chancloser

package
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Published: Apr 19, 2024 License: MIT Imports: 18 Imported by: 0

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Constants

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Variables

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var (
	// ErrChanAlreadyClosing is returned when a channel shutdown is attempted
	// more than once.
	ErrChanAlreadyClosing = fmt.Errorf("channel shutdown already initiated")

	// ErrChanCloseNotFinished is returned when a caller attempts to access
	// a field or function that is contingent on the channel closure negotiation
	// already being completed.
	ErrChanCloseNotFinished = fmt.Errorf("close negotiation not finished")

	// ErrInvalidState is returned when the closing state machine receives a
	// message while it is in an unknown state.
	ErrInvalidState = fmt.Errorf("invalid state")

	// ErrUpfrontShutdownScriptMismatch is returned when a peer or end user
	// provides a cooperative close script which does not match the upfront
	// shutdown script previously set for that party.
	ErrUpfrontShutdownScriptMismatch = fmt.Errorf("shutdown script does not " +
		"match upfront shutdown script")

	// ErrProposalExeceedsMaxFee is returned when as the initiator, the
	// latest fee proposal sent by the responder exceed our max fee.
	// responder.
	ErrProposalExeceedsMaxFee = fmt.Errorf("latest fee proposal exceeds " +
		"max fee")

	// ErrInvalidShutdownScript is returned when we receive an address from
	// a peer that isn't either a p2wsh or p2tr address.
	ErrInvalidShutdownScript = fmt.Errorf("invalid shutdown script")
)

Functions

func DisableLog

func DisableLog()

DisableLog disables all logging output.

func ParseUpfrontShutdownAddress

func ParseUpfrontShutdownAddress(address string,
	params *chaincfg.Params) (lnwire.DeliveryAddress, error)

ParseUpfrontShutdownAddress attempts to parse an upfront shutdown address. If the address is empty, it returns nil. If it successfully decoded the address, it returns a script that pays out to the address.

func UseLogger

func UseLogger(logger btclog.Logger)

UseLogger uses a specified Logger to output package logging info.

Types

type ChanCloseCfg

type ChanCloseCfg struct {
	// Channel is the channel that should be closed.
	Channel Channel

	// MusigSession is used to handle generating musig2 nonces, and also
	// creating the proper set of closing options for taproot channels.
	MusigSession MusigSession

	// BroadcastTx broadcasts the passed transaction to the network.
	BroadcastTx func(*wire.MsgTx, string) error

	// DisableChannel disables a channel, resulting in it not being able to
	// forward payments.
	DisableChannel func(wire.OutPoint) error

	// Disconnect will disconnect from the remote peer in this close.
	Disconnect func() error

	// MaxFee, is non-zero represents the highest fee that the initiator is
	// willing to pay to close the channel.
	MaxFee chainfee.SatPerKWeight

	// ChainParams holds the parameters of the chain that we're active on.
	ChainParams *chaincfg.Params

	// Quit is a channel that should be sent upon in the occasion the state
	// machine should cease all progress and shutdown.
	Quit chan struct{}

	// FeeEstimator is used to estimate the absolute starting co-op close
	// fee.
	FeeEstimator CoopFeeEstimator
}

ChanCloseCfg holds all the items that a ChanCloser requires to carry out its duties.

type ChanCloser

type ChanCloser struct {
	// contains filtered or unexported fields
}

ChanCloser is a state machine that handles the cooperative channel closure procedure. This includes shutting down a channel, marking it ineligible for routing HTLC's, negotiating fees with the remote party, and finally broadcasting the fully signed closure transaction to the network.

func NewChanCloser

func NewChanCloser(cfg ChanCloseCfg, deliveryScript []byte,
	idealFeePerKw chainfee.SatPerKWeight, negotiationHeight uint32,
	closeReq *htlcswitch.ChanClose, locallyInitiated bool) *ChanCloser

NewChanCloser creates a new instance of the channel closure given the passed configuration, and delivery+fee preference. The final argument should only be populated iff, we're the initiator of this closing request.

func (*ChanCloser) Channel

func (c *ChanCloser) Channel() *lnwallet.LightningChannel

Channel returns the channel stored in the config as a *lnwallet.LightningChannel.

NOTE: This method will PANIC if the underlying channel implementation isn't the desired type.

func (*ChanCloser) CloseRequest

func (c *ChanCloser) CloseRequest() *htlcswitch.ChanClose

CloseRequest returns the original close request that prompted the creation of the state machine.

NOTE: This will only return a non-nil pointer if we were the initiator of the cooperative closure workflow.

func (*ChanCloser) ClosingTx

func (c *ChanCloser) ClosingTx() (*wire.MsgTx, error)

ClosingTx returns the fully signed, final closing transaction.

NOTE: This transaction is only available if the state machine is in the closeFinished state.

func (*ChanCloser) NegotiationHeight

func (c *ChanCloser) NegotiationHeight() uint32

NegotiationHeight returns the negotiation height.

func (*ChanCloser) ProcessCloseMsg

func (c *ChanCloser) ProcessCloseMsg(msg lnwire.Message) ([]lnwire.Message,
	bool, error)

ProcessCloseMsg attempts to process the next message in the closing series. This method will update the state accordingly and return two primary values: the next set of messages to be sent, and a bool indicating if the fee negotiation process has completed. If the second value is true, then this means the ChanCloser can be garbage collected.

func (*ChanCloser) ShutdownChan

func (c *ChanCloser) ShutdownChan() (*lnwire.Shutdown, error)

ShutdownChan is the first method that's to be called by the initiator of the cooperative channel closure. This message returns the shutdown message to send to the remote party. Upon completion, we enter the closeShutdownInitiated phase as we await a response.

type Channel

type Channel interface {
	// ChannelPoint returns the channel point of the target channel.
	ChannelPoint() *wire.OutPoint

	// MarkCoopBroadcasted persistently marks that the channel close
	// transaction has been broadcast.
	MarkCoopBroadcasted(*wire.MsgTx, bool) error

	// IsInitiator returns true we are the initiator of the channel.
	IsInitiator() bool

	// ShortChanID returns the scid of the channel.
	ShortChanID() lnwire.ShortChannelID

	// ChanType returns the channel type of the channel.
	ChanType() channeldb.ChannelType

	// FundingTxOut returns the funding output of the channel.
	FundingTxOut() *wire.TxOut

	// AbsoluteThawHeight returns the absolute thaw height of the channel.
	// If the channel is pending, or an unconfirmed zero conf channel, then
	// an error should be returned.
	AbsoluteThawHeight() (uint32, error)

	// LocalBalanceDust returns true if when creating a co-op close
	// transaction, the balance of the local party will be dust after
	// accounting for any anchor outputs.
	LocalBalanceDust() bool

	// RemoteBalanceDust returns true if when creating a co-op close
	// transaction, the balance of the remote party will be dust after
	// accounting for any anchor outputs.
	RemoteBalanceDust() bool

	// RemoteUpfrontShutdownScript returns the upfront shutdown script of
	// the remote party. If the remote party didn't specify such a script,
	// an empty delivery address should be returned.
	RemoteUpfrontShutdownScript() lnwire.DeliveryAddress

	// CreateCloseProposal creates a new co-op close proposal in the form
	// of a valid signature, the chainhash of the final txid, and our final
	// balance in the created state.
	CreateCloseProposal(proposedFee btcutil.Amount,
		localDeliveryScript []byte, remoteDeliveryScript []byte,
		closeOpt ...lnwallet.ChanCloseOpt,
	) (
		input.Signature, *chainhash.Hash, btcutil.Amount, error)

	// CompleteCooperativeClose persistently "completes" the cooperative
	// close by producing a fully signed co-op close transaction.
	CompleteCooperativeClose(localSig, remoteSig input.Signature,
		localDeliveryScript, remoteDeliveryScript []byte,
		proposedFee btcutil.Amount, closeOpt ...lnwallet.ChanCloseOpt,
	) (*wire.MsgTx, btcutil.Amount, error)
}

Channel abstracts away from the core channel state machine by exposing an interface that requires only the methods we need to carry out the channel closing process.

type CoopFeeEstimator

type CoopFeeEstimator interface {
	// EstimateFee estimates an _absolute_ fee for a co-op close transaction
	// given the local+remote tx outs (for the co-op close transaction),
	// channel type, and ideal fee rate. If a passed TxOut is nil, then
	// that indicates that an output is dust on the co-op close transaction
	// _before_ fees are accounted for.
	EstimateFee(chanType channeldb.ChannelType,
		localTxOut, remoteTxOut *wire.TxOut,
		idealFeeRate chainfee.SatPerKWeight) btcutil.Amount
}

CoopFeeEstimator is used to estimate the fee of a co-op close transaction.

type MusigSession

type MusigSession interface {
	// ProposalClosingOpts generates the set of closing options needed to
	// generate a new musig2 proposal signature.
	ProposalClosingOpts() ([]lnwallet.ChanCloseOpt, error)

	// CombineClosingOpts returns the options that should be used when
	// combining the final musig partial signature. The method also maps
	// the lnwire partial signatures into an input.Signature that can be
	// used more generally.
	CombineClosingOpts(localSig, remoteSig lnwire.PartialSig,
	) (input.Signature, input.Signature, []lnwallet.ChanCloseOpt, error)

	// ClosingNonce generates the nonce we'll use to generate the musig2
	// partial signatures for the co-op close transaction.
	ClosingNonce() (*musig2.Nonces, error)

	// InitRemoteNonce saves the remote nonce the party sent during their
	// shutdown message so it can be used later to generate and verify
	// signatures.
	InitRemoteNonce(nonce *musig2.Nonces)
}

MusigSession is an interface that abstracts away the details of the musig2 session details. A session is used to generate the necessary closing options needed to close a channel cooperatively.

type SimpleCoopFeeEstimator

type SimpleCoopFeeEstimator struct {
}

SimpleCoopFeeEstimator is the default co-op close fee estimator. It assumes a normal segwit v0 channel, and that no outputs on the closing transaction are dust.

func (*SimpleCoopFeeEstimator) EstimateFee

func (d *SimpleCoopFeeEstimator) EstimateFee(chanType channeldb.ChannelType,
	localTxOut, remoteTxOut *wire.TxOut,
	idealFeeRate chainfee.SatPerKWeight) btcutil.Amount

EstimateFee estimates an _absolute_ fee for a co-op close transaction given the local+remote tx outs (for the co-op close transaction), channel type, and ideal fee rate.

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