2018-12-01 02:33:27 +03:00
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package discovery
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import (
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"time"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/lightningnetwork/lnd/channeldb"
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"github.com/lightningnetwork/lnd/lnwire"
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2020-03-18 02:23:54 +03:00
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"github.com/lightningnetwork/lnd/netann"
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2019-04-05 18:36:11 +03:00
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"github.com/lightningnetwork/lnd/routing/route"
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2018-12-01 02:33:27 +03:00
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)
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// ChannelGraphTimeSeries is an interface that provides time and block based
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// querying into our view of the channel graph. New channels will have
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// monotonically increasing block heights, and new channel updates will have
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// increasing timestamps. Once we connect to a peer, we'll use the methods in
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// this interface to determine if we're already in sync, or need to request
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// some new information from them.
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type ChannelGraphTimeSeries interface {
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// HighestChanID should return the channel ID of the channel we know of
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// that's furthest in the target chain. This channel will have a block
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// height that's close to the current tip of the main chain as we
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// know it. We'll use this to start our QueryChannelRange dance with
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// the remote node.
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HighestChanID(chain chainhash.Hash) (*lnwire.ShortChannelID, error)
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// UpdatesInHorizon returns all known channel and node updates with an
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// update timestamp between the start time and end time. We'll use this
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// to catch up a remote node to the set of channel updates that they
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// may have missed out on within the target chain.
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UpdatesInHorizon(chain chainhash.Hash,
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startTime time.Time, endTime time.Time) ([]lnwire.Message, error)
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// FilterKnownChanIDs takes a target chain, and a set of channel ID's,
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// and returns a filtered set of chan ID's. This filtered set of chan
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// ID's represents the ID's that we don't know of which were in the
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// passed superSet.
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FilterKnownChanIDs(chain chainhash.Hash,
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superSet []lnwire.ShortChannelID) ([]lnwire.ShortChannelID, error)
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// FilterChannelRange returns the set of channels that we created
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// between the start height and the end height. We'll use this to to a
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// remote peer's QueryChannelRange message.
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FilterChannelRange(chain chainhash.Hash,
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startHeight, endHeight uint32) ([]lnwire.ShortChannelID, error)
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// FetchChanAnns returns a full set of channel announcements as well as
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// their updates that match the set of specified short channel ID's.
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// We'll use this to reply to a QueryShortChanIDs message sent by a
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// remote peer. The response will contain a unique set of
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// ChannelAnnouncements, the latest ChannelUpdate for each of the
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// announcements, and a unique set of NodeAnnouncements.
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FetchChanAnns(chain chainhash.Hash,
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shortChanIDs []lnwire.ShortChannelID) ([]lnwire.Message, error)
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// FetchChanUpdates returns the latest channel update messages for the
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// specified short channel ID. If no channel updates are known for the
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// channel, then an empty slice will be returned.
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FetchChanUpdates(chain chainhash.Hash,
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shortChanID lnwire.ShortChannelID) ([]*lnwire.ChannelUpdate, error)
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}
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// ChanSeries is an implementation of the ChannelGraphTimeSeries
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// interface backed by the channeldb ChannelGraph database. We'll provide this
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// implementation to the AuthenticatedGossiper so it can properly use the
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// in-protocol channel range queries to quickly and efficiently synchronize our
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// channel state with all peers.
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type ChanSeries struct {
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graph *channeldb.ChannelGraph
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}
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// NewChanSeries constructs a new ChanSeries backed by a channeldb.ChannelGraph.
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// The returned ChanSeries implements the ChannelGraphTimeSeries interface.
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func NewChanSeries(graph *channeldb.ChannelGraph) *ChanSeries {
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return &ChanSeries{
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graph: graph,
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}
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}
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// HighestChanID should return is the channel ID of the channel we know of
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// that's furthest in the target chain. This channel will have a block height
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// that's close to the current tip of the main chain as we know it. We'll use
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// this to start our QueryChannelRange dance with the remote node.
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//
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// NOTE: This is part of the ChannelGraphTimeSeries interface.
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func (c *ChanSeries) HighestChanID(chain chainhash.Hash) (*lnwire.ShortChannelID, error) {
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chanID, err := c.graph.HighestChanID()
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if err != nil {
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return nil, err
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}
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shortChanID := lnwire.NewShortChanIDFromInt(chanID)
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return &shortChanID, nil
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}
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// UpdatesInHorizon returns all known channel and node updates with an update
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// timestamp between the start time and end time. We'll use this to catch up a
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// remote node to the set of channel updates that they may have missed out on
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// within the target chain.
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//
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// NOTE: This is part of the ChannelGraphTimeSeries interface.
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func (c *ChanSeries) UpdatesInHorizon(chain chainhash.Hash,
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startTime time.Time, endTime time.Time) ([]lnwire.Message, error) {
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var updates []lnwire.Message
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// First, we'll query for all the set of channels that have an update
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// that falls within the specified horizon.
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chansInHorizon, err := c.graph.ChanUpdatesInHorizon(
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startTime, endTime,
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)
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if err != nil {
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return nil, err
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}
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for _, channel := range chansInHorizon {
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// If the channel hasn't been fully advertised yet, or is a
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// private channel, then we'll skip it as we can't construct a
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// full authentication proof if one is requested.
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if channel.Info.AuthProof == nil {
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continue
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}
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2020-03-18 02:23:54 +03:00
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chanAnn, edge1, edge2, err := netann.CreateChanAnnouncement(
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2018-12-01 02:33:27 +03:00
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channel.Info.AuthProof, channel.Info, channel.Policy1,
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channel.Policy2,
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)
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if err != nil {
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return nil, err
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}
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updates = append(updates, chanAnn)
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if edge1 != nil {
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updates = append(updates, edge1)
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}
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if edge2 != nil {
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updates = append(updates, edge2)
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}
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}
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// Next, we'll send out all the node announcements that have an update
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// within the horizon as well. We send these second to ensure that they
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// follow any active channels they have.
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nodeAnnsInHorizon, err := c.graph.NodeUpdatesInHorizon(
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startTime, endTime,
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)
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if err != nil {
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return nil, err
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}
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for _, nodeAnn := range nodeAnnsInHorizon {
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// Ensure we only forward nodes that are publicly advertised to
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// prevent leaking information about nodes.
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isNodePublic, err := c.graph.IsPublicNode(nodeAnn.PubKeyBytes)
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if err != nil {
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log.Errorf("Unable to determine if node %x is "+
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"advertised: %v", nodeAnn.PubKeyBytes, err)
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continue
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}
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if !isNodePublic {
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log.Tracef("Skipping forwarding announcement for "+
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"node %x due to being unadvertised",
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nodeAnn.PubKeyBytes)
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continue
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}
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nodeUpdate, err := nodeAnn.NodeAnnouncement(true)
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if err != nil {
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return nil, err
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}
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updates = append(updates, nodeUpdate)
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}
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return updates, nil
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}
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// FilterKnownChanIDs takes a target chain, and a set of channel ID's, and
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// returns a filtered set of chan ID's. This filtered set of chan ID's
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// represents the ID's that we don't know of which were in the passed superSet.
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//
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// NOTE: This is part of the ChannelGraphTimeSeries interface.
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func (c *ChanSeries) FilterKnownChanIDs(chain chainhash.Hash,
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superSet []lnwire.ShortChannelID) ([]lnwire.ShortChannelID, error) {
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chanIDs := make([]uint64, 0, len(superSet))
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for _, chanID := range superSet {
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chanIDs = append(chanIDs, chanID.ToUint64())
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}
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newChanIDs, err := c.graph.FilterKnownChanIDs(chanIDs)
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if err != nil {
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return nil, err
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}
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filteredIDs := make([]lnwire.ShortChannelID, 0, len(newChanIDs))
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for _, chanID := range newChanIDs {
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filteredIDs = append(
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filteredIDs, lnwire.NewShortChanIDFromInt(chanID),
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)
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}
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return filteredIDs, nil
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}
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// FilterChannelRange returns the set of channels that we created between the
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// start height and the end height. We'll use this respond to a remote peer's
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// QueryChannelRange message.
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//
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// NOTE: This is part of the ChannelGraphTimeSeries interface.
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func (c *ChanSeries) FilterChannelRange(chain chainhash.Hash,
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startHeight, endHeight uint32) ([]lnwire.ShortChannelID, error) {
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chansInRange, err := c.graph.FilterChannelRange(startHeight, endHeight)
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if err != nil {
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return nil, err
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}
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chanResp := make([]lnwire.ShortChannelID, 0, len(chansInRange))
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for _, chanID := range chansInRange {
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chanResp = append(
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chanResp, lnwire.NewShortChanIDFromInt(chanID),
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)
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}
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return chanResp, nil
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}
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// FetchChanAnns returns a full set of channel announcements as well as their
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// updates that match the set of specified short channel ID's. We'll use this
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// to reply to a QueryShortChanIDs message sent by a remote peer. The response
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// will contain a unique set of ChannelAnnouncements, the latest ChannelUpdate
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// for each of the announcements, and a unique set of NodeAnnouncements.
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//
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// NOTE: This is part of the ChannelGraphTimeSeries interface.
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func (c *ChanSeries) FetchChanAnns(chain chainhash.Hash,
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shortChanIDs []lnwire.ShortChannelID) ([]lnwire.Message, error) {
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chanIDs := make([]uint64, 0, len(shortChanIDs))
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for _, chanID := range shortChanIDs {
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chanIDs = append(chanIDs, chanID.ToUint64())
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}
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channels, err := c.graph.FetchChanInfos(chanIDs)
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if err != nil {
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return nil, err
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}
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// We'll use this map to ensure we don't send the same node
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// announcement more than one time as one node may have many channel
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// anns we'll need to send.
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2019-04-05 18:36:11 +03:00
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nodePubsSent := make(map[route.Vertex]struct{})
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2018-12-01 02:33:27 +03:00
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chanAnns := make([]lnwire.Message, 0, len(channels)*3)
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for _, channel := range channels {
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// If the channel doesn't have an authentication proof, then we
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// won't send it over as it may not yet be finalized, or be a
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// non-advertised channel.
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if channel.Info.AuthProof == nil {
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continue
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}
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2020-03-18 02:23:54 +03:00
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chanAnn, edge1, edge2, err := netann.CreateChanAnnouncement(
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2018-12-01 02:33:27 +03:00
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channel.Info.AuthProof, channel.Info, channel.Policy1,
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channel.Policy2,
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)
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if err != nil {
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return nil, err
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}
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chanAnns = append(chanAnns, chanAnn)
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if edge1 != nil {
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chanAnns = append(chanAnns, edge1)
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// If this edge has a validated node announcement, that
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// we haven't yet sent, then we'll send that as well.
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nodePub := channel.Policy1.Node.PubKeyBytes
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hasNodeAnn := channel.Policy1.Node.HaveNodeAnnouncement
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if _, ok := nodePubsSent[nodePub]; !ok && hasNodeAnn {
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nodeAnn, err := channel.Policy1.Node.NodeAnnouncement(true)
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if err != nil {
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return nil, err
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}
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chanAnns = append(chanAnns, nodeAnn)
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nodePubsSent[nodePub] = struct{}{}
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}
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}
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if edge2 != nil {
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chanAnns = append(chanAnns, edge2)
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// If this edge has a validated node announcement, that
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// we haven't yet sent, then we'll send that as well.
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nodePub := channel.Policy2.Node.PubKeyBytes
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hasNodeAnn := channel.Policy2.Node.HaveNodeAnnouncement
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if _, ok := nodePubsSent[nodePub]; !ok && hasNodeAnn {
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nodeAnn, err := channel.Policy2.Node.NodeAnnouncement(true)
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if err != nil {
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return nil, err
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}
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chanAnns = append(chanAnns, nodeAnn)
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nodePubsSent[nodePub] = struct{}{}
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}
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}
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}
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return chanAnns, nil
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}
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// FetchChanUpdates returns the latest channel update messages for the
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// specified short channel ID. If no channel updates are known for the channel,
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// then an empty slice will be returned.
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//
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// NOTE: This is part of the ChannelGraphTimeSeries interface.
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func (c *ChanSeries) FetchChanUpdates(chain chainhash.Hash,
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shortChanID lnwire.ShortChannelID) ([]*lnwire.ChannelUpdate, error) {
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chanInfo, e1, e2, err := c.graph.FetchChannelEdgesByID(
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shortChanID.ToUint64(),
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)
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if err != nil {
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return nil, err
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}
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chanUpdates := make([]*lnwire.ChannelUpdate, 0, 2)
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if e1 != nil {
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2020-03-18 02:24:25 +03:00
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chanUpdate, err := netann.ChannelUpdateFromEdge(chanInfo, e1)
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2018-12-01 02:33:27 +03:00
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if err != nil {
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return nil, err
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}
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chanUpdates = append(chanUpdates, chanUpdate)
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}
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if e2 != nil {
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2020-03-18 02:24:25 +03:00
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chanUpdate, err := netann.ChannelUpdateFromEdge(chanInfo, e2)
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2018-12-01 02:33:27 +03:00
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if err != nil {
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return nil, err
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}
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chanUpdates = append(chanUpdates, chanUpdate)
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}
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return chanUpdates, nil
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}
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// A compile-time assertion to ensure that ChanSeries meets the
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// ChannelGraphTimeSeries interface.
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var _ ChannelGraphTimeSeries = (*ChanSeries)(nil)
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