lnd/lnwire/writer.go
positiveblue 4d4d8e480c
multi: stop casting peer warning messages as errors
Split the logic for processing `error` and `warning` messages from our
peers.
2022-10-26 08:09:08 -07:00

421 lines
12 KiB
Go

package lnwire
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
"image/color"
"math"
"net"
"github.com/btcsuite/btcd/btcec/v2"
"github.com/btcsuite/btcd/btcutil"
"github.com/btcsuite/btcd/wire"
"github.com/lightningnetwork/lnd/tor"
)
var (
// ErrNilFeatureVector is returned when the supplied feature is nil.
ErrNilFeatureVector = errors.New("cannot write nil feature vector")
// ErrPkScriptTooLong is returned when the length of the provided
// script exceeds 34.
ErrPkScriptTooLong = errors.New("'PkScript' too long")
// ErrNilTCPAddress is returned when the supplied address is nil.
ErrNilTCPAddress = errors.New("cannot write nil TCPAddr")
// ErrNilOnionAddress is returned when the supplied address is nil.
ErrNilOnionAddress = errors.New("cannot write nil onion address")
// ErrNilNetAddress is returned when a nil value is used in []net.Addr.
ErrNilNetAddress = errors.New("cannot write nil address")
// ErrNilOpaqueAddrs is returned when the supplied address is nil.
ErrNilOpaqueAddrs = errors.New("cannot write nil OpaqueAddrs")
// ErrNilPublicKey is returned when a nil pubkey is used.
ErrNilPublicKey = errors.New("cannot write nil pubkey")
// ErrUnknownServiceLength is returned when the onion service length is
// unknown.
ErrUnknownServiceLength = errors.New("unknown onion service length")
)
// ErrOutpointIndexTooBig is used when the outpoint index exceeds the max value
// of uint16.
func ErrOutpointIndexTooBig(index uint32) error {
return fmt.Errorf(
"index for outpoint (%v) is greater than "+
"max index of %v", index, math.MaxUint16,
)
}
// WriteBytes appends the given bytes to the provided buffer.
func WriteBytes(buf *bytes.Buffer, b []byte) error {
_, err := buf.Write(b)
return err
}
// WriteUint8 appends the uint8 to the provided buffer.
func WriteUint8(buf *bytes.Buffer, n uint8) error {
_, err := buf.Write([]byte{n})
return err
}
// WriteUint16 appends the uint16 to the provided buffer. It encodes the
// integer using big endian byte order.
func WriteUint16(buf *bytes.Buffer, n uint16) error {
var b [2]byte
binary.BigEndian.PutUint16(b[:], n)
_, err := buf.Write(b[:])
return err
}
// WriteUint32 appends the uint32 to the provided buffer. It encodes the
// integer using big endian byte order.
func WriteUint32(buf *bytes.Buffer, n uint32) error {
var b [4]byte
binary.BigEndian.PutUint32(b[:], n)
_, err := buf.Write(b[:])
return err
}
// WriteUint64 appends the uint64 to the provided buffer. It encodes the
// integer using big endian byte order.
func WriteUint64(buf *bytes.Buffer, n uint64) error {
var b [8]byte
binary.BigEndian.PutUint64(b[:], n)
_, err := buf.Write(b[:])
return err
}
// WriteSatoshi appends the Satoshi value to the provided buffer.
func WriteSatoshi(buf *bytes.Buffer, amount btcutil.Amount) error {
return WriteUint64(buf, uint64(amount))
}
// WriteMilliSatoshi appends the MilliSatoshi value to the provided buffer.
func WriteMilliSatoshi(buf *bytes.Buffer, amount MilliSatoshi) error {
return WriteUint64(buf, uint64(amount))
}
// WritePublicKey appends the compressed public key to the provided buffer.
func WritePublicKey(buf *bytes.Buffer, pub *btcec.PublicKey) error {
if pub == nil {
return ErrNilPublicKey
}
serializedPubkey := pub.SerializeCompressed()
return WriteBytes(buf, serializedPubkey)
}
// WriteChannelID appends the ChannelID to the provided buffer.
func WriteChannelID(buf *bytes.Buffer, channelID ChannelID) error {
return WriteBytes(buf, channelID[:])
}
// WriteNodeAlias appends the alias to the provided buffer.
func WriteNodeAlias(buf *bytes.Buffer, alias NodeAlias) error {
return WriteBytes(buf, alias[:])
}
// WriteShortChannelID appends the ShortChannelID to the provided buffer. It
// encodes the BlockHeight and TxIndex each using 3 bytes with big endian byte
// order, and encodes txPosition using 2 bytes with big endian byte order.
func WriteShortChannelID(buf *bytes.Buffer, shortChanID ShortChannelID) error {
// Check that field fit in 3 bytes and write the blockHeight
if shortChanID.BlockHeight > ((1 << 24) - 1) {
return errors.New("block height should fit in 3 bytes")
}
var blockHeight [4]byte
binary.BigEndian.PutUint32(blockHeight[:], shortChanID.BlockHeight)
if _, err := buf.Write(blockHeight[1:]); err != nil {
return err
}
// Check that field fit in 3 bytes and write the txIndex
if shortChanID.TxIndex > ((1 << 24) - 1) {
return errors.New("tx index should fit in 3 bytes")
}
var txIndex [4]byte
binary.BigEndian.PutUint32(txIndex[:], shortChanID.TxIndex)
if _, err := buf.Write(txIndex[1:]); err != nil {
return err
}
// Write the TxPosition
return WriteUint16(buf, shortChanID.TxPosition)
}
// WriteSig appends the signature to the provided buffer.
func WriteSig(buf *bytes.Buffer, sig Sig) error {
return WriteBytes(buf, sig[:])
}
// WriteSigs appends the slice of signatures to the provided buffer with its
// length.
func WriteSigs(buf *bytes.Buffer, sigs []Sig) error {
// Write the length of the sigs.
if err := WriteUint16(buf, uint16(len(sigs))); err != nil {
return err
}
for _, sig := range sigs {
if err := WriteSig(buf, sig); err != nil {
return err
}
}
return nil
}
// WriteFailCode appends the FailCode to the provided buffer.
func WriteFailCode(buf *bytes.Buffer, e FailCode) error {
return WriteUint16(buf, uint16(e))
}
// WriteRawFeatureVector encodes the feature using the feature's Encode method
// and appends the data to the provided buffer. An error will return if the
// passed feature is nil.
func WriteRawFeatureVector(buf *bytes.Buffer, feature *RawFeatureVector) error {
if feature == nil {
return ErrNilFeatureVector
}
return feature.Encode(buf)
}
// WriteColorRGBA appends the RGBA color using three bytes.
func WriteColorRGBA(buf *bytes.Buffer, e color.RGBA) error {
// Write R
if err := WriteUint8(buf, e.R); err != nil {
return err
}
// Write G
if err := WriteUint8(buf, e.G); err != nil {
return err
}
// Write B
return WriteUint8(buf, e.B)
}
// WriteShortChanIDEncoding appends the ShortChanIDEncoding to the provided
// buffer.
func WriteShortChanIDEncoding(buf *bytes.Buffer, e ShortChanIDEncoding) error {
return WriteUint8(buf, uint8(e))
}
// WriteFundingFlag appends the FundingFlag to the provided buffer.
func WriteFundingFlag(buf *bytes.Buffer, flag FundingFlag) error {
return WriteUint8(buf, uint8(flag))
}
// WriteChanUpdateMsgFlags appends the update flag to the provided buffer.
func WriteChanUpdateMsgFlags(buf *bytes.Buffer, f ChanUpdateMsgFlags) error {
return WriteUint8(buf, uint8(f))
}
// WriteChanUpdateChanFlags appends the update flag to the provided buffer.
func WriteChanUpdateChanFlags(buf *bytes.Buffer, f ChanUpdateChanFlags) error {
return WriteUint8(buf, uint8(f))
}
// WriteDeliveryAddress appends the address to the provided buffer.
func WriteDeliveryAddress(buf *bytes.Buffer, addr DeliveryAddress) error {
return writeDataWithLength(buf, addr)
}
// WritePingPayload appends the payload to the provided buffer.
func WritePingPayload(buf *bytes.Buffer, payload PingPayload) error {
return writeDataWithLength(buf, payload)
}
// WritePongPayload appends the payload to the provided buffer.
func WritePongPayload(buf *bytes.Buffer, payload PongPayload) error {
return writeDataWithLength(buf, payload)
}
// WriteWarningData appends the data to the provided buffer.
func WriteWarningData(buf *bytes.Buffer, data WarningData) error {
return writeDataWithLength(buf, data)
}
// WriteErrorData appends the data to the provided buffer.
func WriteErrorData(buf *bytes.Buffer, data ErrorData) error {
return writeDataWithLength(buf, data)
}
// WriteOpaqueReason appends the reason to the provided buffer.
func WriteOpaqueReason(buf *bytes.Buffer, reason OpaqueReason) error {
return writeDataWithLength(buf, reason)
}
// WriteBool appends the boolean to the provided buffer.
func WriteBool(buf *bytes.Buffer, b bool) error {
if b {
return WriteBytes(buf, []byte{1})
}
return WriteBytes(buf, []byte{0})
}
// WritePkScript appends the script to the provided buffer. Returns an error if
// the provided script exceeds 34 bytes.
func WritePkScript(buf *bytes.Buffer, s PkScript) error {
// The largest script we'll accept is a p2wsh which is exactly
// 34 bytes long.
scriptLength := len(s)
if scriptLength > 34 {
return ErrPkScriptTooLong
}
return wire.WriteVarBytes(buf, 0, s)
}
// WriteOutPoint appends the outpoint to the provided buffer.
func WriteOutPoint(buf *bytes.Buffer, p wire.OutPoint) error {
// Before we write anything to the buffer, check the Index is sane.
if p.Index > math.MaxUint16 {
return ErrOutpointIndexTooBig(p.Index)
}
var h [32]byte
copy(h[:], p.Hash[:])
if _, err := buf.Write(h[:]); err != nil {
return err
}
// Write the index using two bytes.
return WriteUint16(buf, uint16(p.Index))
}
// WriteTCPAddr appends the TCP address to the provided buffer, either a IPv4
// or a IPv6.
func WriteTCPAddr(buf *bytes.Buffer, addr *net.TCPAddr) error {
if addr == nil {
return ErrNilTCPAddress
}
// Make a slice of bytes to hold the data of descriptor and ip. At
// most, we need 17 bytes - 1 byte for the descriptor, 16 bytes for
// IPv6.
data := make([]byte, 0, 17)
if addr.IP.To4() != nil {
data = append(data, uint8(tcp4Addr))
data = append(data, addr.IP.To4()...)
} else {
data = append(data, uint8(tcp6Addr))
data = append(data, addr.IP.To16()...)
}
if _, err := buf.Write(data); err != nil {
return err
}
return WriteUint16(buf, uint16(addr.Port))
}
// WriteOnionAddr appends the onion address to the provided buffer.
func WriteOnionAddr(buf *bytes.Buffer, addr *tor.OnionAddr) error {
if addr == nil {
return ErrNilOnionAddress
}
var (
suffixIndex int
descriptor []byte
)
// Decide the suffixIndex and descriptor.
switch len(addr.OnionService) {
case tor.V2Len:
descriptor = []byte{byte(v2OnionAddr)}
suffixIndex = tor.V2Len - tor.OnionSuffixLen
case tor.V3Len:
descriptor = []byte{byte(v3OnionAddr)}
suffixIndex = tor.V3Len - tor.OnionSuffixLen
default:
return ErrUnknownServiceLength
}
// Decode the address.
host, err := tor.Base32Encoding.DecodeString(
addr.OnionService[:suffixIndex],
)
if err != nil {
return err
}
// Perform the actual write when the above checks passed.
if _, err := buf.Write(descriptor); err != nil {
return err
}
if _, err := buf.Write(host); err != nil {
return err
}
return WriteUint16(buf, uint16(addr.Port))
}
// WriteOpaqueAddrs appends the payload of the given OpaqueAddrs to buffer.
func WriteOpaqueAddrs(buf *bytes.Buffer, addr *OpaqueAddrs) error {
if addr == nil {
return ErrNilOpaqueAddrs
}
_, err := buf.Write(addr.Payload)
return err
}
// WriteNetAddrs appends a slice of addresses to the provided buffer with the
// length info.
func WriteNetAddrs(buf *bytes.Buffer, addresses []net.Addr) error {
// First, we'll encode all the addresses into an intermediate
// buffer. We need to do this in order to compute the total
// length of the addresses.
buffer := make([]byte, 0, MaxMsgBody)
addrBuf := bytes.NewBuffer(buffer)
for _, address := range addresses {
switch a := address.(type) {
case *net.TCPAddr:
if err := WriteTCPAddr(addrBuf, a); err != nil {
return err
}
case *tor.OnionAddr:
if err := WriteOnionAddr(addrBuf, a); err != nil {
return err
}
case *OpaqueAddrs:
if err := WriteOpaqueAddrs(addrBuf, a); err != nil {
return err
}
default:
return ErrNilNetAddress
}
}
// With the addresses fully encoded, we can now write out data.
return writeDataWithLength(buf, addrBuf.Bytes())
}
// writeDataWithLength writes the data and its length to the buffer.
func writeDataWithLength(buf *bytes.Buffer, data []byte) error {
var l [2]byte
binary.BigEndian.PutUint16(l[:], uint16(len(data)))
if _, err := buf.Write(l[:]); err != nil {
return err
}
_, err := buf.Write(data)
return err
}