TreeID: id, Err: errors.Errorf("dir node %q subtree id is null", node.Name)}) continue } case "symlink", "socket", "chardev", "dev", "fifo": // nothing to check default: errs = append(errs, &Error{TreeID: id, Err: errors.Errorf("node %q with invalid type %q", node.Name, node.Type)}) } if node.Name == "" { errs = append(errs, &Error{TreeID: id, Err: errors.New("node with empty name")}) } } return errs } // UnusedBlobs returns all blobs that have never been referenced. func (c *Checker) UnusedBlobs(ctx context.Context) (blobs restic.BlobHandles) { if !c.trackUnused { panic("only works when tracking blob references") } c.blobRefs.Lock() defer c.blobRefs.Unlock() debug.Log("checking %d blobs", len(c.blobRefs.M)) ctx, cancel := context.WithCancel(ctx) defer cancel() c.repo.Index().Each(ctx, func(blob restic.PackedBlob) { h := restic.BlobHandle{ID: blob.ID, Type: blob.Type} if !c.blobRefs.M.Has(h) { debug.Log("blob %v not referenced", h) blobs = append(blobs, h) } }) return blobs } // CountPacks returns the number of packs in the repository. func (c *Checker) CountPacks() uint64 { return uint64(len(c.packs)) } // GetPacks returns IDSet of packs in the repository func (c *Checker) GetPacks() map[restic.ID]int64 { return c.packs } // checkPack reads a pack and checks the integrity of all blobs. func checkPack(ctx context.Context, r restic.Repository, id restic.ID, blobs []restic.Blob, size int64, bufRd *bufio.Reader, dec *zstd.Decoder) error { debug.Log("checking pack %v", id.String()) if len(blobs) == 0 { return errors.Errorf("pack %v is empty or not indexed", id) } // sanity check blobs in index sort.Slice(blobs, func(i, j int) bool { return blobs[i].Offset < blobs[j].Offset }) idxHdrSize := pack.CalculateHeaderSize(blobs) lastBlobEnd := 0 nonContinuousPack := false for _, blob := range blobs { if lastBlobEnd != int(blob.Offset) { nonContinuousPack = true } lastBlobEnd = int(blob.Offset + blob.Length) } // size was calculated by masterindex.PackSize, thus there's no need to recalculate it here var errs []error if nonContinuousPack { debug.Log("Index for pack contains gaps / overlaps, blobs: %v", blobs) errs = append(errs, errors.New("Index for pack contains gaps / overlapping blobs")) } // calculate hash on-the-fly while reading the pack and capture pack header var hash restic.ID var hdrBuf []byte h := backend.Handle{Type: backend.PackFile, Name: id.String()} err := r.Backend().Load(ctx, h, int(size), 0, func(rd io.Reader) error { hrd := hashing.NewReader(rd, sha256.New()) bufRd.Reset(hrd) it := repository.NewPackBlobIterator(id, bufRd, 0, blobs, r.Key(), dec) for { val, err := it.Next() if err == repository.ErrPackEOF { break } else if err != nil { return err } debug.Log(" check blob %v: %v", val.Handle.ID, val.Handle) if val.Err != nil { debug.Log(" error verifying blob %v: %v", val.Handle.ID, err) errs = append(errs, errors.Errorf("blob %v: %v", val.Handle.ID, err)) } } // skip enough bytes until we reach the possible header start curPos := lastBlobEnd minHdrStart := int(size) - pack.MaxHeaderSize if minHdrStart > curPos { _, err := bufRd.Discard(minHdrStart - curPos) if err != nil { return err } } // read remainder, which should be the pack header var err error hdrBuf, err = io.ReadAll(bufRd) if err != nil { return err } hash = restic.IDFromHash(hrd.Sum(nil)) return nil }) if err != nil { // failed to load the pack file, return as further checks cannot succeed anyways debug.Log(" error streaming pack: %v", err) return errors.Errorf("pack %v failed to download: %v", id, err) } if !hash.Equal(id) { debug.Log("Pack ID does not match, want %v, got %v", id, hash) return errors.Errorf("Pack ID does not match, want %v, got %v", id, hash) } blobs, hdrSize, err := pack.List(r.Key(), bytes.NewReader(hdrBuf), int64(len(hdrBuf))) if err != nil { return err } if uint32(idxHdrSize) != hdrSize { debug.Log("Pack header size does not match, want %v, got %v", idxHdrSize, hdrSize) errs = append(errs, errors.Errorf("Pack header size does not match, want %v, got %v", idxHdrSize, hdrSize)) } idx := r.Index() for _, blob := range blobs { // Check if blob is contained in index and position is correct idxHas := false for _, pb := range idx.Lookup(blob.BlobHandle) { if pb.PackID == id && pb.Blob == blob { idxHas = true break } } if !idxHas { errs = append(errs, errors.Errorf("Blob %v is not contained in index or position is incorrect", blob.ID)) continue } } if len(errs) > 0 { return &ErrPackData{PackID: id, errs: errs} } return nil } // ReadData loads all data from the repository and checks the integrity. func (c *Checker) ReadData(ctx context.Context, errChan chan<- error) { c.ReadPacks(ctx, c.packs, nil, errChan) } // ReadPacks loads data from specified packs and checks the integrity. func (c *Checker) ReadPacks(ctx context.Context, packs map[restic.ID]int64, p *progress.Counter, errChan chan<- error) { defer close(errChan) g, ctx := errgroup.WithContext(ctx) type checkTask struct { id restic.ID size int64 blobs []restic.Blob } ch := make(chan checkTask) // as packs are streamed the concurrency is limited by IO workerCount := int(c.repo.Connections()) // run workers for i := 0; i < workerCount; i++ { g.Go(func() error { // create a buffer that is large enough to be reused by repository.StreamPack // this ensures that we can read the pack header later on bufRd := bufio.NewReaderSize(nil, repository.MaxStreamBufferSize) dec, err := zstd.NewReader(nil) if err != nil { panic(dec) } defer dec.Close() for { var ps checkTask var ok bool select { case <-ctx.Done(): return nil case ps, ok = <-ch: if !ok { return nil } } err := checkPack(ctx, c.repo, ps.id, ps.blobs, ps.size, bufRd, dec) p.Add(1) if err == nil { continue } select { case <-ctx.Done(): return nil case errChan <- err: } } }) } packSet := restic.NewIDSet() for pack := range packs { packSet.Insert(pack) } // push packs to ch for pbs := range c.repo.Index().ListPacks(ctx, packSet) { size := packs[pbs.PackID] debug.Log("listed %v", pbs.PackID) select { case ch <- checkTask{id: pbs.PackID, size: size, blobs: pbs.Blobs}: case <-ctx.Done(): } } close(ch) err := g.Wait() if err != nil { select { case <-ctx.Done(): return case errChan <- err: } } }