9f1d73d6d3
To support the cpfp fee bump use case where no external outputs are required.
423 lines
14 KiB
Go
423 lines
14 KiB
Go
// Copyright (c) 2020 The btcsuite developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package wallet
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import (
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"bytes"
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"fmt"
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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/psbt"
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"github.com/btcsuite/btcwallet/waddrmgr"
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"github.com/btcsuite/btcwallet/wallet/txauthor"
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"github.com/btcsuite/btcwallet/wallet/txrules"
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"github.com/btcsuite/btcwallet/walletdb"
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"github.com/btcsuite/btcwallet/wtxmgr"
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)
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// FundPsbt creates a fully populated PSBT packet that contains enough inputs to
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// fund the outputs specified in the passed in packet with the specified fee
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// rate. If there is change left, a change output from the wallet is added and
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// the index of the change output is returned. Otherwise no additional output
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// is created and the index -1 is returned.
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//
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// NOTE: If the packet doesn't contain any inputs, coin selection is performed
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// automatically, only selecting inputs from the account based on the given key
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// scope and account number. If a key scope is not specified, then inputs from
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// accounts matching the account number provided across all key scopes may be
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// selected. This is done to handle the default account case, where a user wants
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// to fund a PSBT with inputs regardless of their type (NP2WKH, P2WKH, etc.). If
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// the packet does contain any inputs, it is assumed that full coin selection
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// happened externally and no additional inputs are added. If the specified
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// inputs aren't enough to fund the outputs with the given fee rate, an error is
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// returned.
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//
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// NOTE: A caller of the method should hold the global coin selection lock of
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// the wallet. However, no UTXO specific lock lease is acquired for any of the
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// selected/validated inputs by this method. It is in the caller's
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// responsibility to lock the inputs before handing the partial transaction out.
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func (w *Wallet) FundPsbt(packet *psbt.Packet, keyScope *waddrmgr.KeyScope,
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account uint32, feeSatPerKB btcutil.Amount,
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coinSelectionStrategy CoinSelectionStrategy) (int32, error) {
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// Make sure the packet is well formed. We only require there to be at
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// least one input or output.
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err := psbt.VerifyInputOutputLen(packet, false, false)
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if err != nil {
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return 0, err
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}
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if len(packet.UnsignedTx.TxIn) == 0 && len(packet.UnsignedTx.TxOut) == 0 {
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return 0, fmt.Errorf("PSBT packet must contain at least one " +
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"input or output")
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}
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txOut := packet.UnsignedTx.TxOut
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txIn := packet.UnsignedTx.TxIn
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// Make sure none of the outputs are dust.
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for _, output := range txOut {
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// When checking an output for things like dusty-ness, we'll
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// use the default mempool relay fee rather than the target
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// effective fee rate to ensure accuracy. Otherwise, we may
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// mistakenly mark small-ish, but not quite dust output as
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// dust.
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err := txrules.CheckOutput(output, txrules.DefaultRelayFeePerKb)
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if err != nil {
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return 0, err
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}
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}
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// Let's find out the amount to fund first.
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amt := int64(0)
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for _, output := range txOut {
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amt += output.Value
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}
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// addInputInfo is a helper function that fetches the UTXO information
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// of an input and attaches it to the PSBT packet.
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addInputInfo := func(inputs []*wire.TxIn) error {
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packet.Inputs = make([]psbt.PInput, len(inputs))
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for idx, in := range inputs {
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tx, utxo, derivationPath, _, err := w.FetchInputInfo(
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&in.PreviousOutPoint,
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)
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if err != nil {
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return fmt.Errorf("error fetching UTXO: %v",
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err)
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}
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// As a fix for CVE-2020-14199 we have to always include
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// the full non-witness UTXO in the PSBT for segwit v0.
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packet.Inputs[idx].NonWitnessUtxo = tx
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// To make it more obvious that this is actually a
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// witness output being spent, we also add the same
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// information as the witness UTXO.
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packet.Inputs[idx].WitnessUtxo = &wire.TxOut{
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Value: utxo.Value,
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PkScript: utxo.PkScript,
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}
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packet.Inputs[idx].SighashType = txscript.SigHashAll
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// Include the derivation path for each input.
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packet.Inputs[idx].Bip32Derivation = []*psbt.Bip32Derivation{
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derivationPath,
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}
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// We don't want to include the witness or any script
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// on the unsigned TX just yet.
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packet.UnsignedTx.TxIn[idx].Witness = wire.TxWitness{}
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packet.UnsignedTx.TxIn[idx].SignatureScript = nil
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// For nested P2WKH we need to add the redeem script to
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// the input, otherwise an offline wallet won't be able
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// to sign for it. For normal P2WKH this will be nil.
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addr, witnessProgram, _, err := w.scriptForOutput(utxo)
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if err != nil {
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return fmt.Errorf("error fetching UTXO "+
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"script: %v", err)
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}
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if addr.AddrType() == waddrmgr.NestedWitnessPubKey {
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packet.Inputs[idx].RedeemScript = witnessProgram
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}
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}
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return nil
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}
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var tx *txauthor.AuthoredTx
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switch {
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// We need to do coin selection.
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case len(txIn) == 0:
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// We ask the underlying wallet to fund a TX for us. This
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// includes everything we need, specifically fee estimation and
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// change address creation.
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tx, err = w.CreateSimpleTx(
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keyScope, account, packet.UnsignedTx.TxOut, 1,
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feeSatPerKB, coinSelectionStrategy, false,
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)
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if err != nil {
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return 0, fmt.Errorf("error creating funding TX: %v",
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err)
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}
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// Copy over the inputs now then collect all UTXO information
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// that we can and attach them to the PSBT as well. We don't
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// include the witness as the resulting PSBT isn't expected not
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// should be signed yet.
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packet.UnsignedTx.TxIn = tx.Tx.TxIn
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err = addInputInfo(tx.Tx.TxIn)
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if err != nil {
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return 0, err
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}
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// If there are inputs, we need to check if they're sufficient and add
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// a change output if necessary.
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default:
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// Make sure all inputs provided are actually ours.
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err = addInputInfo(txIn)
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if err != nil {
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return 0, err
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}
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// We can leverage the fee calculation of the txauthor package
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// if we provide the selected UTXOs as a coin source. We just
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// need to make sure we always return the full list of user-
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// selected UTXOs rather than a subset, otherwise our change
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// amount will be off (in case the user selected multiple UTXOs
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// that are large enough on their own). That's why we use our
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// own static input source creator instead of the more generic
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// makeInputSource() that selects a subset that is "large
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// enough".
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credits := make([]wtxmgr.Credit, len(txIn))
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for idx, in := range txIn {
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utxo := packet.Inputs[idx].WitnessUtxo
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credits[idx] = wtxmgr.Credit{
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OutPoint: in.PreviousOutPoint,
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Amount: btcutil.Amount(utxo.Value),
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PkScript: utxo.PkScript,
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}
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}
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inputSource := constantInputSource(credits)
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// We also need a change source which needs to be able to insert
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// a new change addresse into the database.
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dbtx, err := w.db.BeginReadWriteTx()
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if err != nil {
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return 0, err
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}
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_, changeSource, err := w.addrMgrWithChangeSource(
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dbtx, keyScope, account,
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)
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if err != nil {
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return 0, err
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}
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// Ask the txauthor to create a transaction with our selected
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// coins. This will perform fee estimation and add a change
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// output if necessary.
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tx, err = txauthor.NewUnsignedTransaction(
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txOut, feeSatPerKB, inputSource, changeSource,
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)
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if err != nil {
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_ = dbtx.Rollback()
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return 0, fmt.Errorf("fee estimation not successful: "+
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"%v", err)
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}
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// The transaction could be created, let's commit the DB TX to
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// store the change address (if one was created).
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err = dbtx.Commit()
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if err != nil {
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return 0, fmt.Errorf("could not add change address to "+
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"database: %v", err)
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}
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}
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// If there is a change output, we need to copy it over to the PSBT now.
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var changeTxOut *wire.TxOut
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if tx.ChangeIndex >= 0 {
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changeTxOut = tx.Tx.TxOut[tx.ChangeIndex]
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packet.UnsignedTx.TxOut = append(
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packet.UnsignedTx.TxOut, changeTxOut,
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)
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packet.Outputs = append(packet.Outputs, psbt.POutput{})
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}
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// Now that we have the final PSBT ready, we can sort it according to
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// BIP 69. This will sort the wire inputs and outputs and move the
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// partial inputs and outputs accordingly.
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err = psbt.InPlaceSort(packet)
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if err != nil {
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return 0, fmt.Errorf("could not sort PSBT: %v", err)
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}
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// The change output index might have changed after the sorting. We need
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// to find our index again.
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changeIndex := int32(-1)
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if changeTxOut != nil {
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for idx, txOut := range packet.UnsignedTx.TxOut {
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if psbt.TxOutsEqual(changeTxOut, txOut) {
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changeIndex = int32(idx)
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break
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}
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}
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}
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return changeIndex, nil
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}
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// FinalizePsbt expects a partial transaction with all inputs and outputs fully
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// declared and tries to sign all inputs that belong to the wallet. Our wallet
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// must be the last signer of the transaction. That means, if there are any
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// unsigned non-witness inputs or inputs without UTXO information attached or
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// inputs without witness data that do not belong to the wallet, this method
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// will fail. If no error is returned, the PSBT is ready to be extracted and the
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// final TX within to be broadcast.
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//
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// NOTE: This method does NOT publish the transaction after it's been finalized
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// successfully.
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func (w *Wallet) FinalizePsbt(keyScope *waddrmgr.KeyScope, account uint32,
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packet *psbt.Packet) error {
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// Let's check that this is actually something we can and want to sign.
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// We need at least one input and one output.
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err := psbt.VerifyInputOutputLen(packet, true, true)
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if err != nil {
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return err
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}
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// Go through each input that doesn't have final witness data attached
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// to it already and try to sign it. We do expect that we're the last
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// ones to sign. If there is any input without witness data that we
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// cannot sign because it's not our UTXO, this will be a hard failure.
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tx := packet.UnsignedTx
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sigHashes := txscript.NewTxSigHashes(tx)
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for idx, txIn := range tx.TxIn {
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in := packet.Inputs[idx]
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// We can only sign if we have UTXO information available. We
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// can just continue here as a later step will fail with a more
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// precise error message.
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if in.WitnessUtxo == nil && in.NonWitnessUtxo == nil {
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continue
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}
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// Skip this input if it's got final witness data attached.
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if len(in.FinalScriptWitness) > 0 {
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continue
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}
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// We can only sign this input if it's ours, so we try to map it
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// to a coin we own. If we can't, then we'll continue as it
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// isn't our input.
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fullTx, txOut, _, _, err := w.FetchInputInfo(
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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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// Find out what UTXO we are signing. Wallets _should_ always
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// provide the full non-witness UTXO for segwit v0.
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var signOutput *wire.TxOut
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if in.NonWitnessUtxo != nil {
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prevIndex := txIn.PreviousOutPoint.Index
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signOutput = in.NonWitnessUtxo.TxOut[prevIndex]
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if !psbt.TxOutsEqual(txOut, signOutput) {
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return fmt.Errorf("found UTXO %#v but it "+
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"doesn't match PSBT's input %v", txOut,
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signOutput)
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}
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if fullTx.TxHash() != txIn.PreviousOutPoint.Hash {
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return fmt.Errorf("found UTXO tx %v but it "+
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"doesn't match PSBT's input %v",
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fullTx.TxHash(),
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txIn.PreviousOutPoint.Hash)
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}
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}
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// Fall back to witness UTXO only for older wallets.
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if in.WitnessUtxo != nil {
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signOutput = in.WitnessUtxo
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if !psbt.TxOutsEqual(txOut, signOutput) {
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return fmt.Errorf("found UTXO %#v but it "+
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"doesn't match PSBT's input %v", txOut,
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signOutput)
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}
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}
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// Finally, if the input doesn't belong to a watch-only account,
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// then we'll sign it as is, and populate the input with the
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// witness and sigScript (if needed).
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watchOnly := false
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err = walletdb.View(w.db, func(tx walletdb.ReadTx) error {
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ns := tx.ReadBucket(waddrmgrNamespaceKey)
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var err error
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if keyScope == nil {
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// If a key scope wasn't specified, then coin
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// selection was performed from the default
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// wallet accounts (NP2WKH, P2WKH), so any key
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// scope provided doesn't impact the result of
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// this call.
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watchOnly, err = w.Manager.IsWatchOnlyAccount(
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ns, waddrmgr.KeyScopeBIP0084, account,
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)
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} else {
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watchOnly, err = w.Manager.IsWatchOnlyAccount(
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ns, *keyScope, account,
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)
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}
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return err
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})
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if err != nil {
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return fmt.Errorf("unable to determine if account is "+
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"watch-only: %v", err)
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}
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if watchOnly {
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continue
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}
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witness, sigScript, err := w.ComputeInputScript(
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tx, signOutput, idx, sigHashes, in.SighashType, nil,
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)
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if err != nil {
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return fmt.Errorf("error computing input script for "+
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"input %d: %v", idx, err)
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}
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// Serialize the witness format from the stack representation to
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// the wire representation.
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var witnessBytes bytes.Buffer
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err = psbt.WriteTxWitness(&witnessBytes, witness)
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if err != nil {
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return fmt.Errorf("error serializing witness: %v", err)
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}
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packet.Inputs[idx].FinalScriptWitness = witnessBytes.Bytes()
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packet.Inputs[idx].FinalScriptSig = sigScript
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}
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// Make sure the PSBT itself thinks it's finalized and ready to be
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// broadcast.
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err = psbt.MaybeFinalizeAll(packet)
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if err != nil {
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return fmt.Errorf("error finalizing PSBT: %v", err)
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}
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return nil
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}
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// constantInputSource creates an input source function that always returns the
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// static set of user-selected UTXOs.
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func constantInputSource(eligible []wtxmgr.Credit) txauthor.InputSource {
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// Current inputs and their total value. These won't change over
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// different invocations as we want our inputs to remain static since
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// they're selected by the user.
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currentTotal := btcutil.Amount(0)
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currentInputs := make([]*wire.TxIn, 0, len(eligible))
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currentScripts := make([][]byte, 0, len(eligible))
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currentInputValues := make([]btcutil.Amount, 0, len(eligible))
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for _, credit := range eligible {
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nextInput := wire.NewTxIn(&credit.OutPoint, nil, nil)
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currentTotal += credit.Amount
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currentInputs = append(currentInputs, nextInput)
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currentScripts = append(currentScripts, credit.PkScript)
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currentInputValues = append(currentInputValues, credit.Amount)
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}
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return func(target btcutil.Amount) (btcutil.Amount, []*wire.TxIn,
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[]btcutil.Amount, [][]byte, error) {
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return currentTotal, currentInputs, currentInputValues,
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currentScripts, nil
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}
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}
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