lnd.xprv/tlv/truncated.go
Conner Fromknecht b3b51923dc
tlv/truncated: add non-generic encoders for truncated types
These encoders can be composed to create composite types without
incurring additional allocations that would be required to pass the
truncated types through the generic interface.
2019-11-04 14:10:43 -08:00

208 lines
5.7 KiB
Go

package tlv
import (
"encoding/binary"
"errors"
"io"
)
// ErrTUintNotMinimal signals that decoding a truncated uint failed because the
// value was not minimally encoded.
var ErrTUintNotMinimal = errors.New("truncated uint not minimally encoded")
// numLeadingZeroBytes16 computes the number of leading zeros for a uint16.
func numLeadingZeroBytes16(v uint16) uint64 {
switch {
case v == 0:
return 2
case v&0xff00 == 0:
return 1
default:
return 0
}
}
// SizeTUint16 returns the number of bytes remaining in a uint16 after
// truncating the leading zeros.
func SizeTUint16(v uint16) uint64 {
return 2 - numLeadingZeroBytes16(v)
}
// ETUint16 is an Encoder for truncated uint16 values, where leading zeros will
// be omitted. An error is returned if val is not a *uint16.
func ETUint16(w io.Writer, val interface{}, buf *[8]byte) error {
if t, ok := val.(*uint16); ok {
binary.BigEndian.PutUint16(buf[:2], *t)
numZeros := numLeadingZeroBytes16(*t)
_, err := w.Write(buf[numZeros:2])
return err
}
return NewTypeForEncodingErr(val, "uint16")
}
// ETUint16T is an Encoder for truncated uint16 values, where leading zeros will
// be omitted. An error is returned if val is not a *uint16.
func ETUint16T(w io.Writer, val uint16, buf *[8]byte) error {
binary.BigEndian.PutUint16(buf[:2], val)
numZeros := numLeadingZeroBytes16(val)
_, err := w.Write(buf[numZeros:2])
return err
}
// DTUint16 is an Decoder for truncated uint16 values, where leading zeros will
// be resurrected. An error is returned if val is not a *uint16.
func DTUint16(r io.Reader, val interface{}, buf *[8]byte, l uint64) error {
if t, ok := val.(*uint16); ok && l <= 2 {
_, err := io.ReadFull(r, buf[2-l:2])
if err != nil {
return err
}
zero(buf[:2-l])
*t = binary.BigEndian.Uint16(buf[:2])
if 2-numLeadingZeroBytes16(*t) != l {
return ErrTUintNotMinimal
}
return nil
}
return NewTypeForDecodingErr(val, "uint16", l, 2)
}
// numLeadingZeroBytes16 computes the number of leading zeros for a uint32.
func numLeadingZeroBytes32(v uint32) uint64 {
switch {
case v == 0:
return 4
case v&0xffffff00 == 0:
return 3
case v&0xffff0000 == 0:
return 2
case v&0xff000000 == 0:
return 1
default:
return 0
}
}
// SizeTUint32 returns the number of bytes remaining in a uint32 after
// truncating the leading zeros.
func SizeTUint32(v uint32) uint64 {
return 4 - numLeadingZeroBytes32(v)
}
// ETUint32 is an Encoder for truncated uint32 values, where leading zeros will
// be omitted. An error is returned if val is not a *uint32.
func ETUint32(w io.Writer, val interface{}, buf *[8]byte) error {
if t, ok := val.(*uint32); ok {
binary.BigEndian.PutUint32(buf[:4], *t)
numZeros := numLeadingZeroBytes32(*t)
_, err := w.Write(buf[numZeros:4])
return err
}
return NewTypeForEncodingErr(val, "uint32")
}
// ETUint32T is an Encoder for truncated uint32 values, where leading zeros will
// be omitted. An error is returned if val is not a *uint32.
func ETUint32T(w io.Writer, val uint32, buf *[8]byte) error {
binary.BigEndian.PutUint32(buf[:4], val)
numZeros := numLeadingZeroBytes32(val)
_, err := w.Write(buf[numZeros:4])
return err
}
// DTUint32 is an Decoder for truncated uint32 values, where leading zeros will
// be resurrected. An error is returned if val is not a *uint32.
func DTUint32(r io.Reader, val interface{}, buf *[8]byte, l uint64) error {
if t, ok := val.(*uint32); ok && l <= 4 {
_, err := io.ReadFull(r, buf[4-l:4])
if err != nil {
return err
}
zero(buf[:4-l])
*t = binary.BigEndian.Uint32(buf[:4])
if 4-numLeadingZeroBytes32(*t) != l {
return ErrTUintNotMinimal
}
return nil
}
return NewTypeForDecodingErr(val, "uint32", l, 4)
}
// numLeadingZeroBytes64 computes the number of leading zeros for a uint32.
//
// TODO(conner): optimize using unrolled binary search
func numLeadingZeroBytes64(v uint64) uint64 {
switch {
case v == 0:
return 8
case v&0xffffffffffffff00 == 0:
return 7
case v&0xffffffffffff0000 == 0:
return 6
case v&0xffffffffff000000 == 0:
return 5
case v&0xffffffff00000000 == 0:
return 4
case v&0xffffff0000000000 == 0:
return 3
case v&0xffff000000000000 == 0:
return 2
case v&0xff00000000000000 == 0:
return 1
default:
return 0
}
}
// SizeTUint64 returns the number of bytes remaining in a uint64 after
// truncating the leading zeros.
func SizeTUint64(v uint64) uint64 {
return 8 - numLeadingZeroBytes64(v)
}
// ETUint64 is an Encoder for truncated uint64 values, where leading zeros will
// be omitted. An error is returned if val is not a *uint64.
func ETUint64(w io.Writer, val interface{}, buf *[8]byte) error {
if t, ok := val.(*uint64); ok {
binary.BigEndian.PutUint64(buf[:], *t)
numZeros := numLeadingZeroBytes64(*t)
_, err := w.Write(buf[numZeros:])
return err
}
return NewTypeForEncodingErr(val, "uint64")
}
// ETUint64T is an Encoder for truncated uint64 values, where leading zeros will
// be omitted. An error is returned if val is not a *uint64.
func ETUint64T(w io.Writer, val uint64, buf *[8]byte) error {
binary.BigEndian.PutUint64(buf[:], val)
numZeros := numLeadingZeroBytes64(val)
_, err := w.Write(buf[numZeros:])
return err
}
// DTUint64 is an Decoder for truncated uint64 values, where leading zeros will
// be resurrected. An error is returned if val is not a *uint64.
func DTUint64(r io.Reader, val interface{}, buf *[8]byte, l uint64) error {
if t, ok := val.(*uint64); ok && l <= 8 {
_, err := io.ReadFull(r, buf[8-l:])
if err != nil {
return err
}
zero(buf[:8-l])
*t = binary.BigEndian.Uint64(buf[:])
if 8-numLeadingZeroBytes64(*t) != l {
return ErrTUintNotMinimal
}
return nil
}
return NewTypeForDecodingErr(val, "uint64", l, 8)
}
// zero clears the passed byte slice.
func zero(b []byte) {
for i := range b {
b[i] = 0x00
}
}