mirror of
https://github.com/lightningnetwork/lnd.git
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8240a87c2b
`MineBlocksAndAssertNumTxes`
444 lines
16 KiB
Go
444 lines
16 KiB
Go
package itest
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import (
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"bytes"
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"fmt"
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"math"
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"github.com/btcsuite/btcd/btcutil"
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"github.com/btcsuite/btcd/btcutil/hdkeychain"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/btcsuite/btcd/txscript"
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"github.com/btcsuite/btcd/wire"
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"github.com/lightningnetwork/lnd/aezeed"
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"github.com/lightningnetwork/lnd/input"
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"github.com/lightningnetwork/lnd/lnrpc"
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"github.com/lightningnetwork/lnd/lnrpc/signrpc"
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"github.com/lightningnetwork/lnd/lnrpc/walletrpc"
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"github.com/lightningnetwork/lnd/lntest"
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"github.com/lightningnetwork/lnd/lntest/node"
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"github.com/lightningnetwork/lnd/lntest/wait"
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"github.com/lightningnetwork/lnd/lnwallet/chainfee"
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"github.com/stretchr/testify/require"
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)
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// testGetRecoveryInfo checks whether lnd gives the right information about
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// the wallet recovery process.
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func testGetRecoveryInfo(ht *lntest.HarnessTest) {
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// First, create a new node with strong passphrase and grab the mnemonic
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// used for key derivation. This will bring up Carol with an empty
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// wallet, and such that she is synced up.
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password := []byte("The Magic Words are Squeamish Ossifrage")
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carol, mnemonic, _ := ht.NewNodeWithSeed("Carol", nil, password, false)
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checkInfo := func(expectedRecoveryMode, expectedRecoveryFinished bool,
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expectedProgress float64, recoveryWindow int32) {
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// Restore Carol, passing in the password, mnemonic, and
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// desired recovery window.
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node := ht.RestoreNodeWithSeed(
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carol.Name(), nil, password, mnemonic, "",
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recoveryWindow, nil,
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)
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// Query carol for her current wallet recovery progress.
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err := wait.NoError(func() error {
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// Verify that recovery info gives the right response.
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resp := node.RPC.GetRecoveryInfo(nil)
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mode := resp.RecoveryMode
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finished := resp.RecoveryFinished
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progress := resp.Progress
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if mode != expectedRecoveryMode {
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return fmt.Errorf("expected recovery mode %v "+
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"got %v", expectedRecoveryMode, mode)
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}
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if finished != expectedRecoveryFinished {
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return fmt.Errorf("expected finished %v "+
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"got %v", expectedRecoveryFinished,
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finished)
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}
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if progress != expectedProgress {
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return fmt.Errorf("expected progress %v"+
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"got %v", expectedProgress, progress)
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}
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return nil
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}, defaultTimeout)
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require.NoError(ht, err)
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// Lastly, shutdown this Carol so we can move on to the next
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// restoration.
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ht.Shutdown(node)
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}
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// Restore Carol with a recovery window of 0. Since it's not in recovery
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// mode, the recovery info will give a response with recoveryMode=false,
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// recoveryFinished=false, and progress=0
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checkInfo(false, false, 0, 0)
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// Change the recovery windown to be 1 to turn on recovery mode. Since
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// the current chain height is the same as the birthday height, it
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// should indicate the recovery process is finished.
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checkInfo(true, true, 1, 1)
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// We now go ahead 5 blocks. Because the wallet's syncing process is
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// controlled by a goroutine in the background, it will catch up
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// quickly. This makes the recovery progress back to 1.
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ht.MineBlocks(5)
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checkInfo(true, true, 1, 1)
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}
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// testOnchainFundRecovery checks lnd's ability to rescan for onchain outputs
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// when providing a valid aezeed that owns outputs on the chain. This test
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// performs multiple restorations using the same seed and various recovery
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// windows to ensure we detect funds properly.
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func testOnchainFundRecovery(ht *lntest.HarnessTest) {
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// First, create a new node with strong passphrase and grab the mnemonic
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// used for key derivation. This will bring up Carol with an empty
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// wallet, and such that she is synced up.
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password := []byte("The Magic Words are Squeamish Ossifrage")
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carol, mnemonic, _ := ht.NewNodeWithSeed("Carol", nil, password, false)
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// As long as the mnemonic is non-nil and the extended key is empty, the
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// closure below will always restore the node from the seed. The tests
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// need to manually overwrite this value to change that behavior.
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rootKey := ""
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// Create a closure for testing the recovery of Carol's wallet. This
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// method takes the expected value of Carol's balance when using the
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// given recovery window. Additionally, the caller can specify an action
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// to perform on the restored node before the node is shutdown.
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restoreCheckBalance := func(expAmount int64, expectedNumUTXOs uint32,
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recoveryWindow int32, fn func(*node.HarnessNode)) {
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ht.Helper()
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// Restore Carol, passing in the password, mnemonic, and
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// desired recovery window.
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node := ht.RestoreNodeWithSeed(
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carol.Name(), nil, password, mnemonic, rootKey,
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recoveryWindow, nil,
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)
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// Query carol for her current wallet balance, and also that we
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// gain the expected number of UTXOs.
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var (
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currBalance int64
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currNumUTXOs uint32
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)
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err := wait.NoError(func() error {
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resp := node.RPC.WalletBalance()
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currBalance = resp.ConfirmedBalance
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req := &walletrpc.ListUnspentRequest{
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Account: "",
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MaxConfs: math.MaxInt32,
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MinConfs: 0,
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}
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utxoResp := node.RPC.ListUnspent(req)
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currNumUTXOs = uint32(len(utxoResp.Utxos))
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// Verify that Carol's balance and number of UTXOs
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// matches what's expected.
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if expAmount != currBalance {
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return fmt.Errorf("balance not matched, want "+
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"%d, got %d", expAmount, currBalance)
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}
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if currNumUTXOs != expectedNumUTXOs {
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return fmt.Errorf("num of UTXOs not matched, "+
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"want %d, got %d", expectedNumUTXOs,
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currNumUTXOs)
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}
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return nil
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}, defaultTimeout)
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require.NoError(ht, err, "timeout checking Carol")
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// If the user provided a callback, execute the commands against
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// the restored Carol.
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if fn != nil {
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fn(node)
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}
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// Lastly, shutdown this Carol so we can move on to the next
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// restoration.
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ht.Shutdown(node)
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}
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// Create a closure-factory for building closures that can generate and
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// skip a configurable number of addresses, before finally sending coins
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// to a next generated address. The returned closure will apply the same
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// behavior to both default P2WKH and NP2WKH scopes.
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skipAndSend := func(nskip int) func(*node.HarnessNode) {
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return func(node *node.HarnessNode) {
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ht.Helper()
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// Generate and skip the number of addresses requested.
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for i := 0; i < nskip; i++ {
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req := &lnrpc.NewAddressRequest{}
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req.Type = AddrTypeWitnessPubkeyHash
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node.RPC.NewAddress(req)
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req.Type = AddrTypeNestedPubkeyHash
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node.RPC.NewAddress(req)
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req.Type = AddrTypeTaprootPubkey
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node.RPC.NewAddress(req)
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}
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// Send one BTC to the next P2WKH address.
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ht.FundCoins(btcutil.SatoshiPerBitcoin, node)
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// And another to the next NP2WKH address.
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ht.FundCoinsNP2WKH(btcutil.SatoshiPerBitcoin, node)
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// Add another whole coin to the P2TR address.
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ht.FundCoinsP2TR(btcutil.SatoshiPerBitcoin, node)
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}
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}
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// Restore Carol with a recovery window of 0. Since no coins have been
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// sent, her balance should be zero.
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//
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// After, one BTC is sent to both her first external P2WKH and NP2WKH
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// addresses.
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restoreCheckBalance(0, 0, 0, skipAndSend(0))
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// Check that restoring without a look-ahead results in having no funds
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// in the wallet, even though they exist on-chain.
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restoreCheckBalance(0, 0, 0, nil)
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// Now, check that using a look-ahead of 1 recovers the balance from
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// the two transactions above. We should also now have 2 UTXOs in the
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// wallet at the end of the recovery attempt.
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//
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// After, we will generate and skip 9 P2WKH, NP2WKH and P2TR addresses,
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// and send another BTC to the subsequent 10th address in each
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// derivation path.
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restoreCheckBalance(3*btcutil.SatoshiPerBitcoin, 3, 1, skipAndSend(9))
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// Check that using a recovery window of 9 does not find the two most
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// recent txns.
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restoreCheckBalance(3*btcutil.SatoshiPerBitcoin, 3, 9, nil)
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// Extending our recovery window to 10 should find the most recent
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// transactions, leaving the wallet with 6 BTC total. We should also
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// learn of the two additional UTXOs created above.
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//
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// After, we will skip 19 more addrs, sending to the 20th address past
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// our last found address, and repeat the same checks.
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restoreCheckBalance(6*btcutil.SatoshiPerBitcoin, 6, 10, skipAndSend(19))
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// Check that recovering with a recovery window of 19 fails to find the
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// most recent transactions.
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restoreCheckBalance(6*btcutil.SatoshiPerBitcoin, 6, 19, nil)
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// Ensure that using a recovery window of 20 succeeds with all UTXOs
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// found and the final balance reflected.
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// After these checks are done, we'll want to make sure we can also
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// recover change address outputs. This is mainly motivated by a now
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// fixed bug in the wallet in which change addresses could at times be
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// created outside of the default key scopes. Recovery only used to be
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// performed on the default key scopes, so ideally this test case
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// would've caught the bug earlier. Carol has received 9 BTC so far from
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// the miner, we'll send 8 back to ensure all of her UTXOs get spent to
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// avoid fee discrepancies and a change output is formed.
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const minerAmt = 8 * btcutil.SatoshiPerBitcoin
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const finalBalance = 9 * btcutil.SatoshiPerBitcoin
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promptChangeAddr := func(node *node.HarnessNode) {
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ht.Helper()
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minerAddr := ht.NewMinerAddress()
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req := &lnrpc.SendCoinsRequest{
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Addr: minerAddr.String(),
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Amount: minerAmt,
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TargetConf: 6,
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}
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resp := node.RPC.SendCoins(req)
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txid := ht.AssertNumTxsInMempool(1)[0]
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require.Equal(ht, txid.String(), resp.Txid)
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block := ht.MineBlocksAndAssertNumTxes(1, 1)[0]
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ht.AssertTxInBlock(block, txid)
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}
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restoreCheckBalance(finalBalance, 9, 20, promptChangeAddr)
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// We should expect a static fee of 36400 satoshis for spending 9
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// inputs (3 P2WPKH, 3 NP2WPKH, 3 P2TR) to two P2TR outputs. Carol
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// should therefore only have one UTXO present (the change output) of
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// 9 - 8 - fee BTC.
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const fee = 37000
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restoreCheckBalance(finalBalance-minerAmt-fee, 1, 21, nil)
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// Last of all, make sure we can also restore a node from the extended
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// master root key directly instead of the seed.
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var seedMnemonic aezeed.Mnemonic
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copy(seedMnemonic[:], mnemonic)
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cipherSeed, err := seedMnemonic.ToCipherSeed(password)
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require.NoError(ht, err)
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extendedRootKey, err := hdkeychain.NewMaster(
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cipherSeed.Entropy[:], harnessNetParams,
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)
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require.NoError(ht, err)
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rootKey = extendedRootKey.String()
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mnemonic = nil
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restoreCheckBalance(finalBalance-minerAmt-fee, 1, 21, nil)
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}
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// testRescanAddressDetection makes sure that addresses created from internal
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// (m/1017' scope) keys aren't detected as UTXOs when re-scanning the wallet
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// with --reset-wallet-transactions to avoid showing them as un-spent ghost
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// UTXOs even if they are being spent. This is to test a fix in the wallet that
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// addresses the following scenario:
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// 1. A key is derived from the internal 1017' scope with a custom key family
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// and a p2wkh address is derived from that key.
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// 2. Funds are sent to the address created above in a way that also creates a
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// change output. The change output is recognized as belonging to the
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// wallet, which is correct.
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// 3. The funds on the address created in step 1 are fully spent (without
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// creating a change output) into an output that doesn't belong to the
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// wallet (e.g. a channel funding output).
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// 4. At some point the user re-scans their wallet by using the
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// --reset-wallet-transactions flag.
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// 5. The wallet re-scan detects the change output created in step 2 and flags
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// the transaction as relevant.
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// 6. While adding the relevant TX to the wallet DB, the wallet also detects
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// the address from step 1 as belonging to the wallet (because the internal
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// key scope is defined as having the address type p2wkh) and adds that
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// output as an UTXO as well (<- this is the bug). The wallet now has two
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// UTXOs in its database.
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// 7. The transaction that spends the UTXO of the address from step 1 is not
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// detected by the wallet as belonging to it (because the output is a
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// channel output and the input (correctly) isn't recognized as belonging to
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// the wallet in that part of the code, it is never marked as spent and
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// stays in the wallet as a ghost UTXO forever.
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//
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// The fix in the wallet is simple: In step 6, don't detect addresses from
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// internal scopes while re-scanning to be in line with the logic in other areas
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// of the wallet code.
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func testRescanAddressDetection(ht *lntest.HarnessTest) {
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// We start off by creating a new node with the wallet re-scan flag
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// enabled. This won't have any effect on the first startup but will
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// come into effect after we re-start the node.
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walletPassword := []byte("some-password")
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carol, _, _ := ht.NewNodeWithSeed(
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"carol", []string{"--reset-wallet-transactions"},
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walletPassword, false,
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)
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ht.FundCoins(btcutil.SatoshiPerBitcoin, carol)
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// Create an address generated from internal keys.
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keyDesc := carol.RPC.DeriveNextKey(&walletrpc.KeyReq{KeyFamily: 123})
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pubKeyHash := btcutil.Hash160(keyDesc.RawKeyBytes)
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ghostUtxoAddr, err := btcutil.NewAddressWitnessPubKeyHash(
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pubKeyHash, harnessNetParams,
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)
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require.NoError(ht, err)
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// Send funds to the (p2wkh!) address generated from the internal
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// (m/1017') key scope. Because the internal key scope is defined as
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// p2wkh address type, this might be incorrectly detected by the wallet
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// in some situations (which this test makes sure is fixed).
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const ghostUtxoAmount = 456_000
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carol.RPC.SendCoins(&lnrpc.SendCoinsRequest{
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Addr: ghostUtxoAddr.String(),
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Amount: ghostUtxoAmount,
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SatPerVbyte: 1,
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})
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ht.MineBlocksAndAssertNumTxes(1, 1)
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// Make sure we see the change output in our list of unspent outputs.
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// We _don't_ expect to see the ghost UTXO here as in this step it's
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// ignored as an internal address correctly.
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ht.AssertNumUTXOsConfirmed(carol, 1)
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unspent := carol.RPC.ListUnspent(&walletrpc.ListUnspentRequest{
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MinConfs: 1,
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})
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// Which one was the change output and which one the ghost UTXO output?
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var ghostUtxoIndex uint32
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if unspent.Utxos[0].Outpoint.OutputIndex == 0 {
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ghostUtxoIndex = 1
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}
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ghostUtxoHash, err := chainhash.NewHash(
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unspent.Utxos[0].Outpoint.TxidBytes,
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)
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require.NoError(ht, err)
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burnScript, _ := ht.CreateBurnAddr(AddrTypeWitnessPubkeyHash)
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// Create fee estimation for a p2wkh input and p2wkh output.
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feeRate := chainfee.SatPerKWeight(12500)
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estimator := input.TxWeightEstimator{}
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estimator.AddP2WKHInput()
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estimator.AddP2WKHOutput()
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estimatedWeight := estimator.Weight()
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requiredFee := feeRate.FeeForWeight(estimatedWeight)
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tx := wire.NewMsgTx(2)
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tx.TxIn = []*wire.TxIn{{
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PreviousOutPoint: wire.OutPoint{
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Hash: *ghostUtxoHash,
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Index: ghostUtxoIndex,
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},
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}}
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value := int64(ghostUtxoAmount - requiredFee)
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tx.TxOut = []*wire.TxOut{{
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PkScript: burnScript,
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Value: value,
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}}
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var buf bytes.Buffer
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require.NoError(ht, tx.Serialize(&buf))
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ghostUtxoScript := ht.PayToAddrScript(ghostUtxoAddr)
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utxoInfo := []*signrpc.TxOut{{
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PkScript: ghostUtxoScript,
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Value: ghostUtxoAmount,
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}}
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// Let's sign the input now.
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signResp := carol.RPC.SignOutputRaw(&signrpc.SignReq{
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RawTxBytes: buf.Bytes(),
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SignDescs: []*signrpc.SignDescriptor{{
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Output: utxoInfo[0],
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InputIndex: 0,
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KeyDesc: keyDesc,
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Sighash: uint32(txscript.SigHashAll),
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WitnessScript: utxoInfo[0].PkScript,
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}},
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})
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// Add the witness to the input and publish the tx.
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tx.TxIn[0].Witness = wire.TxWitness{
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append(signResp.RawSigs[0], byte(txscript.SigHashAll)),
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keyDesc.RawKeyBytes,
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}
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buf.Reset()
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require.NoError(ht, tx.Serialize(&buf))
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carol.RPC.PublishTransaction(&walletrpc.Transaction{
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TxHex: buf.Bytes(),
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})
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// Wait until the spending tx is found and mine a block to confirm it.
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ht.MineBlocksAndAssertNumTxes(1, 1)
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// The wallet should still just see a single UTXO of the change output
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// created earlier.
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ht.AssertNumUTXOsConfirmed(carol, 1)
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// Let's now re-start the node, causing it to do the wallet re-scan.
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ht.RestartNode(carol)
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// There should now still only be a single UTXO from the change output
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// instead of two (the ghost UTXO should be missing if the fix works).
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ht.AssertNumUTXOsConfirmed(carol, 1)
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}
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