2019-11-01 07:32:04 +03:00
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package chanfunding
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import (
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2021-04-11 22:38:42 +03:00
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"fmt"
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2019-11-01 07:32:04 +03:00
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"math"
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"github.com/btcsuite/btcd/btcec"
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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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"github.com/btcsuite/btcutil/txsort"
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"github.com/lightningnetwork/lnd/input"
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"github.com/lightningnetwork/lnd/keychain"
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)
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// FullIntent is an intent that is fully backed by the internal wallet. This
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// intent differs from the ShimIntent, in that the funding transaction will be
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// constructed internally, and will consist of only inputs we wholly control.
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// This Intent implements a basic state machine that must be executed in order
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// before CompileFundingTx can be called.
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//
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// Steps to final channel provisioning:
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// 1. Call BindKeys to notify the intent which keys to use when constructing
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// the multi-sig output.
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// 2. Call CompileFundingTx afterwards to obtain the funding transaction.
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//
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// If either of these steps fail, then the Cancel method MUST be called.
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type FullIntent struct {
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ShimIntent
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// InputCoins are the set of coins selected as inputs to this funding
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// transaction.
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InputCoins []Coin
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// ChangeOutputs are the set of outputs that the Assembler will use as
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// change from the main funding transaction.
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ChangeOutputs []*wire.TxOut
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// coinLocker is the Assembler's instance of the OutpointLocker
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// interface.
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coinLocker OutpointLocker
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// coinSource is the Assembler's instance of the CoinSource interface.
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coinSource CoinSource
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// signer is the Assembler's instance of the Singer interface.
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signer input.Signer
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}
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// BindKeys is a method unique to the FullIntent variant. This allows the
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// caller to decide precisely which keys are used in the final funding
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// transaction. This is kept out of the main Assembler as these may may not
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// necessarily be under full control of the wallet. Only after this method has
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// been executed will CompileFundingTx succeed.
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func (f *FullIntent) BindKeys(localKey *keychain.KeyDescriptor,
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remoteKey *btcec.PublicKey) {
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f.localKey = localKey
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f.remoteKey = remoteKey
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}
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// CompileFundingTx is to be called after BindKeys on the sub-intent has been
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// called. This method will construct the final funding transaction, and fully
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// sign all inputs that are known by the backing CoinSource. After this method
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// returns, the Intent is assumed to be complete, as the output can be created
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// at any point.
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func (f *FullIntent) CompileFundingTx(extraInputs []*wire.TxIn,
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extraOutputs []*wire.TxOut) (*wire.MsgTx, error) {
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// Create a blank, fresh transaction. Soon to be a complete funding
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// transaction which will allow opening a lightning channel.
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fundingTx := wire.NewMsgTx(2)
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// Add all multi-party inputs and outputs to the transaction.
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for _, coin := range f.InputCoins {
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fundingTx.AddTxIn(&wire.TxIn{
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PreviousOutPoint: coin.OutPoint,
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})
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}
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for _, theirInput := range extraInputs {
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fundingTx.AddTxIn(theirInput)
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}
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for _, ourChangeOutput := range f.ChangeOutputs {
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fundingTx.AddTxOut(ourChangeOutput)
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}
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for _, theirChangeOutput := range extraOutputs {
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fundingTx.AddTxOut(theirChangeOutput)
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}
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_, fundingOutput, err := f.FundingOutput()
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if err != nil {
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return nil, err
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}
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// Sort the transaction. Since both side agree to a canonical ordering,
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// by sorting we no longer need to send the entire transaction. Only
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// signatures will be exchanged.
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fundingTx.AddTxOut(fundingOutput)
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txsort.InPlaceSort(fundingTx)
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// Now that the funding tx has been fully assembled, we'll locate the
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// index of the funding output so we can create our final channel
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// point.
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_, multiSigIndex := input.FindScriptOutputIndex(
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fundingTx, fundingOutput.PkScript,
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)
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// Next, sign all inputs that are ours, collecting the signatures in
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// order of the inputs.
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signDesc := input.SignDescriptor{
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HashType: txscript.SigHashAll,
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SigHashes: txscript.NewTxSigHashes(fundingTx),
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}
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for i, txIn := range fundingTx.TxIn {
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// We can only sign this input if it's ours, so we'll ask the
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// coin source if it can map this outpoint into a coin we own.
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// If not, then we'll continue as it isn't our input.
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info, err := f.coinSource.CoinFromOutPoint(
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txIn.PreviousOutPoint,
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)
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if err != nil {
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continue
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}
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// Now that we know the input is ours, we'll populate the
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// signDesc with the per input unique information.
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signDesc.Output = &wire.TxOut{
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Value: info.Value,
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PkScript: info.PkScript,
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}
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signDesc.InputIndex = i
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// Finally, we'll sign the input as is, and populate the input
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// with the witness and sigScript (if needed).
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inputScript, err := f.signer.ComputeInputScript(
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fundingTx, &signDesc,
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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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txIn.SignatureScript = inputScript.SigScript
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txIn.Witness = inputScript.Witness
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}
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// Finally, we'll populate the chanPoint now that we've fully
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// constructed the funding transaction.
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f.chanPoint = &wire.OutPoint{
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Hash: fundingTx.TxHash(),
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Index: multiSigIndex,
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}
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return fundingTx, nil
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}
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2021-01-10 23:06:47 +03:00
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// Inputs returns all inputs to the final funding transaction that we
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// know about. Since this funding transaction is created all from our wallet,
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// it will be all inputs.
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func (f *FullIntent) Inputs() []wire.OutPoint {
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var ins []wire.OutPoint
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for _, coin := range f.InputCoins {
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ins = append(ins, coin.OutPoint)
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}
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return ins
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}
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// Outputs returns all outputs of the final funding transaction that we
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// know about. This will be the funding output and the change outputs going
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// back to our wallet.
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func (f *FullIntent) Outputs() []*wire.TxOut {
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outs := f.ShimIntent.Outputs()
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outs = append(outs, f.ChangeOutputs...)
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return outs
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}
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2019-11-01 07:32:04 +03:00
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// Cancel allows the caller to cancel a funding Intent at any time. This will
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// return any resources such as coins back to the eligible pool to be used in
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// order channel fundings.
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//
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// NOTE: Part of the chanfunding.Intent interface.
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func (f *FullIntent) Cancel() {
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for _, coin := range f.InputCoins {
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f.coinLocker.UnlockOutpoint(coin.OutPoint)
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}
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f.ShimIntent.Cancel()
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}
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// A compile-time check to ensure FullIntent meets the Intent interface.
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var _ Intent = (*FullIntent)(nil)
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// WalletConfig is the main config of the WalletAssembler.
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type WalletConfig struct {
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// CoinSource is what the WalletAssembler uses to list/locate coins.
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CoinSource CoinSource
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// CoinSelectionLocker allows the WalletAssembler to gain exclusive
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// access to the current set of coins returned by the CoinSource.
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CoinSelectLocker CoinSelectionLocker
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// CoinLocker is what the WalletAssembler uses to lock coins that may
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// be used as inputs for a new funding transaction.
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CoinLocker OutpointLocker
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// Signer allows the WalletAssembler to sign inputs on any potential
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// funding transactions.
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Signer input.Signer
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// DustLimit is the current dust limit. We'll use this to ensure that
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// we don't make dust outputs on the funding transaction.
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DustLimit btcutil.Amount
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}
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// WalletAssembler is an instance of the Assembler interface that is backed by
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// a full wallet. This variant of the Assembler interface will produce the
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// entirety of the funding transaction within the wallet. This implements the
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// typical funding flow that is initiated either on the p2p level or using the
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// CLi.
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type WalletAssembler struct {
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cfg WalletConfig
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}
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// NewWalletAssembler creates a new instance of the WalletAssembler from a
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// fully populated wallet config.
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func NewWalletAssembler(cfg WalletConfig) *WalletAssembler {
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return &WalletAssembler{
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cfg: cfg,
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}
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}
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// ProvisionChannel is the main entry point to begin a funding workflow given a
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// fully populated request. The internal WalletAssembler will perform coin
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// selection in a goroutine safe manner, returning an Intent that will allow
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// the caller to finalize the funding process.
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//
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// NOTE: To cancel the funding flow the Cancel() method on the returned Intent,
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// MUST be called.
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//
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// NOTE: This is a part of the chanfunding.Assembler interface.
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func (w *WalletAssembler) ProvisionChannel(r *Request) (Intent, error) {
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var intent Intent
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// We hold the coin select mutex while querying for outputs, and
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// performing coin selection in order to avoid inadvertent double
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// spends across funding transactions.
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err := w.cfg.CoinSelectLocker.WithCoinSelectLock(func() error {
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log.Infof("Performing funding tx coin selection using %v "+
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"sat/kw as fee rate", int64(r.FeeRate))
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// Find all unlocked unspent witness outputs that satisfy the
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// minimum number of confirmations required.
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coins, err := w.cfg.CoinSource.ListCoins(
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r.MinConfs, math.MaxInt32,
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)
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if err != nil {
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return err
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}
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var (
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selectedCoins []Coin
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localContributionAmt btcutil.Amount
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changeAmt btcutil.Amount
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)
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// Perform coin selection over our available, unlocked unspent
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// outputs in order to find enough coins to meet the funding
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// amount requirements.
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switch {
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// If there's no funding amount at all (receiving an inbound
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// single funder request), then we don't need to perform any
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// coin selection at all.
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case r.LocalAmt == 0:
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break
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// In case this request want the fees subtracted from the local
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// amount, we'll call the specialized method for that. This
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// ensures that we won't deduct more that the specified balance
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// from our wallet.
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case r.SubtractFees:
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dustLimit := w.cfg.DustLimit
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selectedCoins, localContributionAmt, changeAmt, err = CoinSelectSubtractFees(
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r.FeeRate, r.LocalAmt, dustLimit, coins,
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)
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if err != nil {
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return err
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}
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// Otherwise do a normal coin selection where we target a given
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// funding amount.
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default:
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dustLimit := w.cfg.DustLimit
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2019-11-01 07:32:04 +03:00
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localContributionAmt = r.LocalAmt
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selectedCoins, changeAmt, err = CoinSelect(
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2021-04-13 12:37:06 +03:00
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r.FeeRate, r.LocalAmt, dustLimit, coins,
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2019-11-01 07:32:04 +03:00
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)
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if err != nil {
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return err
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}
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}
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2021-04-11 22:38:42 +03:00
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// Sanity check: The addition of the outputs should not lead to the
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// creation of dust.
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if changeAmt != 0 && changeAmt <= w.cfg.DustLimit {
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return fmt.Errorf("change amount(%v) after coin "+
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"select is below dust limit(%v)", changeAmt,
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w.cfg.DustLimit)
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}
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2019-11-01 07:32:04 +03:00
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// Record any change output(s) generated as a result of the
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// coin selection.
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2019-11-01 07:32:04 +03:00
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var changeOutput *wire.TxOut
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2021-04-11 22:38:42 +03:00
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if changeAmt != 0 {
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2019-11-01 07:32:04 +03:00
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changeAddr, err := r.ChangeAddr()
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if err != nil {
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return err
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}
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changeScript, err := txscript.PayToAddrScript(changeAddr)
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if err != nil {
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return err
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}
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changeOutput = &wire.TxOut{
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Value: int64(changeAmt),
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PkScript: changeScript,
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}
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}
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// Lock the selected coins. These coins are now "reserved",
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// this prevents concurrent funding requests from referring to
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// and this double-spending the same set of coins.
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for _, coin := range selectedCoins {
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outpoint := coin.OutPoint
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w.cfg.CoinLocker.LockOutpoint(outpoint)
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}
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newIntent := &FullIntent{
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ShimIntent: ShimIntent{
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localFundingAmt: localContributionAmt,
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remoteFundingAmt: r.RemoteAmt,
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},
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InputCoins: selectedCoins,
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coinLocker: w.cfg.CoinLocker,
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coinSource: w.cfg.CoinSource,
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signer: w.cfg.Signer,
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}
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if changeOutput != nil {
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newIntent.ChangeOutputs = []*wire.TxOut{changeOutput}
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}
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intent = newIntent
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return nil
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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 intent, nil
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}
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// FundingTxAvailable is an empty method that an assembler can implement to
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// signal to callers that its able to provide the funding transaction for the
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// channel via the intent it returns.
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//
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// NOTE: This method is a part of the FundingTxAssembler interface.
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func (w *WalletAssembler) FundingTxAvailable() {}
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// A compile-time assertion to ensure the WalletAssembler meets the
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// FundingTxAssembler interface.
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var _ FundingTxAssembler = (*WalletAssembler)(nil)
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