package snappy import ( "bytes" "encoding/binary" "errors" master "github.com/golang/snappy" ) const ( sizeOffset = 16 sizeBytes = 4 ) var ( xerialHeader = []byte{130, 83, 78, 65, 80, 80, 89, 0} // This is xerial version 1 and minimally compatible with version 1 xerialVersionInfo = []byte{0, 0, 0, 1, 0, 0, 0, 1} // ErrMalformed is returned by the decoder when the xerial framing // is malformed ErrMalformed = errors.New("malformed xerial framing") ) func min(x, y int) int { if x < y { return x } return y } // Encode encodes data as snappy with no framing header. func Encode(src []byte) []byte { return master.Encode(nil, src) } // EncodeStream *appends* to the specified 'dst' the compressed // 'src' in xerial framing format. If 'dst' does not have enough // capacity, then a new slice will be allocated. If 'dst' has // non-zero length, then if *must* have been built using this function. func EncodeStream(dst, src []byte) []byte { if len(dst) == 0 { dst = append(dst, xerialHeader...) dst = append(dst, xerialVersionInfo...) } // Snappy encode in blocks of maximum 32KB var ( max = len(src) blockSize = 32 * 1024 pos = 0 chunk []byte ) for pos < max { newPos := min(pos + blockSize, max) chunk = master.Encode(chunk[:cap(chunk)], src[pos:newPos]) // First encode the compressed size (big-endian) // Put* panics if the buffer is too small, so pad 4 bytes first origLen := len(dst) dst = append(dst, dst[0:4]...) binary.BigEndian.PutUint32(dst[origLen:], uint32(len(chunk))) // And now the compressed data dst = append(dst, chunk...) pos = newPos } return dst } // Decode decodes snappy data whether it is traditional unframed // or includes the xerial framing format. func Decode(src []byte) ([]byte, error) { return DecodeInto(nil, src) } // DecodeInto decodes snappy data whether it is traditional unframed // or includes the xerial framing format into the specified `dst`. // It is assumed that the entirety of `dst` including all capacity is available // for use by this function. If `dst` is nil *or* insufficiently large to hold // the decoded `src`, new space will be allocated. func DecodeInto(dst, src []byte) ([]byte, error) { var max = len(src) if max < len(xerialHeader) { return nil, ErrMalformed } if !bytes.Equal(src[:8], xerialHeader) { return master.Decode(dst[:cap(dst)], src) } if max < sizeOffset+sizeBytes { return nil, ErrMalformed } if dst == nil { dst = make([]byte, 0, len(src)) } dst = dst[:0] var ( pos = sizeOffset chunk []byte err error ) for pos+sizeBytes <= max { size := int(binary.BigEndian.Uint32(src[pos : pos+sizeBytes])) pos += sizeBytes nextPos := pos + size // On architectures where int is 32-bytes wide size + pos could // overflow so we need to check the low bound as well as the // high if nextPos < pos || nextPos > max { return nil, ErrMalformed } chunk, err = master.Decode(chunk[:cap(chunk)], src[pos:nextPos]) if err != nil { return nil, err } pos = nextPos dst = append(dst, chunk...) } return dst, nil }