lnd/lnwire/extra_bytes.go
ffranr af50694643
lnwire: add ExtraOpaqueData helper functions and methods
Introduces a couple of new helper functions for both the ExtraOpaqueData
and CustomRecords types along with new methods on the ExtraOpaqueData.
2024-09-05 11:18:15 +02:00

250 lines
7.8 KiB
Go

package lnwire
import (
"bytes"
"fmt"
"io"
"github.com/lightningnetwork/lnd/fn"
"github.com/lightningnetwork/lnd/tlv"
)
// ExtraOpaqueData is the set of data that was appended to this message, some
// of which we may not actually know how to iterate or parse. By holding onto
// this data, we ensure that we're able to properly validate the set of
// signatures that cover these new fields, and ensure we're able to make
// upgrades to the network in a forwards compatible manner.
type ExtraOpaqueData []byte
// NewExtraOpaqueData creates a new ExtraOpaqueData instance from a tlv.TypeMap.
func NewExtraOpaqueData(tlvMap tlv.TypeMap) (ExtraOpaqueData, error) {
// If the tlv map is empty, we'll want to mirror the behavior of
// decoding an empty extra opaque data field (see Decode method).
if len(tlvMap) == 0 {
return make([]byte, 0), nil
}
// Convert the TLV map into a slice of records.
records := TlvMapToRecords(tlvMap)
// Encode the records into the extra data byte slice.
return EncodeRecords(records)
}
// Encode attempts to encode the raw extra bytes into the passed io.Writer.
func (e *ExtraOpaqueData) Encode(w *bytes.Buffer) error {
eBytes := []byte((*e)[:])
if err := WriteBytes(w, eBytes); err != nil {
return err
}
return nil
}
// Decode attempts to unpack the raw bytes encoded in the passed-in io.Reader as
// a set of extra opaque data.
func (e *ExtraOpaqueData) Decode(r io.Reader) error {
// First, we'll attempt to read a set of bytes contained within the
// passed io.Reader (if any exist).
rawBytes, err := io.ReadAll(r)
if err != nil {
return err
}
// If we _do_ have some bytes, then we'll swap out our backing pointer.
// This ensures that any struct that embeds this type will properly
// store the bytes once this method exits.
if len(rawBytes) > 0 {
*e = rawBytes
} else {
*e = make([]byte, 0)
}
return nil
}
// PackRecords attempts to encode the set of tlv records into the target
// ExtraOpaqueData instance. The records will be encoded as a raw TLV stream
// and stored within the backing slice pointer.
func (e *ExtraOpaqueData) PackRecords(
recordProducers ...tlv.RecordProducer) error {
// Assemble all the records passed in series, then encode them.
records := ProduceRecordsSorted(recordProducers...)
encoded, err := EncodeRecords(records)
if err != nil {
return err
}
*e = encoded
return nil
}
// ExtractRecords attempts to decode any types in the internal raw bytes as if
// it were a tlv stream. The set of raw parsed types is returned, and any
// passed records (if found in the stream) will be parsed into the proper
// tlv.Record.
func (e *ExtraOpaqueData) ExtractRecords(
recordProducers ...tlv.RecordProducer) (tlv.TypeMap, error) {
// First, assemble all the records passed in series.
records := ProduceRecordsSorted(recordProducers...)
extraBytesReader := bytes.NewReader(*e)
// Since ExtraOpaqueData is provided by a potentially malicious peer,
// pass it into the P2P decoding variant.
return DecodeRecordsP2P(extraBytesReader, records...)
}
// RecordProducers parses ExtraOpaqueData into a slice of TLV record producers
// by interpreting it as a TLV map.
func (e *ExtraOpaqueData) RecordProducers() ([]tlv.RecordProducer, error) {
var recordProducers []tlv.RecordProducer
// If the instance is nil or empty, return an empty slice.
if e == nil || len(*e) == 0 {
return recordProducers, nil
}
// Parse the extra opaque data as a TLV map.
tlvMap, err := e.ExtractRecords()
if err != nil {
return nil, err
}
// Convert the TLV map into a slice of record producers.
records := TlvMapToRecords(tlvMap)
return RecordsAsProducers(records), nil
}
// EncodeMessageExtraData encodes the given recordProducers into the given
// extraData.
func EncodeMessageExtraData(extraData *ExtraOpaqueData,
recordProducers ...tlv.RecordProducer) error {
// Treat extraData as a mutable reference.
if extraData == nil {
return fmt.Errorf("extra data cannot be nil")
}
// Pack in the series of TLV records into this message. The order we
// pass them in doesn't matter, as the method will ensure that things
// are all properly sorted.
return extraData.PackRecords(recordProducers...)
}
// ParseAndExtractCustomRecords parses the given extra data into the passed-in
// records, then returns any remaining records split into custom records and
// extra data.
func ParseAndExtractCustomRecords(allExtraData ExtraOpaqueData,
knownRecords ...tlv.RecordProducer) (CustomRecords,
fn.Set[tlv.Type], ExtraOpaqueData, error) {
extraDataTlvMap, err := allExtraData.ExtractRecords(knownRecords...)
if err != nil {
return nil, nil, nil, err
}
// Remove the known and now extracted records from the leftover extra
// data map.
parsedKnownRecords := make(fn.Set[tlv.Type], len(knownRecords))
for _, producer := range knownRecords {
r := producer.Record()
// Only remove the records if it was parsed (remainder is nil).
// We'll just store the type so we can tell the caller which
// records were actually parsed fully.
val, ok := extraDataTlvMap[r.Type()]
if ok && val == nil {
parsedKnownRecords.Add(r.Type())
delete(extraDataTlvMap, r.Type())
}
}
// Any records from the extra data TLV map which are in the custom
// records TLV type range will be included in the custom records field
// and removed from the extra data field.
customRecordsTlvMap := make(tlv.TypeMap, len(extraDataTlvMap))
for k, v := range extraDataTlvMap {
// Skip records that are not in the custom records TLV type
// range.
if k < MinCustomRecordsTlvType {
continue
}
// Include the record in the custom records map.
customRecordsTlvMap[k] = v
// Now that the record is included in the custom records map,
// we can remove it from the extra data TLV map.
delete(extraDataTlvMap, k)
}
// Set the custom records field to the custom records specific TLV
// record map.
customRecords, err := NewCustomRecords(customRecordsTlvMap)
if err != nil {
return nil, nil, nil, err
}
// Encode the remaining records back into the extra data field. These
// records are not in the custom records TLV type range and do not
// have associated fields in the struct that produced the records.
extraData, err := NewExtraOpaqueData(extraDataTlvMap)
if err != nil {
return nil, nil, nil, err
}
// Help with unit testing where we might have the empty value (nil) for
// the extra data instead of the default that's returned by the
// constructor (empty slice).
if len(extraData) == 0 {
extraData = nil
}
return customRecords, parsedKnownRecords, extraData, nil
}
// MergeAndEncode merges the known records with the extra data and custom
// records, then encodes the merged records into raw bytes.
func MergeAndEncode(knownRecords []tlv.RecordProducer,
extraData ExtraOpaqueData, customRecords CustomRecords) ([]byte,
error) {
// Construct a slice of all the records that we should include in the
// message extra data field. We will start by including any records from
// the extra data field.
mergedRecords, err := extraData.RecordProducers()
if err != nil {
return nil, err
}
// Merge the known and extra data records.
mergedRecords = append(mergedRecords, knownRecords...)
// Include custom records in the extra data wire field if they are
// present. Ensure that the custom records are validated before encoding
// them.
if err := customRecords.Validate(); err != nil {
return nil, fmt.Errorf("custom records validation error: %w",
err)
}
// Extend the message extra data records slice with TLV records from the
// custom records field.
mergedRecords = append(
mergedRecords, customRecords.RecordProducers()...,
)
// Now we can sort the records and make sure there are no records with
// the same type that would collide when encoding.
sortedRecords := ProduceRecordsSorted(mergedRecords...)
if err := AssertUniqueTypes(sortedRecords); err != nil {
return nil, err
}
return EncodeRecords(sortedRecords)
}