lnd/input/script_desc.go
2023-08-22 16:34:15 -07:00

113 lines
3.7 KiB
Go

package input
import (
"errors"
"github.com/btcsuite/btcd/btcec/v2"
"github.com/btcsuite/btcd/txscript"
"github.com/lightningnetwork/lnd/lnutils"
)
// ErrUnknownScriptType is returned when an unknown script type is encountered.
var ErrUnknownScriptType = errors.New("unknown script type")
// ScriptPath is used to indicate the spending path of a given script. Possible
// paths include: timeout, success, revocation, and others.
type ScriptPath uint8
const (
// ScriptPathTimeout is a script path that can be taken only after a
// timeout has elapsed.
ScriptPathTimeout ScriptPath = iota
// ScriptPathSuccess is a script path that can be taken only with some
// secret data.
ScriptPathSuccess
// ScriptPathRevocation is a script path used when a contract has been
// breached.
ScriptPathRevocation
// ScriptPathDelay is a script path used when a contract has relative
// delay that must elapse before it can be swept.
ScriptPathDelay
)
// ScriptDesciptor is an interface that abstracts over the various ways a
// pkScript can be spent from an output. This supports both normal p2wsh
// (witness script, etc), and also tapscript paths which have distinct
// tapscript leaves.
type ScriptDescriptor interface {
// PkScript is the public key script that commits to the final
// contract.
PkScript() []byte
// WitnessScript returns the witness script that we'll use when signing
// for the remote party, and also verifying signatures on our
// transactions. As an example, when we create an outgoing HTLC for the
// remote party, we want to sign their success path.
//
// TODO(roasbeef): break out into HTLC specific desc? or Branching Desc
// w/ the below?
WitnessScriptToSign() []byte
// WitnessScriptForPath returns the witness script for the given
// spending path. An error is returned if the path is unknown. This is
// useful as when constructing a control block for a given path, one
// also needs witness script being signed.
WitnessScriptForPath(path ScriptPath) ([]byte, error)
}
// TapscriptDescriptor is a super-set of the normal script multiplexer that
// adds in taproot specific details such as the control block, or top-level tap
// tweak.
type TapscriptDescriptor interface {
ScriptDescriptor
// CtrlBlockForPath returns the control block for the given spending
// path. For unknown paths, an error is returned.
CtrlBlockForPath(path ScriptPath) (*txscript.ControlBlock, error)
// TapTweak returns the top-level taproot tweak for the script.
TapTweak() []byte
// TapScriptTree returns the underlying tapscript tree.
TapScriptTree() *txscript.IndexedTapScriptTree
}
// ScriptTree holds the contents needed to spend a script within a tapscript
// tree.
type ScriptTree struct {
// InternalKey is the internal key of the Taproot output key.
InternalKey *btcec.PublicKey
// TaprootKey is the key that will be used to generate the taproot
// output.
TaprootKey *btcec.PublicKey
// TapscriptTree is the full tapscript tree that also includes the
// control block needed to spend each of the leaves.
TapscriptTree *txscript.IndexedTapScriptTree
// TapscriptTreeRoot is the root hash of the tapscript tree.
TapscriptRoot []byte
}
// PkScript is the public key script that commits to the final contract.
func (s *ScriptTree) PkScript() []byte {
// Script building can never internally return an error, so we ignore
// the error to simplify the interface.
pkScript, _ := PayToTaprootScript(s.TaprootKey)
return pkScript
}
// TapTweak returns the top-level taproot tweak for the script.
func (s *ScriptTree) TapTweak() []byte {
return lnutils.ByteSlice(s.TapscriptTree.RootNode.TapHash())
}
// TapScriptTree returns the underlying tapscript tree.
func (s *ScriptTree) TapScriptTree() *txscript.IndexedTapScriptTree {
return s.TapscriptTree
}