package btrfsitem import ( "fmt" "lukeshu.com/btrfs-tools/pkg/binstruct" "lukeshu.com/btrfs-tools/pkg/btrfs/internal" ) type Chunk struct { // CHUNK_ITEM=228 // Maps logical address to physical. Size uint64 `bin:"off=0x0, siz=0x8"` // size of chunk (bytes) Owner internal.ObjID `bin:"off=0x8, siz=0x8"` // root referencing this chunk (2) StripeLen uint64 `bin:"off=0x10, siz=0x8"` // stripe length Type BlockGroupFlags `bin:"off=0x18, siz=0x8"` // type (same as flags for block group?) IOOptimalAlign uint32 `bin:"off=0x20, siz=0x4"` // optimal io alignment IOOptimalWidth uint32 `bin:"off=0x24, siz=0x4"` // optimal io width IOMinSize uint32 `bin:"off=0x28, siz=0x4"` // minimal io size (sector size) NumStripes uint16 `bin:"off=0x2c, siz=0x2"` // number of stripes SubStripes uint16 `bin:"off=0x2e, siz=0x2"` // sub stripes binstruct.End `bin:"off=0x30"` Stripes []ChunkStripe `bin:"-"` } type ChunkStripe struct { DeviceID internal.ObjID `bin:"off=0x0, siz=0x8"` Offset uint64 `bin:"off=0x8, siz=0x8"` DeviceUUID internal.UUID `bin:"off=0x10, siz=0x10"` binstruct.End `bin:"off=0x20"` } func (chunk *Chunk) UnmarshalBinary(dat []byte) (int, error) { n, err := binstruct.UnmarshalWithoutInterface(dat, chunk) if err != nil { return n, err } for i := 0; i < int(chunk.NumStripes); i++ { var stripe ChunkStripe _n, err := binstruct.Unmarshal(dat[n:], &stripe) n += _n if err != nil { return n, fmt.Errorf("%T.UnmarshalBinary: %w", *chunk, err) } chunk.Stripes = append(chunk.Stripes, stripe) } return n, nil } func (chunk Chunk) MarshalBinary() ([]byte, error) { chunk.NumStripes = uint16(len(chunk.Stripes)) ret, err := binstruct.MarshalWithoutInterface(chunk) if err != nil { return ret, err } for _, stripe := range chunk.Stripes { _ret, err := binstruct.Marshal(stripe) ret = append(ret, _ret...) if err != nil { return ret, fmt.Errorf("%T.MarshalBinary: %w", chunk, err) } } return ret, nil }