2019-08-08 01:03:43 +03:00
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package tlv
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import (
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2019-07-31 07:38:43 +03:00
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"bytes"
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2019-07-31 07:33:52 +03:00
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"fmt"
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2019-08-08 01:03:43 +03:00
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"io"
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2019-07-31 07:38:43 +03:00
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"sort"
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2019-08-08 01:03:43 +03:00
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"github.com/btcsuite/btcd/btcec"
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)
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// Type is an 64-bit identifier for a TLV Record.
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type Type uint64
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2019-09-04 21:46:28 +03:00
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// TypeSet is an unordered set of Types.
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type TypeSet map[Type]struct{}
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2019-08-08 01:03:43 +03:00
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// Encoder is a signature for methods that can encode TLV values. An error
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// should be returned if the Encoder cannot support the underlying type of val.
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// The provided scratch buffer must be non-nil.
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type Encoder func(w io.Writer, val interface{}, buf *[8]byte) error
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// Decoder is a signature for methods that can decode TLV values. An error
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// should be returned if the Decoder cannot support the underlying type of val.
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// The provided scratch buffer must be non-nil.
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type Decoder func(r io.Reader, val interface{}, buf *[8]byte, l uint64) error
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// ENOP is an encoder that doesn't modify the io.Writer and never fails.
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func ENOP(io.Writer, interface{}, *[8]byte) error { return nil }
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// DNOP is an encoder that doesn't modify the io.Reader and never fails.
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func DNOP(io.Reader, interface{}, *[8]byte, uint64) error { return nil }
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// SizeFunc is a function that can compute the length of a given field. Since
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// the size of the underlying field can change, this allows the size of the
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// field to be evaluated at the time of encoding.
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type SizeFunc func() uint64
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// SizeVarBytes returns a SizeFunc that can compute the length of a byte slice.
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func SizeVarBytes(e *[]byte) SizeFunc {
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return func() uint64 {
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return uint64(len(*e))
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}
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}
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2019-11-05 01:11:02 +03:00
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// RecorderProducer is an interface for objects that can produce a Record object
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// capable of encoding and/or decoding the RecordProducer as a Record.
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type RecordProducer interface {
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// Record returns a Record that can be used to encode or decode the
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// backing object.
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Record() Record
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}
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// Record holds the required information to encode or decode a TLV record.
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type Record struct {
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value interface{}
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typ Type
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staticSize uint64
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sizeFunc SizeFunc
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encoder Encoder
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decoder Decoder
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}
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// Size returns the size of the Record's value. If no static size is known, the
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// dynamic size will be evaluated.
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func (f *Record) Size() uint64 {
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if f.sizeFunc == nil {
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return f.staticSize
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}
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return f.sizeFunc()
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}
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2019-07-31 07:33:07 +03:00
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// Type returns the type of the underlying TLV record.
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func (f *Record) Type() Type {
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return f.typ
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}
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// Encode writes out the TLV record to the passed writer. This is useful when a
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// caller wants to obtain the raw encoding of a *single* TLV record, outside
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// the context of the Stream struct.
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func (f *Record) Encode(w io.Writer) error {
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var b [8]byte
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return f.encoder(w, f.value, &b)
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}
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// Decode read in the TLV record from the passed reader. This is useful when a
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// caller wants decode a *single* TLV record, outside the context of the Stream
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// struct.
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func (f *Record) Decode(r io.Reader, l uint64) error {
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var b [8]byte
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return f.decoder(r, f.value, &b, l)
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}
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// MakePrimitiveRecord creates a record for common types.
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func MakePrimitiveRecord(typ Type, val interface{}) Record {
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var (
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staticSize uint64
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sizeFunc SizeFunc
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encoder Encoder
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decoder Decoder
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)
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switch e := val.(type) {
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case *uint8:
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staticSize = 1
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encoder = EUint8
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decoder = DUint8
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case *uint16:
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staticSize = 2
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encoder = EUint16
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decoder = DUint16
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case *uint32:
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staticSize = 4
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encoder = EUint32
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decoder = DUint32
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case *uint64:
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staticSize = 8
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encoder = EUint64
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decoder = DUint64
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case *[32]byte:
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staticSize = 32
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encoder = EBytes32
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decoder = DBytes32
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case *[33]byte:
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staticSize = 33
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encoder = EBytes33
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decoder = DBytes33
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case **btcec.PublicKey:
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staticSize = 33
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encoder = EPubKey
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decoder = DPubKey
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case *[64]byte:
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staticSize = 64
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encoder = EBytes64
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decoder = DBytes64
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case *[]byte:
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sizeFunc = SizeVarBytes(e)
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encoder = EVarBytes
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decoder = DVarBytes
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default:
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panic(fmt.Sprintf("unknown primitive type: %T", val))
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}
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return Record{
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value: val,
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typ: typ,
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staticSize: staticSize,
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sizeFunc: sizeFunc,
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encoder: encoder,
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decoder: decoder,
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}
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}
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// MakeStaticRecord creates a record for a field of fixed-size
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func MakeStaticRecord(typ Type, val interface{}, size uint64, encoder Encoder,
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decoder Decoder) Record {
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return Record{
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value: val,
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typ: typ,
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staticSize: size,
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encoder: encoder,
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decoder: decoder,
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}
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}
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// MakeDynamicRecord creates a record whose size may vary, and will be
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// determined at the time of encoding via sizeFunc.
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func MakeDynamicRecord(typ Type, val interface{}, sizeFunc SizeFunc,
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encoder Encoder, decoder Decoder) Record {
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return Record{
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value: val,
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typ: typ,
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sizeFunc: sizeFunc,
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encoder: encoder,
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decoder: decoder,
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}
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}
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// RecordsToMap encodes a series of TLV records as raw key-value pairs in the
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// form of a map.
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func RecordsToMap(records []Record) (map[uint64][]byte, error) {
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tlvMap := make(map[uint64][]byte, len(records))
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for _, record := range records {
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var b bytes.Buffer
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if err := record.Encode(&b); err != nil {
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return nil, err
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}
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tlvMap[uint64(record.Type())] = b.Bytes()
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}
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return tlvMap, nil
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}
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// StubEncoder is a factory function that makes a stub tlv.Encoder out of a raw
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// value. We can use this to make a record that can be encoded when we don't
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// actually know it's true underlying value, and only it serialization.
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func StubEncoder(v []byte) Encoder {
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return func(w io.Writer, val interface{}, buf *[8]byte) error {
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_, err := w.Write(v)
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return err
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}
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}
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// MapToRecords encodes the passed TLV map as a series of regular tlv.Record
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// instances. The resulting set of records will be returned in sorted order by
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// their type.
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func MapToRecords(tlvMap map[uint64][]byte) ([]Record, error) {
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records := make([]Record, 0, len(tlvMap))
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for k, v := range tlvMap {
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// We don't pass in a decoder here since we don't actually know
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// the type, and only expect this Record to be used for display
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// and encoding purposes.
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record := MakeStaticRecord(
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Type(k), nil, uint64(len(v)), StubEncoder(v), nil,
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)
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records = append(records, record)
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}
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SortRecords(records)
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return records, nil
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}
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// SortRecords is a helper function that will sort a slice of records in place
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// according to their type.
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func SortRecords(records []Record) {
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if len(records) == 0 {
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return
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}
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sort.Slice(records, func(i, j int) bool {
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return records[i].Type() < records[j].Type()
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})
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}
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