discovery: send policy updates for private channels directly to the remote peer
In this commit, we modify the main loop in `processChanPolicyUpdate` to send updates for private channels directly to the remote peer via the reliable message sender. This fixes a prior issue where the remote peer wouldn't receive new updates as this method doesn't go through the traditional path for channel updates.
This commit is contained in:
Olaoluwa Osuntokun
parent
a9d6273828
commit
53beed7aaf
@ -1293,8 +1293,22 @@ func (d *AuthenticatedGossiper) processChanPolicyUpdate(
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}
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// We'll avoid broadcasting any updates for private channels to
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// avoid directly giving away their existence.
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// avoid directly giving away their existence. Instead, we'll
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// send the update directly to the remote party.
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if edgeInfo.info.AuthProof == nil {
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remotePubKey := remotePubFromChanInfo(
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edgeInfo.info, chanUpdate.ChannelFlags,
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)
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err := d.reliableSender.sendMessage(
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chanUpdate, remotePubKey,
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)
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if err != nil {
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log.Errorf("Unable to reliably send %v for "+
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"channel=%v to peer=%x: %v",
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chanUpdate.MsgType(),
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chanUpdate.ShortChannelID,
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remotePubKey, err)
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}
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continue
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}
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@ -1928,13 +1942,9 @@ func (d *AuthenticatedGossiper) processNetworkAnnouncement(
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// so we'll try sending the update directly to the remote peer.
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if !nMsg.isRemote && chanInfo.AuthProof == nil {
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// Get our peer's public key.
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var remotePubKey [33]byte
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switch {
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case msg.ChannelFlags&lnwire.ChanUpdateDirection == 0:
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remotePubKey = chanInfo.NodeKey2Bytes
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case msg.ChannelFlags&lnwire.ChanUpdateDirection == 1:
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remotePubKey = chanInfo.NodeKey1Bytes
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}
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remotePubKey := remotePubFromChanInfo(
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chanInfo, msg.ChannelFlags,
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)
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// Now, we'll attempt to send the channel update message
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// reliably to the remote peer in the background, so
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@ -3351,6 +3351,24 @@ func TestPropagateChanPolicyUpdate(t *testing.T) {
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sentMsgs := make(chan lnwire.Message, 10)
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remotePeer := &mockPeer{remoteKey, sentMsgs, ctx.gossiper.quit}
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// The forced code path for sending the private ChannelUpdate to the
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// remote peer will be hit, forcing it to request a notification that
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// the remote peer is active. We'll ensure that it targets the proper
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// pubkey, and hand it our mock peer above.
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notifyErr := make(chan error, 1)
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ctx.gossiper.reliableSender.cfg.NotifyWhenOnline = func(
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targetPub *btcec.PublicKey, peerChan chan<- lnpeer.Peer) {
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if !targetPub.IsEqual(remoteKey) {
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notifyErr <- fmt.Errorf("reliableSender attempted to send the "+
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"message to the wrong peer: expected %x got %x",
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remoteKey.SerializeCompressed(),
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targetPub.SerializeCompressed())
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}
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peerChan <- remotePeer
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}
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// With our channel announcements created, we'll now send them all to
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// the gossiper in order for it to process. However, we'll hold back
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// the channel ann proof from the first channel in order to have it be
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@ -3374,12 +3392,16 @@ func TestPropagateChanPolicyUpdate(t *testing.T) {
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sendRemoteMsg(t, ctx, batch.remoteProofAnn, remotePeer)
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}
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// Drain out any broadcast messages we might not have read up to this
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// point.
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// Drain out any broadcast or direct messages we might not have read up
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// to this point. We'll also check out notifyErr to detect if the
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// reliable sender had an issue sending to the remote peer.
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out:
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for {
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select {
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case <-ctx.broadcastedMessage:
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case <-sentMsgs:
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case err := <-notifyErr:
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t.Fatal(err)
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default:
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break out
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}
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@ -3419,6 +3441,45 @@ out:
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return nil
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})
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}
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// Finally the ChannelUpdate should have been sent directly to the
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// remote peer via the reliable sender.
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select {
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case msg := <-sentMsgs:
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upd, ok := msg.(*lnwire.ChannelUpdate)
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if !ok {
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t.Fatalf("channel update not "+
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"broadcast, instead %T was", msg)
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}
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if upd.TimeLockDelta != newTimeLockDelta {
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t.Fatalf("wrong delta: expected %v, "+
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"got %v", newTimeLockDelta,
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upd.TimeLockDelta)
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}
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if upd.ShortChannelID != firstChanID {
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t.Fatalf("private channel upd " +
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"broadcast")
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}
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case <-time.After(time.Second * 5):
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t.Fatalf("message not sent directly to peer")
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}
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// At this point, no other ChannelUpdate messages should be broadcast
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// as we sent the two public ones to the network, and the private one
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// was sent directly to the peer.
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for {
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select {
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case msg := <-ctx.broadcastedMessage:
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if upd, ok := msg.msg.(*lnwire.ChannelUpdate); ok {
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if upd.ShortChannelID == firstChanID {
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t.Fatalf("chan update msg received: %v",
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spew.Sdump(msg))
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}
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}
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default:
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return
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}
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}
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}
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func assertMessage(t *testing.T, expected, got lnwire.Message) {
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@ -146,3 +146,19 @@ func SignAnnouncement(signer lnwallet.MessageSigner, pubKey *btcec.PublicKey,
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return signer.SignMessage(pubKey, data)
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}
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// remotePubFromChanInfo returns the public key of the remote peer given a
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// ChannelEdgeInfo that describe a channel we have with them.
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func remotePubFromChanInfo(chanInfo *channeldb.ChannelEdgeInfo,
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chanFlags lnwire.ChanUpdateChanFlags) [33]byte {
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var remotePubKey [33]byte
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switch {
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case chanFlags&lnwire.ChanUpdateDirection == 0:
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remotePubKey = chanInfo.NodeKey2Bytes
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case chanFlags&lnwire.ChanUpdateDirection == 1:
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remotePubKey = chanInfo.NodeKey1Bytes
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}
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return remotePubKey
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}
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