package packfile import ( "bufio" "bytes" "compress/zlib" "fmt" "hash" "hash/crc32" "io" "io/ioutil" "srcd.works/go-git.v4/plumbing" "srcd.works/go-git.v4/utils/binary" ) var ( // ErrEmptyPackfile is returned by ReadHeader when no data is found in the packfile ErrEmptyPackfile = NewError("empty packfile") // ErrBadSignature is returned by ReadHeader when the signature in the packfile is incorrect. ErrBadSignature = NewError("malformed pack file signature") // ErrUnsupportedVersion is returned by ReadHeader when the packfile version is // different than VersionSupported. ErrUnsupportedVersion = NewError("unsupported packfile version") // ErrSeekNotSupported returned if seek is not support ErrSeekNotSupported = NewError("not seek support") ) // ObjectHeader contains the information related to the object, this information // is collected from the previous bytes to the content of the object. type ObjectHeader struct { Type plumbing.ObjectType Offset int64 Length int64 Reference plumbing.Hash OffsetReference int64 } type Scanner struct { r reader zr readerResetter crc hash.Hash32 // pendingObject is used to detect if an object has been read, or still // is waiting to be read pendingObject *ObjectHeader version, objects uint32 // lsSeekable says if this scanner can do Seek or not, to have a Scanner // seekable a r implementing io.Seeker is required IsSeekable bool } // NewScanner returns a new Scanner based on a reader, if the given reader // implements io.ReadSeeker the Scanner will be also Seekable func NewScanner(r io.Reader) *Scanner { seeker, ok := r.(io.ReadSeeker) if !ok { seeker = &trackableReader{Reader: r} } crc := crc32.NewIEEE() return &Scanner{ r: &teeReader{ newByteReadSeeker(seeker), crc, }, crc: crc, IsSeekable: ok, } } // Header reads the whole packfile header (signature, version and object count). // It returns the version and the object count and performs checks on the // validity of the signature and the version fields. func (s *Scanner) Header() (version, objects uint32, err error) { if s.version != 0 { return s.version, s.objects, nil } sig, err := s.readSignature() if err != nil { if err == io.EOF { err = ErrEmptyPackfile } return } if !s.isValidSignature(sig) { err = ErrBadSignature return } version, err = s.readVersion() s.version = version if err != nil { return } if !s.isSupportedVersion(version) { err = ErrUnsupportedVersion.AddDetails("%d", version) return } objects, err = s.readCount() s.objects = objects return } // readSignature reads an returns the signature field in the packfile. func (s *Scanner) readSignature() ([]byte, error) { var sig = make([]byte, 4) if _, err := io.ReadFull(s.r, sig); err != nil { return []byte{}, err } return sig, nil } // isValidSignature returns if sig is a valid packfile signature. func (s *Scanner) isValidSignature(sig []byte) bool { return bytes.Equal(sig, signature) } // readVersion reads and returns the version field of a packfile. func (s *Scanner) readVersion() (uint32, error) { return binary.ReadUint32(s.r) } // isSupportedVersion returns whether version v is supported by the parser. // The current supported version is VersionSupported, defined above. func (s *Scanner) isSupportedVersion(v uint32) bool { return v == VersionSupported } // readCount reads and returns the count of objects field of a packfile. func (s *Scanner) readCount() (uint32, error) { return binary.ReadUint32(s.r) } // NextObjectHeader returns the ObjectHeader for the next object in the reader func (s *Scanner) NextObjectHeader() (*ObjectHeader, error) { if err := s.doPending(); err != nil { return nil, err } s.crc.Reset() h := &ObjectHeader{} s.pendingObject = h var err error h.Offset, err = s.r.Seek(0, io.SeekCurrent) if err != nil { return nil, err } h.Type, h.Length, err = s.readObjectTypeAndLength() if err != nil { return nil, err } switch h.Type { case plumbing.OFSDeltaObject: no, err := binary.ReadVariableWidthInt(s.r) if err != nil { return nil, err } h.OffsetReference = h.Offset - no case plumbing.REFDeltaObject: var err error h.Reference, err = binary.ReadHash(s.r) if err != nil { return nil, err } } return h, nil } func (s *Scanner) doPending() error { if s.version == 0 { var err error s.version, s.objects, err = s.Header() if err != nil { return err } } return s.discardObjectIfNeeded() } func (s *Scanner) discardObjectIfNeeded() error { if s.pendingObject == nil { return nil } h := s.pendingObject n, _, err := s.NextObject(ioutil.Discard) if err != nil { return err } if n != h.Length { return fmt.Errorf( "error discarding object, discarded %d, expected %d", n, h.Length, ) } return nil } // ReadObjectTypeAndLength reads and returns the object type and the // length field from an object entry in a packfile. func (s *Scanner) readObjectTypeAndLength() (plumbing.ObjectType, int64, error) { t, c, err := s.readType() if err != nil { return t, 0, err } l, err := s.readLength(c) return t, l, err } func (s *Scanner) readType() (plumbing.ObjectType, byte, error) { var c byte var err error if c, err = s.r.ReadByte(); err != nil { return plumbing.ObjectType(0), 0, err } typ := parseType(c) return typ, c, nil } func parseType(b byte) plumbing.ObjectType { return plumbing.ObjectType((b & maskType) >> firstLengthBits) } // the length is codified in the last 4 bits of the first byte and in // the last 7 bits of subsequent bytes. Last byte has a 0 MSB. func (s *Scanner) readLength(first byte) (int64, error) { length := int64(first & maskFirstLength) c := first shift := firstLengthBits var err error for c&maskContinue > 0 { if c, err = s.r.ReadByte(); err != nil { return 0, err } length += int64(c&maskLength) << shift shift += lengthBits } return length, nil } // NextObject writes the content of the next object into the reader, returns // the number of bytes written, the CRC32 of the content and an error, if any func (s *Scanner) NextObject(w io.Writer) (written int64, crc32 uint32, err error) { defer s.crc.Reset() s.pendingObject = nil written, err = s.copyObject(w) crc32 = s.crc.Sum32() return } // ReadRegularObject reads and write a non-deltified object // from it zlib stream in an object entry in the packfile. func (s *Scanner) copyObject(w io.Writer) (int64, error) { var err error if s.zr == nil { zr, err := zlib.NewReader(s.r) if err != nil { return 0, fmt.Errorf("zlib initialization error: %s", err) } s.zr = zr.(readerResetter) } else { if err := s.zr.Reset(s.r, nil); err != nil { return 0, fmt.Errorf("zlib reset error: %s", err) } } defer func() { closeErr := s.zr.Close() if err == nil { err = closeErr } }() return io.Copy(w, s.zr) } // Seek sets a new offset from start, returns the old position before the change func (s *Scanner) Seek(offset int64) (previous int64, err error) { // if seeking we assume that you are not interested on the header if s.version == 0 { s.version = VersionSupported } previous, err = s.r.Seek(0, io.SeekCurrent) if err != nil { return -1, err } _, err = s.r.Seek(offset, io.SeekStart) return previous, err } // Checksum returns the checksum of the packfile func (s *Scanner) Checksum() (plumbing.Hash, error) { err := s.discardObjectIfNeeded() if err != nil { return plumbing.ZeroHash, err } return binary.ReadHash(s.r) } // Close reads the reader until io.EOF func (s *Scanner) Close() error { _, err := io.Copy(ioutil.Discard, s.r) return err } type trackableReader struct { count int64 io.Reader } // Read reads up to len(p) bytes into p. func (r *trackableReader) Read(p []byte) (n int, err error) { n, err = r.Reader.Read(p) r.count += int64(n) return } // Seek only supports io.SeekCurrent, any other operation fails func (r *trackableReader) Seek(offset int64, whence int) (int64, error) { if whence != io.SeekCurrent { return -1, ErrSeekNotSupported } return r.count, nil } func newByteReadSeeker(r io.ReadSeeker) *bufferedSeeker { return &bufferedSeeker{ r: r, Reader: *bufio.NewReader(r), } } type bufferedSeeker struct { r io.ReadSeeker bufio.Reader } func (r *bufferedSeeker) Seek(offset int64, whence int) (int64, error) { if whence == io.SeekCurrent { current, err := r.r.Seek(offset, whence) if err != nil { return current, err } return current - int64(r.Buffered()), nil } defer r.Reader.Reset(r.r) return r.r.Seek(offset, whence) } type readerResetter interface { io.ReadCloser zlib.Resetter } type reader interface { io.Reader io.ByteReader io.Seeker } type teeReader struct { reader w hash.Hash32 } func (r *teeReader) Read(p []byte) (n int, err error) { n, err = r.reader.Read(p) if n > 0 { if n, err := r.w.Write(p[:n]); err != nil { return n, err } } return } func (r *teeReader) ReadByte() (b byte, err error) { b, err = r.reader.ReadByte() if err == nil { _, err := r.w.Write([]byte{b}) if err != nil { return 0, err } } return }