package gitdiff import ( "bytes" "compress/zlib" "fmt" "io" "io/ioutil" "strconv" "strings" ) func (p *parser) ParseBinaryFragments(f *File) (n int, err error) { isBinary, hasData, err := p.ParseBinaryMarker() if err != nil || !isBinary { return 0, err } f.IsBinary = true if !hasData { return 0, nil } forward, err := p.ParseBinaryFragmentHeader() if err != nil { return 0, err } if forward == nil { return 0, p.Errorf(0, "missing data for binary patch") } if err := p.ParseBinaryChunk(forward); err != nil { return 0, err } f.BinaryFragment = forward // valid for reverse to not exist, but it must be valid if present reverse, err := p.ParseBinaryFragmentHeader() if err != nil { return 1, err } if reverse == nil { return 1, nil } if err := p.ParseBinaryChunk(reverse); err != nil { return 1, err } f.ReverseBinaryFragment = reverse return 1, nil } func (p *parser) ParseBinaryMarker() (isBinary bool, hasData bool, err error) { switch p.Line(0) { case "GIT binary patch\n": hasData = true case "Binary files differ\n": case "Files differ\n": default: return false, false, nil } if err = p.Next(); err != nil && err != io.EOF { return false, false, err } return true, hasData, nil } func (p *parser) ParseBinaryFragmentHeader() (*BinaryFragment, error) { parts := strings.SplitN(strings.TrimSuffix(p.Line(0), "\n"), " ", 2) if len(parts) < 2 { return nil, nil } frag := &BinaryFragment{} switch parts[0] { case "delta": frag.Method = BinaryPatchDelta case "literal": frag.Method = BinaryPatchLiteral default: return nil, nil } var err error if frag.Size, err = strconv.ParseInt(parts[1], 10, 64); err != nil { nerr := err.(*strconv.NumError) return nil, p.Errorf(0, "binary patch: invalid size: %v", nerr.Err) } if err := p.Next(); err != nil && err != io.EOF { return nil, err } return frag, nil } func (p *parser) ParseBinaryChunk(frag *BinaryFragment) error { // Binary fragments are encoded as a series of base85 encoded lines. Each // line starts with a character in [A-Za-z] giving the number of bytes on // the line, where A = 1 and z = 52, and ends with a newline character. // // The base85 encoding means each line is a multiple of 5 characters + 2 // additional characters for the length byte and the newline. The fragment // ends with a blank line. const ( shortestValidLine = "A00000\n" maxBytesPerLine = 52 ) var data bytes.Buffer buf := make([]byte, maxBytesPerLine) for { line := p.Line(0) if line == "\n" { break } if len(line) < len(shortestValidLine) || (len(line)-2)%5 != 0 { return p.Errorf(0, "binary patch: corrupt data line") } byteCount, seq := int(line[0]), line[1:len(line)-1] switch { case 'A' <= byteCount && byteCount <= 'Z': byteCount = byteCount - 'A' + 1 case 'a' <= byteCount && byteCount <= 'z': byteCount = byteCount - 'a' + 27 default: return p.Errorf(0, "binary patch: invalid length byte") } // base85 encodes every 4 bytes into 5 characters, with up to 3 bytes of end padding maxByteCount := len(seq) / 5 * 4 if byteCount > maxByteCount || byteCount < maxByteCount-3 { return p.Errorf(0, "binary patch: incorrect byte count") } if err := base85Decode(buf[:byteCount], []byte(seq)); err != nil { return p.Errorf(0, "binary patch: %v", err) } data.Write(buf[:byteCount]) if err := p.Next(); err != nil { if err == io.EOF { return p.Errorf(0, "binary patch: unexpected EOF") } return err } } if err := inflateBinaryChunk(frag, &data); err != nil { return p.Errorf(0, "binary patch: %v", err) } // consume the empty line that ended the fragment if err := p.Next(); err != nil && err != io.EOF { return err } return nil } func inflateBinaryChunk(frag *BinaryFragment, r io.Reader) error { zr, err := zlib.NewReader(r) if err != nil { return err } data, err := ioutil.ReadAll(zr) if err != nil { return err } if err := zr.Close(); err != nil { return err } if int64(len(data)) != frag.Size { return fmt.Errorf("%d byte fragment inflated to %d", frag.Size, len(data)) } frag.Data = data return nil }