package index import ( "context" "fmt" "runtime" "sync" "github.com/restic/restic/internal/debug" "github.com/restic/restic/internal/restic" "github.com/restic/restic/internal/ui/progress" "golang.org/x/sync/errgroup" ) // MasterIndex is a collection of indexes and IDs of chunks that are in the process of being saved. type MasterIndex struct { idx []*Index pendingBlobs restic.BlobSet idxMutex sync.RWMutex } // NewMasterIndex creates a new master index. func NewMasterIndex() *MasterIndex { mi := &MasterIndex{pendingBlobs: restic.NewBlobSet()} mi.clear() return mi } func (mi *MasterIndex) clear() { // Always add an empty final index, such that MergeFinalIndexes can merge into this. mi.idx = []*Index{NewIndex()} mi.idx[0].Finalize() } // Lookup queries all known Indexes for the ID and returns all matches. func (mi *MasterIndex) Lookup(bh restic.BlobHandle) (pbs []restic.PackedBlob) { mi.idxMutex.RLock() defer mi.idxMutex.RUnlock() for _, idx := range mi.idx { pbs = idx.Lookup(bh, pbs) } return pbs } // LookupSize queries all known Indexes for the ID and returns the first match. func (mi *MasterIndex) LookupSize(bh restic.BlobHandle) (uint, bool) { mi.idxMutex.RLock() defer mi.idxMutex.RUnlock() for _, idx := range mi.idx { if size, found := idx.LookupSize(bh); found { return size, found } } return 0, false } // AddPending adds a given blob to list of pending Blobs // Before doing so it checks if this blob is already known. // Returns true if adding was successful and false if the blob // was already known func (mi *MasterIndex) AddPending(bh restic.BlobHandle) bool { mi.idxMutex.Lock() defer mi.idxMutex.Unlock() // Check if blob is pending or in index if mi.pendingBlobs.Has(bh) { return false } for _, idx := range mi.idx { if idx.Has(bh) { return false } } // really not known -> insert mi.pendingBlobs.Insert(bh) return true } // Has queries all known Indexes for the ID and returns the first match. // Also returns true if the ID is pending. func (mi *MasterIndex) Has(bh restic.BlobHandle) bool { mi.idxMutex.RLock() defer mi.idxMutex.RUnlock() // also return true if blob is pending if mi.pendingBlobs.Has(bh) { return true } for _, idx := range mi.idx { if idx.Has(bh) { return true } } return false } // IDs returns the IDs of all indexes contained in the index. func (mi *MasterIndex) IDs() restic.IDSet { mi.idxMutex.RLock() defer mi.idxMutex.RUnlock() ids := restic.NewIDSet() for _, idx := range mi.idx { if !idx.Final() { continue } indexIDs, err := idx.IDs() if err != nil { debug.Log("not using index, ID() returned error %v", err) continue } for _, id := range indexIDs { ids.Insert(id) } } return ids } // Packs returns all packs that are covered by the index. // If packBlacklist is given, those packs are only contained in the // resulting IDSet if they are contained in a non-final (newly written) index. func (mi *MasterIndex) Packs(packBlacklist restic.IDSet) restic.IDSet { mi.idxMutex.RLock() defer mi.idxMutex.RUnlock() packs := restic.NewIDSet() for _, idx := range mi.idx { idxPacks := idx.Packs() if idx.final && len(packBlacklist) > 0 { idxPacks = idxPacks.Sub(packBlacklist) } packs.Merge(idxPacks) } return packs } // Insert adds a new index to the MasterIndex. func (mi *MasterIndex) Insert(idx *Index) { mi.idxMutex.Lock() defer mi.idxMutex.Unlock() mi.idx = append(mi.idx, idx) } // StorePack remembers the id and pack in the index. func (mi *MasterIndex) StorePack(id restic.ID, blobs []restic.Blob) { mi.idxMutex.Lock() defer mi.idxMutex.Unlock() // delete blobs from pending for _, blob := range blobs { mi.pendingBlobs.Delete(restic.BlobHandle{Type: blob.Type, ID: blob.ID}) } for _, idx := range mi.idx { if !idx.Final() { idx.StorePack(id, blobs) return } } newIdx := NewIndex() newIdx.StorePack(id, blobs) mi.idx = append(mi.idx, newIdx) } // finalizeNotFinalIndexes finalizes all indexes that // have not yet been saved and returns that list func (mi *MasterIndex) finalizeNotFinalIndexes() []*Index { mi.idxMutex.Lock() defer mi.idxMutex.Unlock() var list []*Index for _, idx := range mi.idx { if !idx.Final() { idx.Finalize() list = append(list, idx) } } debug.Log("return %d indexes", len(list)) return list } // finalizeFullIndexes finalizes all indexes that are full and returns that list. func (mi *MasterIndex) finalizeFullIndexes() []*Index { mi.idxMutex.Lock() defer mi.idxMutex.Unlock() var list []*Index debug.Log("checking %d indexes", len(mi.idx)) for _, idx := range mi.idx { if idx.Final() { continue } if IndexFull(idx) { debug.Log("index %p is full", idx) idx.Finalize() list = append(list, idx) } else { debug.Log("index %p not full", idx) } } debug.Log("return %d indexes", len(list)) return list } // Each runs fn on all blobs known to the index. When the context is cancelled, // the index iteration return immediately. This blocks any modification of the index. func (mi *MasterIndex) Each(ctx context.Context, fn func(restic.PackedBlob)) error { mi.idxMutex.RLock() defer mi.idxMutex.RUnlock() for _, idx := range mi.idx { if err := idx.Each(ctx, fn); err != nil { return err } } return nil } // MergeFinalIndexes merges all final indexes together. // After calling, there will be only one big final index in MasterIndex // containing all final index contents. // Indexes that are not final are left untouched. // This merging can only be called after all index files are loaded - as // removing of superseded index contents is only possible for unmerged indexes. func (mi *MasterIndex) MergeFinalIndexes() error { mi.idxMutex.Lock() defer mi.idxMutex.Unlock() // The first index is always final and the one to merge into newIdx := mi.idx[:1] for i := 1; i < len(mi.idx); i++ { idx := mi.idx[i] // clear reference in masterindex as it may become stale mi.idx[i] = nil // do not merge indexes that have no id set ids, _ := idx.IDs() if !idx.Final() || len(ids) == 0 { newIdx = append(newIdx, idx) } else { err := mi.idx[0].merge(idx) if err != nil { return fmt.Errorf("MergeFinalIndexes: %w", err) } } } mi.idx = newIdx return nil } func (mi *MasterIndex) Load(ctx context.Context, r restic.ListerLoaderUnpacked, p *progress.Counter, cb func(id restic.ID, idx *Index, err error) error) error { indexList, err := restic.MemorizeList(ctx, r, restic.IndexFile) if err != nil { return err } if p != nil { var numIndexFiles uint64 err := indexList.List(ctx, restic.IndexFile, func(_ restic.ID, _ int64) error { numIndexFiles++ return nil }) if err != nil { return err } p.SetMax(numIndexFiles) defer p.Done() } err = ForAllIndexes(ctx, indexList, r, func(id restic.ID, idx *Index, err error) error { if p != nil { p.Add(1) } if cb != nil { err = cb(id, idx, err) } if err != nil { return err } // special case to allow check to ignore index loading errors if idx == nil { return nil } mi.Insert(idx) return nil }) if err != nil { return err } return mi.MergeFinalIndexes() } type MasterIndexRewriteOpts struct { SaveProgress *progress.Counter DeleteProgress func() *progress.Counter DeleteReport func(id restic.ID, err error) } // Rewrite removes packs whose ID is in excludePacks from all known indexes. // It also removes the rewritten index files and those listed in extraObsolete. // If oldIndexes is not nil, then only the indexes in this set are processed. // This is used by repair index to only rewrite and delete the old indexes. // // Must not be called concurrently to any other MasterIndex operation. func (mi *MasterIndex) Rewrite(ctx context.Context, repo restic.Unpacked, excludePacks restic.IDSet, oldIndexes restic.IDSet, extraObsolete restic.IDs, opts MasterIndexRewriteOpts) error { for _, idx := range mi.idx { if !idx.Final() { panic("internal error - index must be saved before calling MasterIndex.Rewrite") } } var indexes restic.IDSet if oldIndexes != nil { // repair index adds new index entries for already existing pack files // only remove the old (possibly broken) entries by only processing old indexes indexes = oldIndexes } else { indexes = mi.IDs() } p := opts.SaveProgress p.SetMax(uint64(len(indexes))) // reset state which is not necessary for Rewrite and just consumes a lot of memory // the index state would be invalid after Rewrite completes anyways mi.clear() runtime.GC() // copy excludePacks to prevent unintended sideeffects excludePacks = excludePacks.Clone() debug.Log("start rebuilding index of %d indexes, excludePacks: %v", len(indexes), excludePacks) wg, wgCtx := errgroup.WithContext(ctx) idxCh := make(chan restic.ID) wg.Go(func() error { defer close(idxCh) for id := range indexes { select { case idxCh <- id: case <-wgCtx.Done(): return wgCtx.Err() } } return nil }) var rewriteWg sync.WaitGroup type rewriteTask struct { idx *Index } rewriteCh := make(chan rewriteTask) loader := func() error { defer rewriteWg.Done() for id := range idxCh { buf, err := repo.LoadUnpacked(wgCtx, restic.IndexFile, id) if err != nil { return fmt.Errorf("LoadUnpacked(%v): %w", id.Str(), err) } idx, err := DecodeIndex(buf, id) if err != nil { return err } select { case rewriteCh <- rewriteTask{idx}: case <-wgCtx.Done(): return wgCtx.Err() } } return nil } // loading an index can take quite some time such that this is probably CPU-bound // the index files are probably already cached at this point loaderCount := runtime.GOMAXPROCS(0) // run workers on ch for i := 0; i < loaderCount; i++ { rewriteWg.Add(1) wg.Go(loader) } wg.Go(func() error { rewriteWg.Wait() close(rewriteCh) return nil }) obsolete := restic.NewIDSet(extraObsolete...) saveCh := make(chan *Index) wg.Go(func() error { defer close(saveCh) newIndex := NewIndex() for task := range rewriteCh { // always rewrite indexes that include a pack that must be removed or that are not full if len(task.idx.Packs().Intersect(excludePacks)) == 0 && IndexFull(task.idx) { // make sure that each pack is only stored exactly once in the index excludePacks.Merge(task.idx.Packs()) // index is already up to date p.Add(1) continue } ids, err := task.idx.IDs() if err != nil || len(ids) != 1 { panic("internal error, index has no ID") } obsolete.Merge(restic.NewIDSet(ids...)) for pbs := range task.idx.EachByPack(wgCtx, excludePacks) { newIndex.StorePack(pbs.PackID, pbs.Blobs) if IndexFull(newIndex) { select { case saveCh <- newIndex: case <-wgCtx.Done(): return wgCtx.Err() } newIndex = NewIndex() } } if wgCtx.Err() != nil { return wgCtx.Err() } // make sure that each pack is only stored exactly once in the index excludePacks.Merge(task.idx.Packs()) p.Add(1) } select { case saveCh <- newIndex: case <-wgCtx.Done(): } return nil }) // a worker receives an index from ch, and saves the index worker := func() error { for idx := range saveCh { idx.Finalize() if len(idx.packs) == 0 { continue } if _, err := idx.SaveIndex(wgCtx, repo); err != nil { return err } } return nil } // encoding an index can take quite some time such that this can be CPU- or IO-bound // do not add repo.Connections() here as there are already the loader goroutines. workerCount := runtime.GOMAXPROCS(0) // run workers on ch for i := 0; i < workerCount; i++ { wg.Go(worker) } err := wg.Wait() p.Done() if err != nil { return fmt.Errorf("failed to rewrite indexes: %w", err) } p = nil if opts.DeleteProgress != nil { p = opts.DeleteProgress() } defer p.Done() return restic.ParallelRemove(ctx, repo, obsolete, restic.IndexFile, func(id restic.ID, err error) error { if opts.DeleteReport != nil { opts.DeleteReport(id, err) } return err }, p) } // SaveFallback saves all known indexes to index files, leaving out any // packs whose ID is contained in packBlacklist from finalized indexes. // It is only intended for use by prune with the UnsafeRecovery option. // // Must not be called concurrently to any other MasterIndex operation. func (mi *MasterIndex) SaveFallback(ctx context.Context, repo restic.SaverRemoverUnpacked, excludePacks restic.IDSet, p *progress.Counter) error { p.SetMax(uint64(len(mi.Packs(excludePacks)))) mi.idxMutex.Lock() defer mi.idxMutex.Unlock() debug.Log("start rebuilding index of %d indexes, excludePacks: %v", len(mi.idx), excludePacks) obsolete := restic.NewIDSet() wg, wgCtx := errgroup.WithContext(ctx) ch := make(chan *Index) wg.Go(func() error { defer close(ch) newIndex := NewIndex() for _, idx := range mi.idx { if idx.Final() { ids, err := idx.IDs() if err != nil { panic("internal error - finalized index without ID") } debug.Log("adding index ids %v to supersedes field", ids) obsolete.Merge(restic.NewIDSet(ids...)) } for pbs := range idx.EachByPack(wgCtx, excludePacks) { newIndex.StorePack(pbs.PackID, pbs.Blobs) p.Add(1) if IndexFull(newIndex) { select { case ch <- newIndex: case <-wgCtx.Done(): return wgCtx.Err() } newIndex = NewIndex() } } if wgCtx.Err() != nil { return wgCtx.Err() } } select { case ch <- newIndex: case <-wgCtx.Done(): } return nil }) // a worker receives an index from ch, and saves the index worker := func() error { for idx := range ch { idx.Finalize() if _, err := idx.SaveIndex(wgCtx, repo); err != nil { return err } } return nil } // keep concurrency bounded as we're on a fallback path workerCount := int(repo.Connections()) // run workers on ch for i := 0; i < workerCount; i++ { wg.Go(worker) } err := wg.Wait() p.Done() // the index no longer matches to stored state mi.clear() return err } // saveIndex saves all indexes in the backend. func (mi *MasterIndex) saveIndex(ctx context.Context, r restic.SaverUnpacked, indexes ...*Index) error { for i, idx := range indexes { debug.Log("Saving index %d", i) sid, err := idx.SaveIndex(ctx, r) if err != nil { return err } debug.Log("Saved index %d as %v", i, sid) } return mi.MergeFinalIndexes() } // SaveIndex saves all new indexes in the backend. func (mi *MasterIndex) SaveIndex(ctx context.Context, r restic.SaverUnpacked) error { return mi.saveIndex(ctx, r, mi.finalizeNotFinalIndexes()...) } // SaveFullIndex saves all full indexes in the backend. func (mi *MasterIndex) SaveFullIndex(ctx context.Context, r restic.SaverUnpacked) error { return mi.saveIndex(ctx, r, mi.finalizeFullIndexes()...) } // ListPacks returns the blobs of the specified pack files grouped by pack file. func (mi *MasterIndex) ListPacks(ctx context.Context, packs restic.IDSet) <-chan restic.PackBlobs { out := make(chan restic.PackBlobs) go func() { defer close(out) // only resort a part of the index to keep the memory overhead bounded for i := byte(0); i < 16; i++ { packBlob := make(map[restic.ID][]restic.Blob) for pack := range packs { if pack[0]&0xf == i { packBlob[pack] = nil } } if len(packBlob) == 0 { continue } err := mi.Each(ctx, func(pb restic.PackedBlob) { if packs.Has(pb.PackID) && pb.PackID[0]&0xf == i { packBlob[pb.PackID] = append(packBlob[pb.PackID], pb.Blob) } }) if err != nil { return } // pass on packs for packID, pbs := range packBlob { // allow GC packBlob[packID] = nil select { case out <- restic.PackBlobs{PackID: packID, Blobs: pbs}: case <-ctx.Done(): return } } } }() return out } // Only for use by AssociatedSet func (mi *MasterIndex) blobIndex(h restic.BlobHandle) int { mi.idxMutex.RLock() defer mi.idxMutex.RUnlock() // other indexes are ignored as their ids can change when merged into the main index return mi.idx[0].BlobIndex(h) } // Only for use by AssociatedSet func (mi *MasterIndex) stableLen(t restic.BlobType) uint { mi.idxMutex.RLock() defer mi.idxMutex.RUnlock() // other indexes are ignored as their ids can change when merged into the main index return mi.idx[0].Len(t) }