lnd.xprv/lnwire/channel_announcement.go
Olaoluwa Osuntokun d884efea29
lnwire+lnd: Make Logging Messages Great Again
This commit modifies the login of sent/recv’d wire messages in trace
mode in order utilize the more detailed, and automatically generated
logging statements using pure spew.Sdump.

In order to avoid the spammy messages due to spew printing the
btcec.S256() curve paramter within wire messages with public keys, we
introduce a new logging function to unset the curve paramter to it
isn’t printed in its entirety. To insure we don’t run into any panics
as a result of a nil pointer defense, we now copy the public keys
during the funding process so we don’t run into a panic due to
modifying a pointer to the same object.
2017-01-14 17:52:18 -08:00

196 lines
4.9 KiB
Go

package lnwire
import (
"bytes"
"io"
"github.com/go-errors/errors"
"github.com/roasbeef/btcd/btcec"
"github.com/roasbeef/btcd/chaincfg/chainhash"
)
// ChannelAnnouncement message is used to announce the existence of a channel
// between two peers in the overlay, which is propagated by the discovery
// service over broadcast handler.
type ChannelAnnouncement struct {
// This signatures are used by nodes in order to create cross
// references between node's channel and node. Requiring both nodes
// to sign indicates they are both willing to route other payments via
// this node.
FirstNodeSig *btcec.Signature
SecondNodeSig *btcec.Signature
// ChannelID is the unique description of the funding transaction.
ChannelID ChannelID
// This signatures are used by nodes in order to create cross
// references between node's channel and node. Requiring the bitcoin
// signatures proves they control the channel.
FirstBitcoinSig *btcec.Signature
SecondBitcoinSig *btcec.Signature
// The public keys of the two nodes who are operating the channel, such
// that is FirstNodeID the numerically-lesser of the two DER encoded
// keys (ascending numerical order).
FirstNodeID *btcec.PublicKey
SecondNodeID *btcec.PublicKey
// Public keys which corresponds to the keys which was declared in
// multisig funding transaction output.
FirstBitcoinKey *btcec.PublicKey
SecondBitcoinKey *btcec.PublicKey
}
// A compile time check to ensure ChannelAnnouncement implements the
// lnwire.Message interface.
var _ Message = (*ChannelAnnouncement)(nil)
// Validate performs any necessary sanity checks to ensure all fields present
// on the ChannelAnnouncement are valid.
//
// This is part of the lnwire.Message interface.
func (a *ChannelAnnouncement) Validate() error {
// TODO(roasbeef): move validation to discovery service
return nil
var sigHash []byte
sigHash = chainhash.DoubleHashB(a.FirstNodeID.SerializeCompressed())
if !a.FirstBitcoinSig.Verify(sigHash, a.FirstBitcoinKey) {
return errors.New("can't verify first bitcoin signature")
}
sigHash = chainhash.DoubleHashB(a.SecondNodeID.SerializeCompressed())
if !a.SecondBitcoinSig.Verify(sigHash, a.SecondBitcoinKey) {
return errors.New("can't verify second bitcoin signature")
}
data, err := a.DataToSign()
if err != nil {
return err
}
dataHash := chainhash.DoubleHashB(data)
if !a.FirstNodeSig.Verify(dataHash, a.FirstNodeID) {
return errors.New("can't verify data in first node signature")
}
if !a.SecondNodeSig.Verify(dataHash, a.SecondNodeID) {
return errors.New("can't verify data in second node signature")
}
return nil
}
// Decode deserializes a serialized ChannelAnnouncement stored in the passed
// io.Reader observing the specified protocol version.
//
// This is part of the lnwire.Message interface.
func (c *ChannelAnnouncement) Decode(r io.Reader, pver uint32) error {
err := readElements(r,
&c.FirstNodeSig,
&c.SecondNodeSig,
&c.ChannelID,
&c.FirstBitcoinSig,
&c.SecondBitcoinSig,
&c.FirstNodeID,
&c.SecondNodeID,
&c.FirstBitcoinKey,
&c.SecondBitcoinKey,
)
if err != nil {
return err
}
return nil
}
// Encode serializes the target ChannelAnnouncement into the passed io.Writer
// observing the protocol version specified.
//
// This is part of the lnwire.Message interface.
func (c *ChannelAnnouncement) Encode(w io.Writer, pver uint32) error {
err := writeElements(w,
c.FirstNodeSig,
c.SecondNodeSig,
c.ChannelID,
c.FirstBitcoinSig,
c.SecondBitcoinSig,
c.FirstNodeID,
c.SecondNodeID,
c.FirstBitcoinKey,
c.SecondBitcoinKey,
)
if err != nil {
return err
}
return nil
}
// Command returns the integer uniquely identifying this message type on the
// wire.
//
// This is part of the lnwire.Message interface.
func (c *ChannelAnnouncement) Command() uint32 {
return CmdChannelAnnoucmentMessage
}
// MaxPayloadLength returns the maximum allowed payload size for this message
// observing the specified protocol version.
//
// This is part of the lnwire.Message interface.
func (c *ChannelAnnouncement) MaxPayloadLength(pver uint32) uint32 {
var length uint32
// FirstNodeSig - 64 bytes
length += 64
// SecondNodeSig - 64 bytes
length += 64
// ChannelID - 8 bytes
length += 8
// FirstBitcoinSig - 64 bytes
length += 64
// SecondBitcoinSig - 64 bytes
length += 64
// FirstNodeID - 33 bytes
length += 33
// SecondNodeID - 33 bytes
length += 33
// FirstBitcoinKey - 33 bytes
length += 33
// SecondBitcoinKey - 33 bytes
length += 33
return length
}
// DataToSign is used to retrieve part of the announcement message which
// should be signed.
func (c *ChannelAnnouncement) DataToSign() ([]byte, error) {
// We should not include the signatures itself.
var w bytes.Buffer
err := writeElements(&w,
c.ChannelID,
c.FirstBitcoinSig,
c.SecondBitcoinSig,
c.FirstNodeID,
c.SecondNodeID,
c.FirstBitcoinKey,
c.SecondBitcoinKey,
)
if err != nil {
return nil, err
}
return w.Bytes(), nil
}