264 lines
8.2 KiB
Go
264 lines
8.2 KiB
Go
package input
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import (
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"github.com/btcsuite/btcd/txscript"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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)
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// Input represents an abstract UTXO which is to be spent using a sweeping
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// transaction. The method provided give the caller all information needed to
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// construct a valid input within a sweeping transaction to sweep this
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// lingering UTXO.
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type Input interface {
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// Outpoint returns the reference to the output being spent, used to
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// construct the corresponding transaction input.
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OutPoint() *wire.OutPoint
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// RequiredTxOut returns a non-nil TxOut if input commits to a certain
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// transaction output. This is used in the SINGLE|ANYONECANPAY case to
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// make sure any presigned input is still valid by including the
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// output.
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RequiredTxOut() *wire.TxOut
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// RequiredLockTime returns whether this input commits to a tx locktime
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// that must be used in the transaction including it.
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RequiredLockTime() (uint32, bool)
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// WitnessType returns an enum specifying the type of witness that must
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// be generated in order to spend this output.
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WitnessType() WitnessType
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// SignDesc returns a reference to a spendable output's sign
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// descriptor, which is used during signing to compute a valid witness
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// that spends this output.
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SignDesc() *SignDescriptor
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// CraftInputScript returns a valid set of input scripts allowing this
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// output to be spent. The returns input scripts should target the
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// input at location txIndex within the passed transaction. The input
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// scripts generated by this method support spending p2wkh, p2wsh, and
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// also nested p2sh outputs.
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CraftInputScript(signer Signer, txn *wire.MsgTx,
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hashCache *txscript.TxSigHashes,
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txinIdx int) (*Script, error)
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// BlocksToMaturity returns the relative timelock, as a number of
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// blocks, that must be built on top of the confirmation height before
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// the output can be spent. For non-CSV locked inputs this is always
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// zero.
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BlocksToMaturity() uint32
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// HeightHint returns the minimum height at which a confirmed spending
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// tx can occur.
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HeightHint() uint32
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// UnconfParent returns information about a possibly unconfirmed parent
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// tx.
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UnconfParent() *TxInfo
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}
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// TxInfo describes properties of a parent tx that are relevant for CPFP.
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type TxInfo struct {
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// Fee is the fee of the tx.
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Fee btcutil.Amount
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// Weight is the weight of the tx.
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Weight int64
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}
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// SignDetails is a struct containing information needed to resign certain
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// inputs. It is used to re-sign 2nd level HTLC transactions that uses the
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// SINGLE|ANYONECANPAY sighash type, as we have a signature provided by our
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// peer, but we can aggregate multiple of these 2nd level transactions into a
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// new transaction, that needs to be signed by us.
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type SignDetails struct {
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// SignDesc is the sign descriptor needed for us to sign the input.
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SignDesc SignDescriptor
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// PeerSig is the peer's signature for this input.
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PeerSig Signature
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// SigHashType is the sighash signed by the peer.
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SigHashType txscript.SigHashType
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}
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type inputKit struct {
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outpoint wire.OutPoint
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witnessType WitnessType
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signDesc SignDescriptor
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heightHint uint32
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blockToMaturity uint32
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// unconfParent contains information about a potential unconfirmed
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// parent transaction.
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unconfParent *TxInfo
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}
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// OutPoint returns the breached output's identifier that is to be included as
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// a transaction input.
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func (i *inputKit) OutPoint() *wire.OutPoint {
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return &i.outpoint
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}
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// RequiredTxOut returns a nil for the base input type.
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func (i *inputKit) RequiredTxOut() *wire.TxOut {
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return nil
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}
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// RequiredLockTime returns whether this input commits to a tx locktime that
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// must be used in the transaction including it. This will be false for the
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// base input type since we can re-sign for any lock time.
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func (i *inputKit) RequiredLockTime() (uint32, bool) {
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return 0, false
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}
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// WitnessType returns the type of witness that must be generated to spend the
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// breached output.
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func (i *inputKit) WitnessType() WitnessType {
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return i.witnessType
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}
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// SignDesc returns the breached output's SignDescriptor, which is used during
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// signing to compute the witness.
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func (i *inputKit) SignDesc() *SignDescriptor {
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return &i.signDesc
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}
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// HeightHint returns the minimum height at which a confirmed spending
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// tx can occur.
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func (i *inputKit) HeightHint() uint32 {
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return i.heightHint
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}
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// BlocksToMaturity returns the relative timelock, as a number of blocks, that
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// must be built on top of the confirmation height before the output can be
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// spent. For non-CSV locked inputs this is always zero.
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func (i *inputKit) BlocksToMaturity() uint32 {
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return i.blockToMaturity
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}
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// Cpfp returns information about a possibly unconfirmed parent tx.
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func (i *inputKit) UnconfParent() *TxInfo {
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return i.unconfParent
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}
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// BaseInput contains all the information needed to sweep a basic output
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// (CSV/CLTV/no time lock)
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type BaseInput struct {
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inputKit
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}
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// MakeBaseInput assembles a new BaseInput that can be used to construct a
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// sweep transaction.
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func MakeBaseInput(outpoint *wire.OutPoint, witnessType WitnessType,
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signDescriptor *SignDescriptor, heightHint uint32,
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unconfParent *TxInfo) BaseInput {
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return BaseInput{
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inputKit{
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outpoint: *outpoint,
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witnessType: witnessType,
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signDesc: *signDescriptor,
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heightHint: heightHint,
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unconfParent: unconfParent,
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},
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}
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}
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// NewBaseInput allocates and assembles a new *BaseInput that can be used to
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// construct a sweep transaction.
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func NewBaseInput(outpoint *wire.OutPoint, witnessType WitnessType,
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signDescriptor *SignDescriptor, heightHint uint32) *BaseInput {
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input := MakeBaseInput(
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outpoint, witnessType, signDescriptor, heightHint, nil,
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)
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return &input
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}
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// NewCsvInput assembles a new csv-locked input that can be used to
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// construct a sweep transaction.
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func NewCsvInput(outpoint *wire.OutPoint, witnessType WitnessType,
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signDescriptor *SignDescriptor, heightHint uint32,
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blockToMaturity uint32) *BaseInput {
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return &BaseInput{
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inputKit{
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outpoint: *outpoint,
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witnessType: witnessType,
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signDesc: *signDescriptor,
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heightHint: heightHint,
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blockToMaturity: blockToMaturity,
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},
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}
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}
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// CraftInputScript returns a valid set of input scripts allowing this output
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// to be spent. The returned input scripts should target the input at location
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// txIndex within the passed transaction. The input scripts generated by this
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// method support spending p2wkh, p2wsh, and also nested p2sh outputs.
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func (bi *BaseInput) CraftInputScript(signer Signer, txn *wire.MsgTx,
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hashCache *txscript.TxSigHashes, txinIdx int) (*Script, error) {
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witnessFunc := bi.witnessType.WitnessGenerator(signer, bi.SignDesc())
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return witnessFunc(txn, hashCache, txinIdx)
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}
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// HtlcSucceedInput constitutes a sweep input that needs a pre-image. The input
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// is expected to reside on the commitment tx of the remote party and should
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// not be a second level tx output.
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type HtlcSucceedInput struct {
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inputKit
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preimage []byte
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}
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// MakeHtlcSucceedInput assembles a new redeem input that can be used to
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// construct a sweep transaction.
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func MakeHtlcSucceedInput(outpoint *wire.OutPoint,
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signDescriptor *SignDescriptor, preimage []byte, heightHint,
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blocksToMaturity uint32) HtlcSucceedInput {
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return HtlcSucceedInput{
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inputKit: inputKit{
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outpoint: *outpoint,
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witnessType: HtlcAcceptedRemoteSuccess,
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signDesc: *signDescriptor,
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heightHint: heightHint,
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blockToMaturity: blocksToMaturity,
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},
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preimage: preimage,
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}
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}
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// CraftInputScript returns a valid set of input scripts allowing this output
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// to be spent. The returns input scripts should target the input at location
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// txIndex within the passed transaction. The input scripts generated by this
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// method support spending p2wkh, p2wsh, and also nested p2sh outputs.
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func (h *HtlcSucceedInput) CraftInputScript(signer Signer, txn *wire.MsgTx,
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hashCache *txscript.TxSigHashes, txinIdx int) (*Script, error) {
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desc := h.signDesc
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desc.SigHashes = hashCache
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desc.InputIndex = txinIdx
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witness, err := SenderHtlcSpendRedeem(
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signer, &desc, txn, h.preimage,
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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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return &Script{
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Witness: witness,
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}, nil
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}
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// Compile-time constraints to ensure each input struct implement the Input
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// interface.
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var _ Input = (*BaseInput)(nil)
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var _ Input = (*HtlcSucceedInput)(nil)
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