// Copyright (C) 2022 Luke Shumaker // // SPDX-License-Identifier: GPL-2.0-or-later package btrfsutil import ( "context" "fmt" iofs "io/fs" "sync" "github.com/datawire/dlib/derror" "github.com/datawire/dlib/dlog" "git.lukeshu.com/btrfs-progs-ng/lib/btrfs" "git.lukeshu.com/btrfs-progs-ng/lib/btrfs/btrfsprim" "git.lukeshu.com/btrfs-progs-ng/lib/btrfs/btrfstree" "git.lukeshu.com/btrfs-progs-ng/lib/btrfs/btrfsvol" "git.lukeshu.com/btrfs-progs-ng/lib/containers" "git.lukeshu.com/btrfs-progs-ng/lib/diskio" ) type treeIndex struct { TreeRootErr error Items *containers.RBTree[btrfsprim.Key, treeIndexValue] Errors *containers.IntervalTree[btrfsprim.Key, *btrfstree.TreeError] } type treeIndexValue struct { Key btrfsprim.Key ItemSize uint32 Path btrfstree.TreePath } func newTreeIndex() treeIndex { return treeIndex{ Items: &containers.RBTree[btrfsprim.Key, treeIndexValue]{ KeyFn: func(iv treeIndexValue) btrfsprim.Key { return iv.Key }, }, Errors: &containers.IntervalTree[btrfsprim.Key, *btrfstree.TreeError]{ MinFn: func(err *btrfstree.TreeError) btrfsprim.Key { return err.Path.Node(-1).ToKey }, MaxFn: func(err *btrfstree.TreeError) btrfsprim.Key { return err.Path.Node(-1).ToMaxKey }, }, } } type brokenTrees struct { ctx context.Context inner *btrfs.FS // btrfsprim.ROOT_TREE_OBJECTID rootTreeMu sync.Mutex rootTreeIndex *treeIndex // for all other trees treeMu sync.Mutex treeIndexes map[btrfsprim.ObjID]treeIndex } var _ btrfstree.TreeOperator = (*brokenTrees)(nil) // NewBrokenTrees wraps a *btrfs.FS to support looking up information // from broken trees. // // Of the btrfs.FS.Tree{Verb}Trees methods: // // - TreeWalk works on broken trees // - TreeLookup relies on the tree being properly ordered (which a // broken tree might not be). // - TreeSearch relies on the tree being properly ordered (which a // broken tree might not be). // - TreeSearchAll relies on the tree being properly ordered (which a // broken tree might not be), and a bad node may cause it to not // return a truncated list of results. // // NewBrokenTrees attempts to remedy these deficiencies by using // .TreeWalk to build an out-of-FS index of all of the items in the // tree, and re-implements TreeLookup, TreeSearch, and TreeSearchAll // using that index. func NewBrokenTrees(ctx context.Context, inner *btrfs.FS) interface { btrfstree.TreeOperator Superblock() (*btrfstree.Superblock, error) ReadAt(p []byte, off btrfsvol.LogicalAddr) (int, error) } { return &brokenTrees{ ctx: ctx, inner: inner, } } func (bt *brokenTrees) treeIndex(treeID btrfsprim.ObjID) treeIndex { var treeRoot *btrfstree.TreeRoot var err error if treeID == btrfsprim.ROOT_TREE_OBJECTID { bt.rootTreeMu.Lock() defer bt.rootTreeMu.Unlock() if bt.rootTreeIndex != nil { return *bt.rootTreeIndex } var sb *btrfstree.Superblock sb, err = bt.inner.Superblock() if err == nil { treeRoot, err = btrfstree.LookupTreeRoot(bt.inner, *sb, treeID) } } else { bt.treeMu.Lock() defer bt.treeMu.Unlock() if bt.treeIndexes == nil { bt.treeIndexes = make(map[btrfsprim.ObjID]treeIndex) } if cacheEntry, exists := bt.treeIndexes[treeID]; exists { return cacheEntry } var sb *btrfstree.Superblock sb, err = bt.inner.Superblock() if err == nil { treeRoot, err = btrfstree.LookupTreeRoot(bt, *sb, treeID) } } cacheEntry := newTreeIndex() if err != nil { cacheEntry.TreeRootErr = err } else { dlog.Infof(bt.ctx, "indexing tree %v...", treeID) btrfstree.TreeOperatorImpl{NodeSource: bt.inner}.RawTreeWalk( bt.ctx, *treeRoot, func(err *btrfstree.TreeError) { if len(err.Path) > 0 && err.Path.Node(-1).ToNodeAddr == 0 { // This is a panic because on the filesystems I'm working with it more likely // indicates a bug in my item parser than a problem with the filesystem. panic(fmt.Errorf("TODO: error parsing item: %w", err)) } cacheEntry.Errors.Insert(err) }, btrfstree.TreeWalkHandler{ Item: func(path btrfstree.TreePath, item btrfstree.Item) error { if cacheEntry.Items.Lookup(item.Key) != nil { // This is a panic because I'm not really sure what the best way to // handle this is, and so if this happens I want the program to crash // and force me to figure out how to handle it. panic(fmt.Errorf("dup key=%v in tree=%v", item.Key, treeID)) } cacheEntry.Items.Insert(treeIndexValue{ Key: item.Key, ItemSize: item.BodySize, Path: path.DeepCopy(), }) return nil }, }, ) dlog.Infof(bt.ctx, "... done indexing tree %v", treeID) } if treeID == btrfsprim.ROOT_TREE_OBJECTID { bt.rootTreeIndex = &cacheEntry } else { bt.treeIndexes[treeID] = cacheEntry } return cacheEntry } func (bt *brokenTrees) TreeLookup(treeID btrfsprim.ObjID, key btrfsprim.Key) (btrfstree.Item, error) { item, err := bt.TreeSearch(treeID, btrfstree.KeySearch(key.Cmp)) if err != nil { err = fmt.Errorf("item with key=%v: %w", key, err) } return item, err } func (bt *brokenTrees) TreeSearch(treeID btrfsprim.ObjID, fn func(btrfsprim.Key, uint32) int) (btrfstree.Item, error) { index := bt.treeIndex(treeID) if index.TreeRootErr != nil { return btrfstree.Item{}, index.TreeRootErr } indexItem := index.Items.Search(func(indexItem treeIndexValue) int { return fn(indexItem.Key, indexItem.ItemSize) }) if indexItem == nil { return btrfstree.Item{}, iofs.ErrNotExist } node, err := bt.inner.ReadNode(indexItem.Value.Path.Parent()) if err != nil { return btrfstree.Item{}, err } item := node.Data.BodyLeaf[indexItem.Value.Path.Node(-1).FromItemIdx] if errs := index.Errors.SearchAll(func(k btrfsprim.Key) int { return fn(k, 0) }); len(errs) > 0 { err := make(derror.MultiError, len(errs)) for i := range errs { err[i] = errs[i] } return item, err } return item, nil } func (bt *brokenTrees) TreeSearchAll(treeID btrfsprim.ObjID, fn func(btrfsprim.Key, uint32) int) ([]btrfstree.Item, error) { index := bt.treeIndex(treeID) if index.TreeRootErr != nil { return nil, index.TreeRootErr } indexItems := index.Items.SearchRange(func(indexItem treeIndexValue) int { return fn(indexItem.Key, indexItem.ItemSize) }) if len(indexItems) == 0 { return nil, iofs.ErrNotExist } ret := make([]btrfstree.Item, len(indexItems)) var node *diskio.Ref[btrfsvol.LogicalAddr, btrfstree.Node] for i := range indexItems { if node == nil || node.Addr != indexItems[i].Path.Node(-2).ToNodeAddr { var err error node, err = bt.inner.ReadNode(indexItems[i].Path.Parent()) if err != nil { return nil, err } } ret[i] = node.Data.BodyLeaf[indexItems[i].Path.Node(-1).FromItemIdx] } if errs := index.Errors.SearchAll(func(k btrfsprim.Key) int { return fn(k, 0) }); len(errs) > 0 { err := make(derror.MultiError, len(errs)) for i := range errs { err[i] = errs[i] } return ret, err } return ret, nil } func (bt *brokenTrees) TreeWalk(ctx context.Context, treeID btrfsprim.ObjID, errHandle func(*btrfstree.TreeError), cbs btrfstree.TreeWalkHandler) { index := bt.treeIndex(treeID) if index.TreeRootErr != nil { errHandle(&btrfstree.TreeError{ Path: btrfstree.TreePath{{ FromTree: treeID, }}, Err: index.TreeRootErr, }) return } var node *diskio.Ref[btrfsvol.LogicalAddr, btrfstree.Node] _ = index.Items.Walk(func(indexItem *containers.RBNode[treeIndexValue]) error { if ctx.Err() != nil { return ctx.Err() } if bt.ctx.Err() != nil { return bt.ctx.Err() } if cbs.Item != nil { if node == nil || node.Addr != indexItem.Value.Path.Node(-2).ToNodeAddr { var err error node, err = bt.inner.ReadNode(indexItem.Value.Path.Parent()) if err != nil { errHandle(&btrfstree.TreeError{Path: indexItem.Value.Path, Err: err}) return nil } } item := node.Data.BodyLeaf[indexItem.Value.Path.Node(-1).FromItemIdx] if err := cbs.Item(indexItem.Value.Path, item); err != nil { errHandle(&btrfstree.TreeError{Path: indexItem.Value.Path, Err: err}) } } return nil }) } func (bt *brokenTrees) Superblock() (*btrfstree.Superblock, error) { return bt.inner.Superblock() } func (bt *brokenTrees) ReadAt(p []byte, off btrfsvol.LogicalAddr) (int, error) { return bt.inner.ReadAt(p, off) }