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mirror of https://github.com/wader/fq.git synced 2024-12-26 15:02:28 +03:00
fq/pkg/decode/scalar.go
Mattias Wadman 2fc0a71a47 decode: Refactor scalar usage
Move scalar into own package.
Split scalar code into decode related scalar code (that reads etc) and
scalar code that just transform the scalar value.
Use a scalar.Mapper interface instead of just a function.
Make mappers, assert and validat impement the interface.
2021-12-02 17:39:26 +01:00

175 lines
3.6 KiB
Go

package decode
import (
"bytes"
"encoding/binary"
"errors"
"github.com/wader/fq/pkg/bitio"
"github.com/wader/fq/pkg/scalar"
)
func bitBufIsZero(s scalar.S, isValidate bool) (scalar.S, error) {
bb, ok := s.Actual.(*bitio.Buffer)
if !ok {
return s, nil
}
isZero := true
// TODO: shared
b := make([]byte, 32*1024)
bLen := len(b) * 8
bbLeft := int(bb.Len())
bbPos := int64(0)
for bbLeft > 0 {
rl := bbLeft
if bbLeft > bLen {
rl = bLen
}
// zero last byte if uneven read
if rl%8 != 0 {
b[rl/8] = 0
}
n, err := bitio.ReadAtFull(bb, b, rl, bbPos)
if err != nil {
return s, err
}
nb := int(bitio.BitsByteCount(int64(n)))
for i := 0; i < nb; i++ {
if b[i] != 0 {
isZero = false
break
}
}
bbLeft -= 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.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return bitBufIsZero(s, false)
})
}
func (d *D) BitBufValidateIsZero() scalar.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return bitBufIsZero(s, !d.Options.Force)
})
}
// TODO: generate?
func assertBitBuf(s scalar.S, isErr bool, bss ...[]byte) (scalar.S, error) {
ab, err := s.ActualBitBuf().Bytes()
if err != nil {
return s, err
}
for _, bs := range bss {
if bytes.Equal(ab, 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.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return assertBitBuf(s, !d.Options.Force, bss...)
})
}
func (d *D) ValidateBitBuf(bss ...[]byte) scalar.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return assertBitBuf(s, false, bss...)
})
}
func assertUBytes(s scalar.S, isErr bool, endian Endian, bss ...[]byte) (scalar.S, error) {
var bo binary.ByteOrder
switch endian {
case LittleEndian:
bo = binary.BigEndian
case BigEndian:
bo = binary.BigEndian
default:
panic("invalid endian")
}
au := s.ActualU()
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) AssertUBytes(bss ...[]byte) scalar.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return assertUBytes(s, true, d.Endian, bss...)
})
}
func (d *D) ValidateUBytes(bss ...[]byte) scalar.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return assertUBytes(s, false, d.Endian, bss...)
})
}
func (d *D) AssertULEBytes(bss ...[]byte) scalar.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return assertUBytes(s, true, LittleEndian, bss...)
})
}
func (d *D) ValidateULEBytes(bss ...[]byte) scalar.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return assertUBytes(s, false, LittleEndian, bss...)
})
}
func (d *D) AssertUBEBytes(bss ...[]byte) scalar.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return assertUBytes(s, true, BigEndian, bss...)
})
}
func (d *D) ValidateUBEBytes(bss ...[]byte) scalar.Mapper {
return scalar.Fn(func(s scalar.S) (scalar.S, error) {
return assertUBytes(s, false, BigEndian, bss...)
})
}