1d82e12fcf
To decouple the autopilot heuristic from the constraints, we start by abstracting them behind an interface to make them easier to mock. We also rename them HeuristicConstraints->AgentConstraints to make it clear that they are now constraints the agent must adhere to.
210 lines
6.0 KiB
Go
210 lines
6.0 KiB
Go
package main
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import (
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"errors"
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"fmt"
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"net"
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"github.com/btcsuite/btcd/btcec"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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"github.com/davecgh/go-spew/spew"
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"github.com/lightningnetwork/lnd/autopilot"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/lightningnetwork/lnd/tor"
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)
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// chanController is an implementation of the autopilot.ChannelController
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// interface that's backed by a running lnd instance.
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type chanController struct {
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server *server
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private bool
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minConfs int32
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}
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// OpenChannel opens a channel to a target peer, with a capacity of the
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// specified amount. This function should un-block immediately after the
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// funding transaction that marks the channel open has been broadcast.
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func (c *chanController) OpenChannel(target *btcec.PublicKey,
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amt btcutil.Amount) error {
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// With the connection established, we'll now establish our connection
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// to the target peer, waiting for the first update before we exit.
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feePerKw, err := c.server.cc.feeEstimator.EstimateFeePerKW(3)
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if err != nil {
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return err
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}
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// TODO(halseth): make configurable?
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minHtlc := lnwire.NewMSatFromSatoshis(1)
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// Construct the open channel request and send it to the server to begin
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// the funding workflow.
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req := &openChanReq{
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targetPubkey: target,
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chainHash: *activeNetParams.GenesisHash,
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localFundingAmt: amt,
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pushAmt: 0,
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minHtlc: minHtlc,
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fundingFeePerKw: feePerKw,
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private: c.private,
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remoteCsvDelay: 0,
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minConfs: c.minConfs,
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}
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updateStream, errChan := c.server.OpenChannel(req)
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select {
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case err := <-errChan:
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return err
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case <-updateStream:
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return nil
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case <-c.server.quit:
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return nil
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}
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}
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func (c *chanController) CloseChannel(chanPoint *wire.OutPoint) error {
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return nil
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}
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func (c *chanController) SpliceIn(chanPoint *wire.OutPoint,
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amt btcutil.Amount) (*autopilot.Channel, error) {
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return nil, nil
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}
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func (c *chanController) SpliceOut(chanPoint *wire.OutPoint,
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amt btcutil.Amount) (*autopilot.Channel, error) {
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return nil, nil
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}
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// A compile time assertion to ensure chanController meets the
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// autopilot.ChannelController interface.
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var _ autopilot.ChannelController = (*chanController)(nil)
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// initAutoPilot initializes a new autopilot.ManagerCfg to manage an
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// autopilot.Agent instance based on the passed configuration struct. The agent
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// and all interfaces needed to drive it won't be launched before the Manager's
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// StartAgent method is called.
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func initAutoPilot(svr *server, cfg *autoPilotConfig) *autopilot.ManagerCfg {
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atplLog.Infof("Instantiating autopilot with cfg: %v", spew.Sdump(cfg))
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// Set up the constraints the autopilot heuristics must adhere to.
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atplConstraints := autopilot.NewConstraints(
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btcutil.Amount(cfg.MinChannelSize),
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btcutil.Amount(cfg.MaxChannelSize),
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uint16(cfg.MaxChannels),
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10,
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cfg.Allocation,
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)
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// First, we'll create the preferential attachment heuristic,
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// initialized with the passed auto pilot configuration parameters.
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prefAttachment := autopilot.NewConstrainedPrefAttachment(
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atplConstraints,
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)
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// With the heuristic itself created, we can now populate the remainder
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// of the items that the autopilot agent needs to perform its duties.
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self := svr.identityPriv.PubKey()
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pilotCfg := autopilot.Config{
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Self: self,
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Heuristic: prefAttachment,
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ChanController: &chanController{
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server: svr,
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private: cfg.Private,
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minConfs: cfg.MinConfs,
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},
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WalletBalance: func() (btcutil.Amount, error) {
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return svr.cc.wallet.ConfirmedBalance(cfg.MinConfs)
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},
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Graph: autopilot.ChannelGraphFromDatabase(svr.chanDB.ChannelGraph()),
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Constraints: atplConstraints,
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ConnectToPeer: func(target *btcec.PublicKey, addrs []net.Addr) (bool, error) {
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// First, we'll check if we're already connected to the
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// target peer. If we are, we can exit early. Otherwise,
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// we'll need to establish a connection.
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if _, err := svr.FindPeer(target); err == nil {
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return true, nil
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}
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// We can't establish a channel if no addresses were
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// provided for the peer.
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if len(addrs) == 0 {
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return false, errors.New("no addresses specified")
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}
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atplLog.Tracef("Attempting to connect to %x",
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target.SerializeCompressed())
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lnAddr := &lnwire.NetAddress{
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IdentityKey: target,
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ChainNet: activeNetParams.Net,
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}
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// We'll attempt to successively connect to each of the
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// advertised IP addresses until we've either exhausted
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// the advertised IP addresses, or have made a
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// connection.
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var connected bool
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for _, addr := range addrs {
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switch addr.(type) {
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case *net.TCPAddr, *tor.OnionAddr:
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lnAddr.Address = addr
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default:
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return false, fmt.Errorf("unknown "+
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"address type %T", addr)
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}
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err := svr.ConnectToPeer(lnAddr, false)
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if err != nil {
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// If we weren't able to connect to the
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// peer at this address, then we'll move
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// onto the next.
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continue
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}
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connected = true
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break
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}
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// If we weren't able to establish a connection at all,
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// then we'll error out.
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if !connected {
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return false, errors.New("exhausted all " +
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"advertised addresses")
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}
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return false, nil
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},
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DisconnectPeer: svr.DisconnectPeer,
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}
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// Create and return the autopilot.ManagerCfg that administrates this
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// agent-pilot instance.
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return &autopilot.ManagerCfg{
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Self: self,
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PilotCfg: &pilotCfg,
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ChannelState: func() ([]autopilot.Channel, error) {
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// We'll fetch the current state of open
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// channels from the database to use as initial
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// state for the auto-pilot agent.
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activeChannels, err := svr.chanDB.FetchAllChannels()
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if err != nil {
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return nil, err
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}
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chanState := make([]autopilot.Channel,
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len(activeChannels))
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for i, channel := range activeChannels {
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chanState[i] = autopilot.Channel{
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ChanID: channel.ShortChanID(),
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Capacity: channel.Capacity,
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Node: autopilot.NewNodeID(
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channel.IdentityPub),
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}
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}
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return chanState, nil
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},
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SubscribeTransactions: svr.cc.wallet.SubscribeTransactions,
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SubscribeTopology: svr.chanRouter.SubscribeTopology,
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}
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}
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