package chanbackup import ( "fmt" "net" "github.com/btcsuite/btcd/btcec" "github.com/btcsuite/btcd/wire" "github.com/lightningnetwork/lnd/channeldb" ) // LiveChannelSource is an interface that allows us to query for the set of // live channels. A live channel is one that is open, and has not had a // commitment transaction broadcast. type LiveChannelSource interface { // FetchAllChannels returns all known live channels. FetchAllChannels() ([]*channeldb.OpenChannel, error) // FetchChannel attempts to locate a live channel identified by the // passed chanPoint. FetchChannel(chanPoint wire.OutPoint) (*channeldb.OpenChannel, error) // AddrsForNode returns all known addresses for the target node public // key. AddrsForNode(nodePub *btcec.PublicKey) ([]net.Addr, error) } // assembleChanBackup attempts to assemble a static channel backup for the // passed open channel. The backup includes all information required to restore // the channel, as well as addressing information so we can find the peer and // reconnect to them to initiate the protocol. func assembleChanBackup(chanSource LiveChannelSource, openChan *channeldb.OpenChannel) (*Single, error) { log.Debugf("Crafting backup for ChannelPoint(%v)", openChan.FundingOutpoint) // First, we'll query the channel source to obtain all the addresses // that are are associated with the peer for this channel. nodeAddrs, err := chanSource.AddrsForNode(openChan.IdentityPub) if err != nil { return nil, err } single := NewSingle(openChan, nodeAddrs) return &single, nil } // FetchBackupForChan attempts to create a plaintext static channel backup for // the target channel identified by its channel point. If we're unable to find // the target channel, then an error will be returned. func FetchBackupForChan(chanPoint wire.OutPoint, chanSource LiveChannelSource) (*Single, error) { // First, we'll query the channel source to see if the channel is known // and open within the database. targetChan, err := chanSource.FetchChannel(chanPoint) if err != nil { // If we can't find the channel, then we return with an error, // as we have nothing to backup. return nil, fmt.Errorf("unable to find target channel") } // TODO(halseth): support chan backups for anchor types. if targetChan.ChanType.HasAnchors() { return nil, fmt.Errorf("channel type does not support " + "backups yet") } // Once we have the target channel, we can assemble the backup using // the source to obtain any extra information that we may need. staticChanBackup, err := assembleChanBackup(chanSource, targetChan) if err != nil { return nil, fmt.Errorf("unable to create chan backup: %v", err) } return staticChanBackup, nil } // FetchStaticChanBackups will return a plaintext static channel back up for // all known active/open channels within the passed channel source. func FetchStaticChanBackups(chanSource LiveChannelSource) ([]Single, error) { // First, we'll query the backup source for information concerning all // currently open and available channels. openChans, err := chanSource.FetchAllChannels() if err != nil { return nil, err } // Now that we have all the channels, we'll use the chanSource to // obtain any auxiliary information we need to craft a backup for each // channel. staticChanBackups := make([]Single, 0, len(openChans)) for _, openChan := range openChans { // TODO(halseth): support chan backups for anchor types. if openChan.ChanType.HasAnchors() { continue } chanBackup, err := assembleChanBackup(chanSource, openChan) if err != nil { return nil, err } staticChanBackups = append(staticChanBackups, *chanBackup) } return staticChanBackups, nil }