package decode import ( "bytes" "fmt" "math" "math/big" "github.com/wader/fq/internal/mathex" "github.com/wader/fq/pkg/bitio" "golang.org/x/text/encoding" "golang.org/x/text/encoding/unicode" ) func (d *D) tryBitBuf(nBits int64) (bitio.ReaderAtSeeker, error) { return d.TryBitBufLen(nBits) } func (d *D) tryUEndian(nBits int, endian Endian) (uint64, error) { if nBits < 0 { return 0, fmt.Errorf("tryUEndian nBits must be >= 0 (%d)", nBits) } n, err := d.TryBits(nBits) if err != nil { return 0, err } if endian == LittleEndian { n = bitio.ReverseBytes64(nBits, n) } return n, nil } func (d *D) trySEndian(nBits int, endian Endian) (int64, error) { if nBits < 1 { return 0, fmt.Errorf("trySEndian nBits must be >= 1 (%d)", nBits) } n, err := d.tryUEndian(nBits, endian) if err != nil { return 0, err } var s int64 if n&(1<<(nBits-1)) > 0 { // two's complement s = -int64((^n & ((1 << nBits) - 1)) + 1) } else { s = int64(n) } return s, nil } // from https://github.com/golang/go/wiki/SliceTricks#reversing func ReverseBytes(a []byte) { for i := len(a)/2 - 1; i >= 0; i-- { opp := len(a) - 1 - i a[i], a[opp] = a[opp], a[i] } } func (d *D) tryBigIntEndianSign(nBits int, endian Endian, sign bool) (*big.Int, error) { if nBits < 0 { return nil, fmt.Errorf("tryBigIntEndianSign nBits must be >= 0 (%d)", nBits) } b := int(bitio.BitsByteCount(int64(nBits))) buf := d.SharedReadBuf(b)[0:b] _, err := bitio.ReadFull(d.bitBuf, buf, int64(nBits)) if err != nil { return nil, err } if endian == LittleEndian { ReverseBytes(buf) } n := new(big.Int) if sign { mathex.BigIntSetBytesSigned(n, buf) } else { n.SetBytes(buf) } n.Rsh(n, uint((8-nBits%8)%8)) return n, nil } func (d *D) tryFEndian(nBits int, endian Endian) (float64, error) { if nBits < 0 { return 0, fmt.Errorf("tryFEndian nBits must be >= 0 (%d)", nBits) } n, err := d.TryBits(nBits) if err != nil { return 0, err } if endian == LittleEndian { n = bitio.ReverseBytes64(nBits, n) } switch nBits { case 16: return float64(mathex.Float16(uint16(n)).Float32()), nil case 32: return float64(math.Float32frombits(uint32(n))), nil case 64: return math.Float64frombits(n), nil default: return 0, fmt.Errorf("unsupported float size %d", nBits) } } func (d *D) tryFPEndian(nBits int, fBits int, endian Endian) (float64, error) { if nBits < 0 { return 0, fmt.Errorf("tryFPEndian nBits must be >= 0 (%d)", nBits) } n, err := d.TryBits(nBits) if err != nil { return 0, err } if endian == LittleEndian { n = bitio.ReverseBytes64(nBits, n) } return float64(n) / float64(uint64(1<= 0 (%d)", nBytes) } bytesLeft := d.BitsLeft() / 8 if int64(nBytes) > bytesLeft { return "", fmt.Errorf("tryText nBytes %d outside buffer, %d bytes left", nBytes, bytesLeft) } bs, err := d.TryBytesLen(nBytes) if err != nil { return "", err } return e.NewDecoder().String(string(bs)) } // read length prefixed text (ex pascal short string) // lBits length prefix // fixedBytes if != -1 read nBytes but trim to length // //nolint:unparam func (d *D) tryTextLenPrefixed(lenBits int, fixedBytes int, e encoding.Encoding) (string, error) { if lenBits < 0 { return "", fmt.Errorf("tryTextLenPrefixed lenBits must be >= 0 (%d)", lenBits) } if fixedBytes < 0 { return "", fmt.Errorf("tryTextLenPrefixed fixedBytes must be >= 0 (%d)", fixedBytes) } bytesLeft := d.BitsLeft() / 8 if int64(fixedBytes) > bytesLeft { return "", fmt.Errorf("tryTextLenPrefixed fixedBytes %d outside, %d bytes left", fixedBytes, bytesLeft) } p := d.Pos() l, err := d.TryBits(lenBits) if err != nil { return "", err } n := int(l) if fixedBytes != -1 { n = fixedBytes - 1 // TODO: error? if l > uint64(n) { l = uint64(n) } } bs, err := d.TryBytesLen(n) if err != nil { d.SeekAbs(p) return "", err } return e.NewDecoder().String(string(bs[0:l])) } func (d *D) tryTextNull(charBytes int, e encoding.Encoding) (string, error) { if charBytes < 1 { return "", fmt.Errorf("tryTextNull charBytes must be >= 1 (%d)", charBytes) } p := d.Pos() peekBits, _, err := d.TryPeekFind(charBytes*8, int64(charBytes)*8, -1, func(v uint64) bool { return v == 0 }) if err != nil { return "", err } n := (int(peekBits) / 8) + charBytes bs, err := d.TryBytesLen(n) if err != nil { d.SeekAbs(p) return "", err } return e.NewDecoder().String(string(bs[0 : n-charBytes])) } func (d *D) tryTextNullLen(fixedBytes int, e encoding.Encoding) (string, error) { if fixedBytes < 0 { return "", fmt.Errorf("tryTextNullLen fixedBytes must be >= 0 (%d)", fixedBytes) } bytesLeft := d.BitsLeft() / 8 if int64(fixedBytes) > bytesLeft { return "", fmt.Errorf("tryTextNullLen fixedBytes %d outside, %d bytes left", fixedBytes, bytesLeft) } bs, err := d.TryBytesLen(fixedBytes) if err != nil { return "", err } nullIndex := bytes.IndexByte(bs, 0) if nullIndex != -1 { bs = bs[:nullIndex] } return e.NewDecoder().String(string(bs)) } // ov is what to treat as 1 func (d *D) tryUnary(ov uint64) (uint64, error) { p := d.Pos() var n uint64 for { b, err := d.TryBits(1) if err != nil { d.SeekAbs(p) return 0, err } if b != ov { break } n++ } return n, nil } func (d *D) tryBool() (bool, error) { n, err := d.TryBits(1) if err != nil { return false, err } return n == 1, nil } // Unsigned LEB128, description from wasm spec // // uN ::= n:byte => n (if n < 2^7 && n < 2^N) // n:byte m:u(N-7) => 2^7 * m + (n - 2^7) (if n >= 2^7 && N > 7) func (d *D) tryULEB128() (uint64, error) { var result uint64 var shift uint for { b := d.U8() if shift >= 63 && b != 0 { return 0, fmt.Errorf("overflow when reading unsigned leb128, shift %d >= 63", shift) } result |= (b & 0x7f) << shift if b&0x80 == 0 { break } shift += 7 } return result, nil } // Signed LEB128, description from wasm spec // // sN ::= n:byte => n (if n < 2^6 && n < 2^(N-1)) // n:byte => n - 2^7 (if 2^6 <= n < 2^7 && n >= 2^7 - 2^(N-1)) // n:byte m:s(N-7) => 2^7 * m + (n - 2^7) (if n >= 2^7 && N > 7) func (d *D) trySLEB128() (int64, error) { const n = 64 var result int64 var shift uint var b byte for { b = byte(d.U8()) if shift == 63 && b != 0 && b != 0x7f { return 0, fmt.Errorf("overflow when reading signed leb128, shift %d >= 63", shift) } result |= int64(b&0x7f) << shift shift += 7 if b&0x80 == 0 { break } } if shift < n && (b&0x40) == 0x40 { result |= -1 << shift } return result, nil }