297 lines
10 KiB
Go
297 lines
10 KiB
Go
package lnd
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import (
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"fmt"
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"math"
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"net"
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"github.com/btcsuite/btcd/btcec"
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"github.com/btcsuite/btcd/chaincfg"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/lightningnetwork/lnd/chanbackup"
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"github.com/lightningnetwork/lnd/channeldb"
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"github.com/lightningnetwork/lnd/contractcourt"
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"github.com/lightningnetwork/lnd/keychain"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/lightningnetwork/lnd/shachain"
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)
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const (
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// mainnetSCBLaunchBlock is the approximate block height of the bitcoin
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// mainnet chain of the date when SCBs first were released in lnd
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// (v0.6.0-beta). The block date is 4/15/2019, 10:54 PM UTC.
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mainnetSCBLaunchBlock = 571800
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// testnetSCBLaunchBlock is the approximate block height of the bitcoin
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// testnet3 chain of the date when SCBs first were released in lnd
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// (v0.6.0-beta). The block date is 4/16/2019, 08:04 AM UTC.
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testnetSCBLaunchBlock = 1489300
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)
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// chanDBRestorer is an implementation of the chanbackup.ChannelRestorer
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// interface that is able to properly map a Single backup, into a
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// channeldb.ChannelShell which is required to fully restore a channel. We also
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// need the secret key chain in order obtain the prior shachain root so we can
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// verify the DLP protocol as initiated by the remote node.
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type chanDBRestorer struct {
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db *channeldb.DB
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secretKeys keychain.SecretKeyRing
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chainArb *contractcourt.ChainArbitrator
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}
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// openChannelShell maps the static channel back up into an open channel
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// "shell". We say shell as this doesn't include all the information required
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// to continue to use the channel, only the minimal amount of information to
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// insert this shell channel back into the database.
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func (c *chanDBRestorer) openChannelShell(backup chanbackup.Single) (
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*channeldb.ChannelShell, error) {
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// First, we'll also need to obtain the private key for the shachain
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// root from the encoded public key.
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//
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// TODO(roasbeef): now adds req for hardware signers to impl
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// shachain...
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privKey, err := c.secretKeys.DerivePrivKey(backup.ShaChainRootDesc)
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if err != nil {
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return nil, fmt.Errorf("unable to derive shachain root key: %v", err)
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}
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revRoot, err := chainhash.NewHash(privKey.Serialize())
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if err != nil {
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return nil, err
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}
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shaChainProducer := shachain.NewRevocationProducer(*revRoot)
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// Each of the keys in our local channel config only have their
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// locators populate, so we'll re-derive the raw key now as we'll need
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// it in order to carry out the DLP protocol.
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backup.LocalChanCfg.MultiSigKey, err = c.secretKeys.DeriveKey(
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backup.LocalChanCfg.MultiSigKey.KeyLocator,
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)
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if err != nil {
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return nil, fmt.Errorf("unable to derive multi sig key: %v", err)
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}
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backup.LocalChanCfg.RevocationBasePoint, err = c.secretKeys.DeriveKey(
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backup.LocalChanCfg.RevocationBasePoint.KeyLocator,
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)
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if err != nil {
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return nil, fmt.Errorf("unable to derive revocation key: %v", err)
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}
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backup.LocalChanCfg.PaymentBasePoint, err = c.secretKeys.DeriveKey(
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backup.LocalChanCfg.PaymentBasePoint.KeyLocator,
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)
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if err != nil {
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return nil, fmt.Errorf("unable to derive payment key: %v", err)
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}
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backup.LocalChanCfg.DelayBasePoint, err = c.secretKeys.DeriveKey(
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backup.LocalChanCfg.DelayBasePoint.KeyLocator,
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)
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if err != nil {
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return nil, fmt.Errorf("unable to derive delay key: %v", err)
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}
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backup.LocalChanCfg.HtlcBasePoint, err = c.secretKeys.DeriveKey(
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backup.LocalChanCfg.HtlcBasePoint.KeyLocator,
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)
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if err != nil {
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return nil, fmt.Errorf("unable to derive htlc key: %v", err)
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}
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var chanType channeldb.ChannelType
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switch backup.Version {
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case chanbackup.DefaultSingleVersion:
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chanType = channeldb.SingleFunderBit
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case chanbackup.TweaklessCommitVersion:
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chanType = channeldb.SingleFunderTweaklessBit
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case chanbackup.AnchorsCommitVersion:
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chanType = channeldb.AnchorOutputsBit
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chanType |= channeldb.SingleFunderTweaklessBit
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default:
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return nil, fmt.Errorf("unknown Single version: %v", err)
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}
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ltndLog.Infof("SCB Recovery: created channel shell for ChannelPoint(%v), "+
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"chan_type=%v", backup.FundingOutpoint, chanType)
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chanShell := channeldb.ChannelShell{
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NodeAddrs: backup.Addresses,
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Chan: &channeldb.OpenChannel{
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ChanType: chanType,
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ChainHash: backup.ChainHash,
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IsInitiator: backup.IsInitiator,
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Capacity: backup.Capacity,
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FundingOutpoint: backup.FundingOutpoint,
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ShortChannelID: backup.ShortChannelID,
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IdentityPub: backup.RemoteNodePub,
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IsPending: false,
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LocalChanCfg: backup.LocalChanCfg,
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RemoteChanCfg: backup.RemoteChanCfg,
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RemoteCurrentRevocation: backup.RemoteNodePub,
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RevocationStore: shachain.NewRevocationStore(),
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RevocationProducer: shaChainProducer,
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},
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}
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return &chanShell, nil
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}
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// RestoreChansFromSingles attempts to map the set of single channel backups to
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// channel shells that will be stored persistently. Once these shells have been
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// stored on disk, we'll be able to connect to the channel peer an execute the
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// data loss recovery protocol.
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//
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// NOTE: Part of the chanbackup.ChannelRestorer interface.
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func (c *chanDBRestorer) RestoreChansFromSingles(backups ...chanbackup.Single) error {
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channelShells := make([]*channeldb.ChannelShell, 0, len(backups))
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firstChanHeight := uint32(math.MaxUint32)
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for _, backup := range backups {
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chanShell, err := c.openChannelShell(backup)
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if err != nil {
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return err
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}
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// Find the block height of the earliest channel in this backup.
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chanHeight := chanShell.Chan.ShortChanID().BlockHeight
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if chanHeight != 0 && chanHeight < firstChanHeight {
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firstChanHeight = chanHeight
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}
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channelShells = append(channelShells, chanShell)
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}
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// In case there were only unconfirmed channels, we will have to scan
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// the chain beginning from the launch date of SCBs.
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if firstChanHeight == math.MaxUint32 {
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chainHash := channelShells[0].Chan.ChainHash
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switch {
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case chainHash.IsEqual(chaincfg.MainNetParams.GenesisHash):
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firstChanHeight = mainnetSCBLaunchBlock
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case chainHash.IsEqual(chaincfg.TestNet3Params.GenesisHash):
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firstChanHeight = testnetSCBLaunchBlock
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default:
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// Worst case: We have no height hint and start at
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// block 1. Should only happen for SCBs in regtest,
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// simnet and litecoin.
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firstChanHeight = 1
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}
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}
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// If there were channels in the backup that were not confirmed at the
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// time of the backup creation, they won't have a block height in the
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// ShortChanID which would lead to an error in the chain watcher.
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// We want to at least set the funding broadcast height that the chain
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// watcher can use instead. We have two possible fallback values for
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// the broadcast height that we are going to try here.
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for _, chanShell := range channelShells {
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channel := chanShell.Chan
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switch {
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// Fallback case 1: It is extremely unlikely at this point that
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// a channel we are trying to restore has a coinbase funding TX.
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// Therefore we can be quite certain that if the TxIndex is
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// zero, it was an unconfirmed channel where we used the
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// BlockHeight to encode the funding TX broadcast height. To not
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// end up with an invalid short channel ID that looks valid, we
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// restore the "original" unconfirmed one here.
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case channel.ShortChannelID.TxIndex == 0:
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broadcastHeight := channel.ShortChannelID.BlockHeight
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channel.FundingBroadcastHeight = broadcastHeight
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channel.ShortChannelID.BlockHeight = 0
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// Fallback case 2: This is an unconfirmed channel from an old
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// backup file where we didn't have any workaround in place.
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// Best we can do here is set the funding broadcast height to a
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// reasonable value that we determined earlier.
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case channel.ShortChanID().BlockHeight == 0:
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channel.FundingBroadcastHeight = firstChanHeight
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}
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}
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ltndLog.Infof("Inserting %v SCB channel shells into DB",
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len(channelShells))
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// Now that we have all the backups mapped into a series of Singles,
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// we'll insert them all into the database.
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if err := c.db.RestoreChannelShells(channelShells...); err != nil {
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return err
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}
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ltndLog.Infof("Informing chain watchers of new restored channels")
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// Finally, we'll need to inform the chain arbitrator of these new
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// channels so we'll properly watch for their ultimate closure on chain
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// and sweep them via the DLP.
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for _, restoredChannel := range channelShells {
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err := c.chainArb.WatchNewChannel(restoredChannel.Chan)
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if err != nil {
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return err
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}
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}
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return nil
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}
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// A compile-time constraint to ensure chanDBRestorer implements
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// chanbackup.ChannelRestorer.
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var _ chanbackup.ChannelRestorer = (*chanDBRestorer)(nil)
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// ConnectPeer attempts to connect to the target node at the set of available
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// addresses. Once this method returns with a non-nil error, the connector
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// should attempt to persistently connect to the target peer in the background
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// as a persistent attempt.
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//
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// NOTE: Part of the chanbackup.PeerConnector interface.
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func (s *server) ConnectPeer(nodePub *btcec.PublicKey, addrs []net.Addr) error {
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// Before we connect to the remote peer, we'll remove any connections
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// to ensure the new connection is created after this new link/channel
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// is known.
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if err := s.DisconnectPeer(nodePub); err != nil {
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ltndLog.Infof("Peer(%v) is already connected, proceeding "+
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"with chan restore", nodePub.SerializeCompressed())
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}
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// For each of the known addresses, we'll attempt to launch a
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// persistent connection to the (pub, addr) pair. In the event that any
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// of them connect, all the other stale requests will be canceled.
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for _, addr := range addrs {
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netAddr := &lnwire.NetAddress{
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IdentityKey: nodePub,
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Address: addr,
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}
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ltndLog.Infof("Attempting to connect to %v for SCB restore "+
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"DLP", netAddr)
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// Attempt to connect to the peer using this full address. If
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// we're unable to connect to them, then we'll try the next
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// address in place of it.
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err := s.ConnectToPeer(netAddr, true)
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// If we're already connected to this peer, then we don't
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// consider this an error, so we'll exit here.
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if _, ok := err.(*errPeerAlreadyConnected); ok {
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return nil
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} else if err != nil {
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// Otherwise, something else happened, so we'll try the
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// next address.
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ltndLog.Errorf("unable to connect to %v to "+
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"complete SCB restore: %v", netAddr, err)
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continue
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}
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// If we connected no problem, then we can exit early as our
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// job here is done.
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return nil
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}
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return fmt.Errorf("unable to connect to peer %x for SCB restore",
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nodePub.SerializeCompressed())
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}
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