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fq/format/cbor/cbor.go
Mattias Wadman 7c5215347d bitio,decode: Refactor bitio usage and make buffer slicing more correct 
Remove bitio.Buffer layer. bitio.Buffer was a kitchen sink layer with helpers
now it's just a buffer and most functions have been moved to decode instead.

bitio package now only have primitive types and functions simialar to standard
library io and bytes packages.

Make nearly eveything internally use bitio.Bit* interfaces so that slicing work
correctly this will also make it possible to start experimenting with more
complicated silcing helpers, ex things like:
breplace(.header.bitrate; 123) to get a new buffer with bitrate changed.
2022-02-04 21:41:53 +01:00

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package cbor
// https://en.wikipedia.org/wiki/CBOR
// https://www.rfc-editor.org/rfc/rfc8949.html
// TODO: streaming bytes test?
// TODO: decode some sematic tags
import (
"bytes"
"embed"
"math/big"
"strings"
"github.com/wader/fq/format"
"github.com/wader/fq/format/registry"
"github.com/wader/fq/internal/mathextra"
"github.com/wader/fq/pkg/bitio"
"github.com/wader/fq/pkg/decode"
"github.com/wader/fq/pkg/scalar"
)
//go:embed *.jq
var cborFS embed.FS
func init() {
registry.MustRegister(decode.Format{
Name: format.CBOR,
Description: "Concise Binary Object Representation",
DecodeFn: decodeCBOR,
Files: cborFS,
ToRepr: "_cbor_torepr",
})
}
type majorTypeEntry struct {
s scalar.S
d func(d *decode.D, shortCount uint64, count uint64) interface{}
}
type majorTypeEntries map[uint64]majorTypeEntry
func (mts majorTypeEntries) MapScalar(s scalar.S) (scalar.S, error) {
u := s.ActualU()
if fe, ok := mts[u]; ok {
s = fe.s
s.Actual = u
}
return s, nil
}
const (
shortCountVariable8Bit = 24
shortCountVariable16Bit = 25
shortCountVariable32Bit = 26
shortCountVariable64Bit = 27
shortCountIndefinite = 31
shortCountSpecialFalse = 20
shortCountSpecialTrue = 21
shortCountSpecialNull = 22
shortCountSpecialUndefined = 23
shortCountSpecialFloat16Bit = 25
shortCountSpecialFloat32Bit = 26
shortCountSpecialFloat64Bit = 27
)
var shortCountMap = scalar.UToSymStr{
shortCountVariable8Bit: "8bit",
shortCountVariable16Bit: "16bit",
shortCountVariable32Bit: "32bit",
shortCountVariable64Bit: "64bit",
shortCountIndefinite: "indefinite",
}
var tagMap = scalar.UToSymStr{
0: "date_time",
1: "epoch_date_time",
2: "unsigned_bignum",
3: "negative_bignum",
4: "decimal_fraction",
5: "bigfloat",
21: "base64url",
22: "base64",
23: "base16",
24: "encoded_cbor",
32: "uri",
33: "base64url",
34: "base64",
36: "mime_message",
55799: "self_described_cbor",
}
const (
majorTypePositiveInt = 0
majorTypeNegativeInt = 1
majorTypeBytes = 2
majorTypeUTF8 = 3
majorTypeArray = 4
majorTypeMap = 5
majorTypeSematic = 6
majorTypeSpecialFloat = 7
)
const (
breakMarker = 0xff
)
func decodeCBORValue(d *decode.D) interface{} {
majorTypeMap := majorTypeEntries{
majorTypePositiveInt: {s: scalar.S{Sym: "positive_int"}, d: func(d *decode.D, shortCount uint64, count uint64) interface{} {
d.FieldValueU("value", count)
return nil
}},
majorTypeNegativeInt: {s: scalar.S{Sym: "negative_int"}, d: func(d *decode.D, shortCount uint64, count uint64) interface{} {
n := new(big.Int)
n.SetUint64(count).Neg(n).Sub(n, mathextra.BigIntOne)
d.FieldValueBigInt("value", n)
return nil
}},
majorTypeBytes: {s: scalar.S{Sym: "bytes"}, d: func(d *decode.D, shortCount uint64, count uint64) interface{} {
if shortCount == shortCountIndefinite {
bb := &bytes.Buffer{}
d.FieldArray("items", func(d *decode.D) {
for d.PeekBits(8) != breakMarker {
d.FieldStruct("item", func(d *decode.D) {
v := decodeCBORValue(d)
switch v := v.(type) {
case []byte:
bb.Write(v)
default:
d.Fatalf("non-bytes in bytes stream %v", v)
}
})
}
})
d.FieldRootBitBuf("value", bitio.NewBitReader(bb.Bytes(), -1))
// nil, nested indefinite bytes is not allowed
return nil
}
buf := d.MustReadAllBits(d.FieldRawLen("value", int64(count)*8))
return buf
}},
majorTypeUTF8: {s: scalar.S{Sym: "utf8"}, d: func(d *decode.D, shortCount uint64, count uint64) interface{} {
if shortCount == shortCountIndefinite {
sb := &strings.Builder{}
d.FieldArray("items", func(d *decode.D) {
for d.PeekBits(8) != breakMarker {
d.FieldStruct("item", func(d *decode.D) {
v := decodeCBORValue(d)
switch v := v.(type) {
case string:
sb.WriteString(v)
default:
d.Fatalf("non-string in string stream %v", v)
}
})
}
})
d.FieldValueStr("value", sb.String())
// nil, nested indefinite string is not allowed
return nil
}
return d.FieldUTF8("value", int(count))
}},
majorTypeArray: {s: scalar.S{Sym: "array"}, d: func(d *decode.D, shortCount uint64, count uint64) interface{} {
d.FieldArray("elements", func(d *decode.D) {
for i := uint64(0); true; i++ {
if shortCount == shortCountIndefinite && d.PeekBits(8) == breakMarker {
break
} else if i >= count {
break
}
d.FieldStruct("element", func(d *decode.D) { decodeCBORValue(d) })
}
})
if shortCount == shortCountIndefinite {
d.FieldU8("break")
}
return nil
}},
majorTypeMap: {s: scalar.S{Sym: "map"}, d: func(d *decode.D, shortCount uint64, count uint64) interface{} {
d.FieldArray("pairs", func(d *decode.D) {
for i := uint64(0); true; i++ {
if shortCount == shortCountIndefinite && d.PeekBits(8) == breakMarker {
break
} else if i >= count {
break
}
d.FieldStruct("pair", func(d *decode.D) {
d.FieldStruct("key", func(d *decode.D) { decodeCBORValue(d) })
d.FieldStruct("value", func(d *decode.D) { decodeCBORValue(d) })
})
}
})
if shortCount == shortCountIndefinite {
d.FieldU8("break")
}
return nil
}},
majorTypeSematic: {s: scalar.S{Sym: "semantic"}, d: func(d *decode.D, shortCount uint64, count uint64) interface{} {
d.FieldValueU("tag", count, tagMap)
d.FieldStruct("value", func(d *decode.D) { decodeCBORValue(d) })
return nil
}},
majorTypeSpecialFloat: {s: scalar.S{Sym: "special_float"}, d: func(d *decode.D, shortCount uint64, count uint64) interface{} {
switch shortCount {
// TODO: 0-19
case shortCountSpecialFalse:
d.FieldValueBool("value", false)
case shortCountSpecialTrue:
d.FieldValueBool("value", true)
case shortCountSpecialNull:
d.FieldValueNil("value")
case shortCountSpecialUndefined:
// TODO: undefined
case 24:
// TODO: future
case shortCountSpecialFloat16Bit:
d.FieldF16("value")
case shortCountSpecialFloat32Bit:
d.FieldF32("value")
case shortCountSpecialFloat64Bit:
d.FieldF64("value")
case 28, 29, 30:
// TODO: future
}
return nil
}},
}
typ := d.FieldU3("major_type", majorTypeMap)
shortCount := d.FieldU5("short_count", shortCountMap)
count := shortCount
if typ != majorTypeSpecialFloat {
switch count {
// 0-23 value in shortCount
case shortCountVariable8Bit:
count = d.FieldU8("variable_count")
case shortCountVariable16Bit:
count = d.FieldU16("variable_count")
case shortCountVariable32Bit:
count = d.FieldU32("variable_count")
case shortCountVariable64Bit:
count = d.FieldU64("variable_count")
case 28, 29, 30:
d.Fatalf("incorrect shortCount %d", count)
}
}
if mt, ok := majorTypeMap[typ]; ok {
if mt.d != nil {
return mt.d(d, shortCount, count)
}
return nil
}
panic("unreachable")
}
func decodeCBOR(d *decode.D, in interface{}) interface{} {
decodeCBORValue(d)
return nil
}
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