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package btrfsmisc
import (
"fmt"
"os"
"strings"
"lukeshu.com/btrfs-tools/pkg/btrfs"
"lukeshu.com/btrfs-tools/pkg/btrfs/btrfsitem"
"lukeshu.com/btrfs-tools/pkg/btrfs/btrfssum"
"lukeshu.com/btrfs-tools/pkg/btrfs/btrfsvol"
"lukeshu.com/btrfs-tools/pkg/util"
)
// PrintTree mimics btrfs-progs
// kernel-shared/print-tree.c:btrfs_print_tree() and
// kernel-shared/print-tree.c:btrfs_print_leaf()
func PrintTree(fs *btrfs.FS, root btrfsvol.LogicalAddr) error {
return fs.TreeWalk(root, btrfs.TreeWalkHandler{
Node: func(path btrfs.TreePath, nodeRef *util.Ref[btrfsvol.LogicalAddr, btrfs.Node], err error) error {
if err != nil {
fmt.Fprintf(os.Stderr, "error: %v: %v\n", path, err)
}
if nodeRef != nil {
printHeaderInfo(nodeRef.Data)
}
return nil
},
PreKeyPointer: func(_ btrfs.TreePath, item btrfs.KeyPointer) error {
fmt.Printf("\t%v block %v gen %v\n",
FmtKey(item.Key),
item.BlockPtr,
item.Generation)
return nil
},
Item: func(path btrfs.TreePath, item btrfs.Item) error {
i := path[len(path)-1].ItemIdx
fmt.Printf("\titem %v %v itemoff %v itemsize %v\n",
i,
FmtKey(item.Head.Key),
item.Head.DataOffset,
item.Head.DataSize)
switch body := item.Body.(type) {
case btrfsitem.FreeSpaceHeader:
fmt.Printf("\t\tlocation %v\n", FmtKey(body.Location))
fmt.Printf("\t\tcache generation %v entries %v bitmaps %v\n",
body.Generation, body.NumEntries, body.NumBitmaps)
case btrfsitem.Inode:
fmt.Printf(""+
"\t\tgeneration %v transid %v size %v nbytes %v\n"+
"\t\tblock group %v mode %o links %v uid %v gid %v rdev %v\n"+
"\t\tsequence %v flags %v\n",
body.Generation, body.TransID, body.Size, body.NumBytes,
body.BlockGroup, body.Mode, body.NLink, body.UID, body.GID, body.RDev,
body.Sequence, body.Flags)
fmt.Printf("\t\tatime %v\n", fmtTime(body.ATime))
fmt.Printf("\t\tctime %v\n", fmtTime(body.CTime))
fmt.Printf("\t\tmtime %v\n", fmtTime(body.MTime))
fmt.Printf("\t\totime %v\n", fmtTime(body.OTime))
case btrfsitem.InodeRefList:
for _, ref := range body {
fmt.Printf("\t\tindex %v namelen %v name: %s\n",
ref.Index, ref.NameLen, ref.Name)
}
//case btrfsitem.INODE_EXTREF_KEY:
// // TODO
case btrfsitem.DirEntries:
for _, dir := range body {
fmt.Printf("\t\tlocation %v type %v\n",
FmtKey(dir.Location), dir.Type)
fmt.Printf("\t\ttransid %v data_len %v name_len %v\n",
dir.TransID, dir.DataLen, dir.NameLen)
fmt.Printf("\t\tname: %s\n", dir.Name)
if len(dir.Data) > 0 {
fmt.Printf("\t\tdata %v\n", dir.Data)
}
}
//case btrfsitem.DIR_LOG_INDEX_KEY, btrfsitem.DIR_LOG_ITEM_KEY:
// // TODO
case btrfsitem.Root:
fmt.Printf("\t\tgeneration %v root_dirid %v bytenr %d byte_limit %v bytes_used %v\n",
body.Generation, body.RootDirID, body.ByteNr, body.ByteLimit, body.BytesUsed)
fmt.Printf("\t\tlast_snapshot %v flags %v refs %v\n",
body.LastSnapshot, body.Flags, body.Refs)
fmt.Printf("\t\tdrop_progress %v drop_level %v\n",
FmtKey(body.DropProgress), body.DropLevel)
fmt.Printf("\t\tlevel %v generation_v2 %v\n",
body.Level, body.GenerationV2)
if body.Generation == body.GenerationV2 {
fmt.Printf("\t\tuuid %v\n", body.UUID)
fmt.Printf("\t\tparent_uuid %v\n", body.ParentUUID)
fmt.Printf("\t\treceived_uuid %v\n", body.ReceivedUUID)
fmt.Printf("\t\tctransid %v otransid %v stransid %v rtransid %v\n",
body.CTransID, body.OTransID, body.STransID, body.RTransID)
fmt.Printf("\t\tctime %v\n", fmtTime(body.CTime))
fmt.Printf("\t\totime %v\n", fmtTime(body.OTime))
fmt.Printf("\t\tstime %v\n", fmtTime(body.STime))
fmt.Printf("\t\trtime %v\n", fmtTime(body.RTime))
}
//case btrfsitem.ROOT_REF_KEY:
// // TODO
//case btrfsitem.ROOT_BACKREF_KEY:
// // TODO
case btrfsitem.Extent:
fmt.Printf("\t\trefs %v gen %v flags %v\n",
body.Head.Refs, body.Head.Generation, body.Head.Flags)
if body.Head.Flags.Has(btrfsitem.EXTENT_FLAG_TREE_BLOCK) {
fmt.Printf("\t\ttree block %v level %v\n",
FmtKey(body.Info.Key), body.Info.Level)
}
printExtentInlineRefs(body.Refs)
case btrfsitem.Metadata:
fmt.Printf("\t\trefs %v gen %v flags %v\n",
body.Head.Refs, body.Head.Generation, body.Head.Flags)
fmt.Printf("\t\ttree block skinny level %v\n", item.Head.Key.Offset)
printExtentInlineRefs(body.Refs)
//case btrfsitem.EXTENT_DATA_REF_KEY:
// // TODO
//case btrfsitem.SHARED_DATA_REF_KEY:
// // TODO
case btrfsitem.ExtentCSum:
sb, _ := fs.Superblock()
sectorSize := btrfsvol.AddrDelta(sb.Data.SectorSize)
start := btrfsvol.LogicalAddr(item.Head.Key.Offset)
itemSize := btrfsvol.AddrDelta(len(body.Sums)) * sectorSize
fmt.Printf("\t\trange start %d end %d length %d",
start, start.Add(itemSize), itemSize)
sumsPerLine := util.Max(1, len(btrfssum.CSum{})/body.ChecksumSize/2)
pos := start
for i, sum := range body.Sums {
if i%sumsPerLine == 0 {
fmt.Printf("\n\t\t")
} else {
fmt.Printf(" ")
}
fmt.Printf("[%d] 0x%s", pos, sum.Fmt(sb.Data.ChecksumType))
pos = pos.Add(sectorSize)
}
fmt.Printf("\n")
case btrfsitem.FileExtent:
fmt.Printf("\t\tgeneration %v type %v\n",
body.Generation, body.Type)
switch body.Type {
case btrfsitem.FILE_EXTENT_INLINE:
fmt.Printf("\t\tinline extent data size %v ram_bytes %v compression %v\n",
len(body.BodyInline), body.RAMBytes, body.Compression)
case btrfsitem.FILE_EXTENT_PREALLOC:
fmt.Printf("\t\tprealloc data disk byte %v nr %v\n",
body.BodyPrealloc.DiskByteNr,
body.BodyPrealloc.DiskNumBytes)
fmt.Printf("\t\tprealloc data offset %v nr %v\n",
body.BodyPrealloc.Offset,
body.BodyPrealloc.NumBytes)
case btrfsitem.FILE_EXTENT_REG:
fmt.Printf("\t\textent data disk byte %v nr %v\n",
body.BodyReg.DiskByteNr,
body.BodyReg.DiskNumBytes)
fmt.Printf("\t\textent data offset %v nr %v ram %v\n",
body.BodyReg.Offset,
body.BodyReg.NumBytes,
body.RAMBytes)
fmt.Printf("\t\textent compression %v\n",
body.Compression)
default:
fmt.Printf("\t\t(error) unknown file extent type %v", body.Type)
}
case btrfsitem.BlockGroup:
fmt.Printf("\t\tblock group used %v chunk_objectid %v flags %v\n",
body.Used, body.ChunkObjectID, body.Flags)
case btrfsitem.FreeSpaceInfo:
fmt.Printf("\t\tfree space info extent count %v flags %v\n",
body.ExtentCount, body.Flags)
case btrfsitem.FreeSpaceBitmap:
fmt.Printf("\t\tfree space bitmap\n")
case btrfsitem.Chunk:
fmt.Printf("\t\tlength %d owner %d stripe_len %v type %v\n",
body.Head.Size, body.Head.Owner, body.Head.StripeLen, body.Head.Type)
fmt.Printf("\t\tio_align %v io_width %v sector_size %v\n",
body.Head.IOOptimalAlign, body.Head.IOOptimalWidth, body.Head.IOMinSize)
fmt.Printf("\t\tnum_stripes %v sub_stripes %v\n",
body.Head.NumStripes, body.Head.SubStripes)
for i, stripe := range body.Stripes {
fmt.Printf("\t\t\tstripe %v devid %d offset %d\n",
i, stripe.DeviceID, stripe.Offset)
fmt.Printf("\t\t\tdev_uuid %v\n",
stripe.DeviceUUID)
}
case btrfsitem.Dev:
fmt.Printf(""+
"\t\tdevid %d total_bytes %v bytes_used %v\n"+
"\t\tio_align %v io_width %v sector_size %v type %v\n"+
"\t\tgeneration %v start_offset %v dev_group %v\n"+
"\t\tseek_speed %v bandwidth %v\n"+
"\t\tuuid %v\n"+
"\t\tfsid %v\n",
body.DevID, body.NumBytes, body.NumBytesUsed,
body.IOOptimalAlign, body.IOOptimalWidth, body.IOMinSize, body.Type,
body.Generation, body.StartOffset, body.DevGroup,
body.SeekSpeed, body.Bandwidth,
body.DevUUID,
body.FSUUID)
case btrfsitem.DevExtent:
fmt.Printf(""+
"\t\tdev extent chunk_tree %v\n"+
"\t\tchunk_objectid %v chunk_offset %d length %d\n"+
"\t\tchunk_tree_uuid %v\n",
body.ChunkTree, body.ChunkObjectID, body.ChunkOffset, body.Length,
body.ChunkTreeUUID)
//case btrfsitem.QGROUP_STATUS_KEY:
// // TODO
//case btrfsitem.QGROUP_INFO_KEY:
// // TODO
//case btrfsitem.QGROUP_LIMIT_KEY:
// // TODO
case btrfsitem.UUIDMap:
for _, subvolID := range body {
fmt.Printf("\t\tsubvol_id %d\n",
subvolID)
}
//case btrfsitem.STRING_ITEM_KEY:
// // TODO
case btrfsitem.DevStats:
fmt.Printf("\t\tpersistent item objectid %v offset %v\n",
item.Head.Key.ObjectID.Format(item.Head.Key.ItemType), item.Head.Key.Offset)
switch item.Head.Key.ObjectID {
case btrfs.DEV_STATS_OBJECTID:
fmt.Printf("\t\tdevice stats\n")
fmt.Printf("\t\twrite_errs %v read_errs %v flush_errs %v corruption_errs %v generation %v\n",
body.Values[btrfsitem.DEV_STAT_WRITE_ERRS],
body.Values[btrfsitem.DEV_STAT_READ_ERRS],
body.Values[btrfsitem.DEV_STAT_FLUSH_ERRS],
body.Values[btrfsitem.DEV_STAT_CORRUPTION_ERRS],
body.Values[btrfsitem.DEV_STAT_GENERATION_ERRS])
default:
fmt.Printf("\t\tunknown persistent item objectid %v\n", item.Head.Key.ObjectID)
}
//case btrfsitem.TEMPORARY_ITEM_KEY:
// // TODO
case btrfsitem.Empty:
switch item.Head.Key.ItemType {
case btrfsitem.ORPHAN_ITEM_KEY: // 48
fmt.Printf("\t\torphan item\n")
case btrfsitem.TREE_BLOCK_REF_KEY: // 176
fmt.Printf("\t\ttree block backref\n")
case btrfsitem.SHARED_BLOCK_REF_KEY: // 182
fmt.Printf("\t\tshared block backref\n")
case btrfsitem.FREE_SPACE_EXTENT_KEY: // 199
fmt.Printf("\t\tfree space extent\n")
case btrfsitem.QGROUP_RELATION_KEY: // 246
// do nothing
//case btrfsitem.EXTENT_REF_V0_KEY:
// fmt.Printf("\t\textent ref v0 (deprecated)\n")
//case btrfsitem.CSUM_ITEM_KEY:
// fmt.Printf("\t\tcsum item\n")
default:
fmt.Printf("\t\t(error) unhandled empty item type: %v\n", item.Head.Key.ItemType)
}
case btrfsitem.Error:
fmt.Printf("\t\t(error) error item: %v\n", body.Err)
default:
fmt.Printf("\t\t(error) unhandled item type: %T\n", body)
}
return nil
},
})
}
// printHeaderInfo mimics btrfs-progs kernel-shared/print-tree.c:print_header_info()
func printHeaderInfo(node btrfs.Node) {
var typename string
if node.Head.Level > 0 { // internal node
typename = "node"
fmt.Printf("node %v level %v items %v free space %v",
node.Head.Addr,
node.Head.Level,
node.Head.NumItems,
node.MaxItems()-node.Head.NumItems)
} else { // leaf node
typename = "leaf"
fmt.Printf("leaf %d items %v free space %v",
node.Head.Addr,
node.Head.NumItems,
node.LeafFreeSpace())
}
fmt.Printf(" generation %v owner %v\n",
node.Head.Generation,
node.Head.Owner)
fmt.Printf("%v %d flags %v backref revision %v\n",
typename,
node.Head.Addr,
node.Head.Flags,
node.Head.BackrefRev)
fmt.Printf("checksum stored %v\n", node.Head.Checksum.Fmt(node.ChecksumType))
if calcSum, err := node.CalculateChecksum(); err != nil {
fmt.Printf("checksum calced %v\n", err)
} else {
fmt.Printf("checksum calced %v\n", calcSum.Fmt(node.ChecksumType))
}
fmt.Printf("fs uuid %v\n", node.Head.MetadataUUID)
fmt.Printf("chunk uuid %v\n", node.Head.ChunkTreeUUID)
}
// printExtentInlineRefs mimics part of btrfs-progs kernel-shared/print-tree.c:print_extent_item()
func printExtentInlineRefs(refs []btrfsitem.ExtentInlineRef) {
for _, ref := range refs {
switch subitem := ref.Body.(type) {
case nil:
switch ref.Type {
case btrfsitem.TREE_BLOCK_REF_KEY:
fmt.Printf("\t\ttree block backref root %v\n",
btrfs.ObjID(ref.Offset))
case btrfsitem.SHARED_BLOCK_REF_KEY:
fmt.Printf("\t\tshared block backref parent %v\n",
ref.Offset)
default:
fmt.Printf("\t\t(error) unexpected empty sub-item type: %v\n", ref.Type)
}
case btrfsitem.ExtentDataRef:
fmt.Printf("\t\textent data backref root %v objectid %v offset %v count %v\n",
subitem.Root, subitem.ObjectID, subitem.Offset, subitem.Count)
case btrfsitem.SharedDataRef:
fmt.Printf("\t\tshared data backref parent %v count %v\n",
ref.Offset, subitem.Count)
default:
fmt.Printf("\t\t(error) unexpected sub-item type: %T\n", subitem)
}
}
}
// mimics print-tree.c:btrfs_print_key()
func FmtKey(key btrfs.Key) string {
var out strings.Builder
fmt.Fprintf(&out, "key (%v %v", key.ObjectID.Format(key.ItemType), key.ItemType)
switch key.ItemType {
case btrfsitem.QGROUP_RELATION_KEY: //TODO, btrfsitem.QGROUP_INFO_KEY, btrfsitem.QGROUP_LIMIT_KEY:
panic("not implemented")
case btrfsitem.UUID_SUBVOL_KEY, btrfsitem.UUID_RECEIVED_SUBVOL_KEY:
fmt.Fprintf(&out, " %v)", btrfsvol.PhysicalAddr(key.Offset))
case btrfsitem.ROOT_ITEM_KEY:
fmt.Fprintf(&out, " %v)", btrfs.ObjID(key.Offset))
default:
if key.Offset == util.MaxUint64pp-1 {
fmt.Fprintf(&out, " -1)")
} else {
fmt.Fprintf(&out, " %v)", key.Offset)
}
}
return out.String()
}
func fmtTime(t btrfs.Time) string {
return fmt.Sprintf("%v.%v (%v)",
t.Sec, t.NSec, t.ToStd().Format("2006-01-02 15:04:05"))
}
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