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mirror of https://github.com/wader/fq.git synced 2024-11-29 23:27:12 +03:00
fq/pkg/decode/scalar.go
Mattias Wadman 9b81d4d3ab decode: More type safe API and split scalar into multiple types
Preparation to make decoder use less memory and API more type safe.
Now each scalar type has it's own struct type so it can store different
things and enables to have a scalar interface.
Also own types will enable experimenting with decode DLS designs like
using chained methods that are type aware.
2022-12-14 16:23:58 +01:00

177 lines
3.9 KiB
Go

package decode
import (
"bytes"
"encoding/binary"
"errors"
"github.com/wader/fq/internal/bitioex"
"github.com/wader/fq/pkg/bitio"
"github.com/wader/fq/pkg/scalar"
)
func bitBufIsZero(s scalar.BitBuf, isValidate bool) (scalar.BitBuf, error) {
br := s.Actual
isZero := true
// TODO: shared
b := make([]byte, 32*1024)
bLen := int64(len(b)) * 8
brLen, err := bitioex.Len(br)
if err != nil {
return scalar.BitBuf{}, err
}
brLeft := brLen
brPos := int64(0)
for brLeft > 0 {
rl := brLeft
if brLeft > bLen {
rl = bLen
}
// zero last byte if uneven read
if rl%8 != 0 {
b[rl/8] = 0
}
n, err := bitio.ReadAtFull(br, b, rl, brPos)
if err != nil {
return s, err
}
nb := int(bitio.BitsByteCount(n))
for i := 0; i < nb; i++ {
if b[i] != 0 {
isZero = false
break
}
}
brLeft -= n
}
if isZero {
s.Description = "all zero"
} else {
s.Description = "all not zero"
if isValidate {
return s, errors.New("validate is zero failed")
}
}
return s, nil
}
func (d *D) BitBufIsZero() scalar.BitBufMapper {
return scalar.BitBufFn(func(s scalar.BitBuf) (scalar.BitBuf, error) {
return bitBufIsZero(s, false)
})
}
func (d *D) BitBufValidateIsZero() scalar.BitBufMapper {
return scalar.BitBufFn(func(s scalar.BitBuf) (scalar.BitBuf, error) {
return bitBufIsZero(s, !d.Options.Force)
})
}
// TODO: generate?
func assertBitBuf(s scalar.BitBuf, isErr bool, bss ...[]byte) (scalar.BitBuf, error) {
bb := &bytes.Buffer{}
if _, err := bitioex.CopyBits(bb, s.Actual); err != nil {
return s, err
}
for _, bs := range bss {
if bytes.Equal(bb.Bytes(), bs) {
s.Description = "valid"
return s, nil
}
}
s.Description = "invalid"
if isErr {
return s, errors.New("failed to validate raw")
}
return s, nil
}
func (d *D) AssertBitBuf(bss ...[]byte) scalar.BitBufMapper {
return scalar.BitBufFn(func(s scalar.BitBuf) (scalar.BitBuf, error) {
return assertBitBuf(s, !d.Options.Force, bss...)
})
}
func (d *D) ValidateBitBuf(bss ...[]byte) scalar.BitBufMapper {
return scalar.BitBufFn(func(s scalar.BitBuf) (scalar.BitBuf, error) {
return assertBitBuf(s, false, bss...)
})
}
func UintAssertBytes(s scalar.Uint, isErr bool, endian Endian, bss ...[]byte) (scalar.Uint, error) {
var bo binary.ByteOrder
switch endian {
case LittleEndian:
bo = binary.BigEndian
case BigEndian:
bo = binary.BigEndian
default:
panic("invalid endian")
}
au := s.Actual
for _, bs := range bss {
var bu uint64
switch len(bs) {
case 1:
bu = uint64(bs[0])
case 2:
bu = uint64(bo.Uint16(bs))
case 4:
bu = uint64(bo.Uint32(bs))
case 8:
bu = bo.Uint64(bs)
default:
panic("invalid bs length")
}
if au == bu {
s.Description = "valid"
return s, nil
}
}
s.Description = "invalid"
if isErr {
return s, errors.New("failed to validate raw")
}
return s, nil
}
func (d *D) UintAssertBytes(bss ...[]byte) scalar.UintMapper {
return scalar.UintFn(func(s scalar.Uint) (scalar.Uint, error) {
return UintAssertBytes(s, true, d.Endian, bss...)
})
}
func (d *D) UintValidateBytes(bss ...[]byte) scalar.UintMapper {
return scalar.UintFn(func(s scalar.Uint) (scalar.Uint, error) {
return UintAssertBytes(s, false, d.Endian, bss...)
})
}
func (d *D) AssertULEBytes(bss ...[]byte) scalar.UintMapper {
return scalar.UintFn(func(s scalar.Uint) (scalar.Uint, error) {
return UintAssertBytes(s, true, LittleEndian, bss...)
})
}
func (d *D) UintValidateLEBytes(bss ...[]byte) scalar.UintMapper {
return scalar.UintFn(func(s scalar.Uint) (scalar.Uint, error) {
return UintAssertBytes(s, false, LittleEndian, bss...)
})
}
func (d *D) AssertUBEBytes(bss ...[]byte) scalar.UintMapper {
return scalar.UintFn(func(s scalar.Uint) (scalar.Uint, error) {
return UintAssertBytes(s, true, BigEndian, bss...)
})
}
func (d *D) UintValidateBEBytes(bss ...[]byte) scalar.UintMapper {
return scalar.UintFn(func(s scalar.Uint) (scalar.Uint, error) {
return UintAssertBytes(s, false, BigEndian, bss...)
})
}