package main import ( "fmt" "os" "sort" "lukeshu.com/btrfs-tools/pkg/binstruct" "lukeshu.com/btrfs-tools/pkg/btrfs" "lukeshu.com/btrfs-tools/pkg/btrfs/btrfsitem" "lukeshu.com/btrfs-tools/pkg/btrfsmisc" "lukeshu.com/btrfs-tools/pkg/util" ) func main() { if err := Main(os.Args[1]); err != nil { fmt.Fprintf(os.Stderr, "%s: error: %v\n", os.Args[0], err) os.Exit(1) } } func Main(imgfilename string) (err error) { maybeSetErr := func(_err error) { if _err != nil && err == nil { err = _err } } fh, err := os.Open(imgfilename) if err != nil { return err } defer func() { maybeSetErr(fh.Close()) }() fs := &btrfs.FS{ Devices: []*btrfs.Device{ { File: fh, }, }, } fmt.Printf("\nPass 0: superblocks...\n") /////////////////////////////////////////////////// superblock, err := fs.Superblock() if err != nil { return fmt.Errorf("superblock: %w", err) } fmt.Printf("\nPass 1: chunk mappings...\n") //////////////////////////////////////////////// fmt.Printf("Pass 1: ... initializing chunk mappings\n") if err := fs.Init(); err != nil { fmt.Printf("Pass 1: ... init chunk tree: error: %v\n", err) } fmt.Printf("Pass 1: ... walking chunk tree\n") visitedChunkNodes := make(map[btrfs.LogicalAddr]struct{}) if err := fs.WalkTree(superblock.Data.ChunkTree, btrfs.WalkTreeHandler{ Node: func(node *util.Ref[btrfs.LogicalAddr, btrfs.Node], err error) error { if err != nil { fmt.Printf("Pass 1: ... walk chunk tree: error: %v\n", err) } if node != nil { visitedChunkNodes[node.Addr] = struct{}{} } return err }, }); err != nil { fmt.Printf("Pass 1: ... walk chunk tree: error: %v\n", err) } type reconstructedStripe struct { Size uint64 Dev *btrfs.Device Addr btrfs.PhysicalAddr } reconstructedChunks := make(map[btrfs.LogicalAddr][]reconstructedStripe) for _, dev := range fs.Devices { fmt.Printf("Pass 1: ... dev[%q] scanning for nodes\n", dev.Name()) superblock, _ := dev.Superblock() foundNodes := make(map[btrfs.LogicalAddr][]btrfs.PhysicalAddr) var lostAndFoundChunks []btrfs.SysChunk if err := btrfsmisc.ScanForNodes(dev, superblock.Data, func(nodeRef *util.Ref[btrfs.PhysicalAddr, btrfs.Node], err error) { if err != nil { fmt.Printf("Pass 1: ... dev[%q] error: %v\n", dev.Name(), err) return } foundNodes[nodeRef.Data.Head.Addr] = append(foundNodes[nodeRef.Data.Head.Addr], nodeRef.Addr) _, alreadyVisited := visitedChunkNodes[nodeRef.Data.Head.Addr] if nodeRef.Data.Head.Owner == btrfs.CHUNK_TREE_OBJECTID && !alreadyVisited { for i, item := range nodeRef.Data.BodyLeaf { if item.Head.Key.ItemType != btrfsitem.CHUNK_ITEM_KEY { continue } chunk, ok := item.Body.(btrfsitem.Chunk) if !ok { fmt.Printf("Pass 1: ... dev[%q] node@%d: item %d: error: type is CHUNK_ITEM_KEY, but struct is %T\n", dev.Name(), nodeRef.Addr, i, item.Body) continue } fmt.Printf("Pass 1: ... dev[%q] node@%d: item %d: found chunk\n", dev.Name(), nodeRef.Addr, i) lostAndFoundChunks = append(lostAndFoundChunks, btrfs.SysChunk{ Key: item.Head.Key, Chunk: chunk, }) } } }); err != nil { return err } fmt.Printf("Pass 1: ... dev[%q] re-inserting lost+found chunks\n", dev.Name()) if len(lostAndFoundChunks) > 0 { panic("TODO") } fmt.Printf("Pass 1: ... dev[%q] re-constructing stripes for lost+found nodes\n", dev.Name()) lostAndFoundNodes := make(map[btrfs.PhysicalAddr]btrfs.LogicalAddr) for laddr, readPaddrs := range foundNodes { resolvedPaddrs, _ := fs.Resolve(laddr) for _, readPaddr := range readPaddrs { if _, ok := resolvedPaddrs[btrfs.QualifiedPhysicalAddr{ Dev: superblock.Data.DevItem.DevUUID, Addr: readPaddr, }]; !ok { lostAndFoundNodes[readPaddr] = laddr } } } sortedPaddrs := make([]btrfs.PhysicalAddr, 0, len(lostAndFoundNodes)) for paddr := range lostAndFoundNodes { sortedPaddrs = append(sortedPaddrs, paddr) } sort.Slice(sortedPaddrs, func(i, j int) bool { return sortedPaddrs[i] < sortedPaddrs[j] }) type stripe struct { PAddr btrfs.PhysicalAddr LAddr btrfs.LogicalAddr Size uint64 } var stripes []stripe for _, paddr := range sortedPaddrs { var lastStripe *stripe if len(stripes) > 0 { lastStripe = &stripes[len(stripes)-1] } if lastStripe != nil && (lastStripe.PAddr+btrfs.PhysicalAddr(lastStripe.Size)) == paddr { lastStripe.Size += uint64(superblock.Data.NodeSize) } else { stripes = append(stripes, stripe{ PAddr: paddr, LAddr: lostAndFoundNodes[paddr], Size: uint64(superblock.Data.NodeSize), }) } } //fmt.Printf("Pass 1: ... dev[%q] reconstructed stripes: %#v\n", dev.Name(), stripes) for _, stripe := range stripes { reconstructedChunks[stripe.LAddr] = append(reconstructedChunks[stripe.LAddr], reconstructedStripe{ Size: stripe.Size, Dev: dev, Addr: stripe.PAddr, }) } } // FIXME(lukeshu): OK, so this just assumes that all the // reconstructed stripes fit in one node, and that we can just // store that node at the root node of the chunk tree. This // isn't true in general, but it's true of my particular // filesystem. reconstructedNode := &util.Ref[btrfs.LogicalAddr, btrfs.Node]{ File: fs, Addr: superblock.Data.ChunkTree, Data: btrfs.Node{ Size: superblock.Data.NodeSize, Head: btrfs.NodeHeader{ MetadataUUID: superblock.Data.EffectiveMetadataUUID(), Addr: superblock.Data.ChunkTree, Flags: btrfs.NodeWritten, //BackrefRef: ???, //ChunkTreeUUID: ???, Generation: superblock.Data.ChunkRootGeneration, Owner: btrfs.CHUNK_TREE_OBJECTID, Level: 0, }, }, } itemOff := uint32(uint64(superblock.Data.NodeSize) - uint64(binstruct.StaticSize(btrfs.ItemHeader{}))) for _, dev := range fs.Devices { itemSize := uint32(binstruct.StaticSize(btrfsitem.Dev{})) itemOff -= itemSize superblock, _ := dev.Superblock() reconstructedNode.Data.BodyLeaf = append(reconstructedNode.Data.BodyLeaf, btrfs.Item{ Head: btrfs.ItemHeader{ Key: btrfs.Key{ ObjectID: btrfs.DEV_ITEMS_OBJECTID, ItemType: btrfsitem.DEV_ITEM_KEY, Offset: 1, // ??? }, DataOffset: itemOff, DataSize: itemSize, }, Body: superblock.Data.DevItem, }) } for laddr, stripes := range reconstructedChunks { stripeSize := stripes[0].Size for _, stripe := range stripes { if stripe.Size != stripeSize { panic("TODO: mismatch") } } itemSize := uint32(binstruct.StaticSize(btrfsitem.ChunkHeader{}) + (len(stripes) * binstruct.StaticSize(btrfsitem.ChunkStripe{}))) itemOff -= itemSize chunkStripes := make([]btrfsitem.ChunkStripe, len(stripes)) for i := range stripes { superblock, _ := stripes[i].Dev.Superblock() chunkStripes[i] = btrfsitem.ChunkStripe{ DeviceID: superblock.Data.DevItem.DeviceID, DeviceUUID: superblock.Data.DevItem.DevUUID, Offset: stripes[i].Addr, } } reconstructedNode.Data.BodyLeaf = append(reconstructedNode.Data.BodyLeaf, btrfs.Item{ Head: btrfs.ItemHeader{ Key: btrfs.Key{ ObjectID: btrfs.FIRST_CHUNK_TREE_OBJECTID, ItemType: btrfsitem.CHUNK_ITEM_KEY, Offset: uint64(laddr), }, DataOffset: itemOff, DataSize: itemSize, }, Body: btrfsitem.Chunk{ Head: btrfsitem.ChunkHeader{ Size: stripeSize, Owner: btrfs.EXTENT_TREE_OBJECTID, StripeLen: 65536, // ??? Type: 0, // TODO IOOptimalAlign: superblock.Data.DevItem.IOOptimalAlign, IOOptimalWidth: superblock.Data.DevItem.IOOptimalWidth, IOMinSize: superblock.Data.DevItem.IOMinSize, NumStripes: uint16(len(stripes)), SubStripes: 1, }, Stripes: chunkStripes, }, }) } reconstructedNode.Data.Head.NumItems = uint32(len(reconstructedNode.Data.BodyLeaf)) reconstructedNode.Data.Head.Checksum, err = reconstructedNode.Data.CalculateChecksum() if err != nil { fmt.Printf("Pass 1: ... new node checksum: error: %v\n", err) } if err := reconstructedNode.Write(); err != nil { fmt.Printf("Pass 1: ... write new node: error:: %v\n", err) } fmt.Printf("\nPass 2: ?????????????????????????\n") //////////////////////////////////////// /* fmt.Printf("node@%d: physical_addr=0x%0X logical_addr=0x%0X generation=%d owner=%v level=%d\n", nodeRef.Addr, nodeRef.Addr, nodeRef.Data.Head.Addr, nodeRef.Data.Head.Generation, nodeRef.Data.Head.Owner, nodeRef.Data.Head.Level) srcPaddr := btrfs.QualifiedPhysicalAddr{ Dev: superblock.Data.DevItem.DevUUID, Addr: nodeRef.Addr, } resPaddrs, _ := fs.Resolve(nodeRef.Data.Head.Addr) if len(resPaddrs) == 0 { fmt.Printf("node@%d: logical_addr=0x%0X is not mapped\n", nodeRef.Addr, nodeRef.Data.Head.Addr) } else if _, ok := resPaddrs[srcPaddr]; !ok { fmt.Printf("node@%d: logical_addr=0x%0X maps to %v, not %v\n", nodeRef.Addr, nodeRef.Data.Head.Addr, resPaddrs, srcPaddr) } */ return nil }