package itest import ( "bytes" "context" "crypto/rand" "fmt" "math" "testing" "time" "github.com/btcsuite/btcd/chaincfg/chainhash" "github.com/btcsuite/btcd/txscript" "github.com/btcsuite/btcd/wire" "github.com/btcsuite/btcutil" "github.com/btcsuite/btcutil/hdkeychain" "github.com/btcsuite/btcwallet/waddrmgr" "github.com/davecgh/go-spew/spew" "github.com/lightningnetwork/lnd/funding" "github.com/lightningnetwork/lnd/lnrpc" "github.com/lightningnetwork/lnd/lnrpc/walletrpc" "github.com/lightningnetwork/lnd/lntest" "github.com/lightningnetwork/lnd/lntest/wait" "github.com/lightningnetwork/lnd/lnwallet" "github.com/stretchr/testify/require" ) const ( defaultAccount = lnwallet.DefaultAccountName defaultImportedAccount = waddrmgr.ImportedAddrAccountName ) // walletToLNAddrType maps walletrpc.AddressType to lnrpc.AddressType. func walletToLNAddrType(t *testing.T, addrType walletrpc.AddressType) lnrpc.AddressType { switch addrType { case walletrpc.AddressType_NESTED_WITNESS_PUBKEY_HASH, walletrpc.AddressType_HYBRID_NESTED_WITNESS_PUBKEY_HASH: return lnrpc.AddressType_NESTED_PUBKEY_HASH case walletrpc.AddressType_WITNESS_PUBKEY_HASH: return lnrpc.AddressType_WITNESS_PUBKEY_HASH default: t.Fatalf("unhandled addr type %v", addrType) return 0 } } // newExternalAddr generates a new external address of an imported account for a // pair of nodes, where one acts as the funder and the other as the signer. func newExternalAddr(t *testing.T, funder, signer *lntest.HarnessNode, importedAccount string, addrType walletrpc.AddressType) string { // We'll generate a new address for Carol from Dave's node to receive // and fund a new channel. ctxb := context.Background() ctxt, cancel := context.WithTimeout(ctxb, defaultTimeout) defer cancel() funderResp, err := funder.NewAddress(ctxt, &lnrpc.NewAddressRequest{ Type: walletToLNAddrType(t, addrType), Account: importedAccount, }) require.NoError(t, err) // Carol also needs to generate the address for the sake of this test to // be able to sign the channel funding input. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() signerResp, err := signer.NewAddress(ctxt, &lnrpc.NewAddressRequest{ Type: walletToLNAddrType(t, addrType), }) require.NoError(t, err) // Sanity check that the generated addresses match. require.Equal(t, funderResp.Address, signerResp.Address) assertExternalAddrType(t, funderResp.Address, addrType) return funderResp.Address } // assertExternalAddrType asserts that an external address generated for an // imported account is of the expected type. func assertExternalAddrType(t *testing.T, addrStr string, accountAddrType walletrpc.AddressType) { addr, err := btcutil.DecodeAddress(addrStr, harnessNetParams) require.NoError(t, err) switch accountAddrType { case walletrpc.AddressType_WITNESS_PUBKEY_HASH: require.IsType(t, addr, &btcutil.AddressWitnessPubKeyHash{}) case walletrpc.AddressType_NESTED_WITNESS_PUBKEY_HASH, walletrpc.AddressType_HYBRID_NESTED_WITNESS_PUBKEY_HASH: require.IsType(t, addr, &btcutil.AddressScriptHash{}) default: t.Fatalf("unsupported account addr type %v", accountAddrType) } } // assertOutputScriptType asserts that a transaction's output, indicated by the // output with the given amount, has a script of the expected type. This assumes // all transaction outputs have unique amounts. func assertOutputScriptType(t *testing.T, expType txscript.ScriptClass, tx *wire.MsgTx, outputAmt int64) { for _, txOut := range tx.TxOut { if txOut.Value != outputAmt { continue } pkScript, err := txscript.ParsePkScript(txOut.PkScript) require.NoError(t, err) require.Equal(t, expType, pkScript.Class()) return } // No output with the given amount was found. t.Fatalf("output with amount %v not found in transaction %v", outputAmt, spew.Sdump(tx)) } // assertAccountBalance asserts that the unconfirmed and confirmed balance for // the given account is satisfied by the WalletBalance and ListUnspent RPCs. The // unconfirmed balance is not checked for neutrino nodes. func assertAccountBalance(t *testing.T, node *lntest.HarnessNode, account string, confirmedBalance, unconfirmedBalance int64) { err := wait.NoError(func() error { balanceResp, err := node.WalletBalance( context.Background(), &lnrpc.WalletBalanceRequest{}, ) if err != nil { return err } require.Contains(t, balanceResp.AccountBalance, account) accountBalance := balanceResp.AccountBalance[account] // Check confirmed balance. if accountBalance.ConfirmedBalance != confirmedBalance { return fmt.Errorf("expected confirmed balance %v, "+ "got %v", confirmedBalance, accountBalance.ConfirmedBalance) } listUtxosReq := &lnrpc.ListUnspentRequest{ MinConfs: 1, MaxConfs: math.MaxInt32, Account: account, } confirmedUtxosResp, err := node.ListUnspent( context.Background(), listUtxosReq, ) if err != nil { return err } var totalConfirmedVal int64 for _, utxo := range confirmedUtxosResp.Utxos { totalConfirmedVal += utxo.AmountSat } if totalConfirmedVal != confirmedBalance { return fmt.Errorf("expected total confirmed utxo "+ "balance %v, got %v", confirmedBalance, totalConfirmedVal) } // Skip unconfirmed balance checks for neutrino nodes. if node.Cfg.BackendCfg.Name() == lntest.NeutrinoBackendName { return nil } // Check unconfirmed balance. if accountBalance.UnconfirmedBalance != unconfirmedBalance { return fmt.Errorf("expected unconfirmed balance %v, "+ "got %v", unconfirmedBalance, accountBalance.UnconfirmedBalance) } listUtxosReq.MinConfs = 0 listUtxosReq.MaxConfs = 0 unconfirmedUtxosResp, err := node.ListUnspent( context.Background(), listUtxosReq, ) require.NoError(t, err) var totalUnconfirmedVal int64 for _, utxo := range unconfirmedUtxosResp.Utxos { totalUnconfirmedVal += utxo.AmountSat } if totalUnconfirmedVal != unconfirmedBalance { return fmt.Errorf("expected total unconfirmed utxo "+ "balance %v, got %v", unconfirmedBalance, totalUnconfirmedVal) } return nil }, defaultTimeout) require.NoError(t, err) } // psbtSendFromImportedAccount attempts to fund a PSBT from the given imported // account, originating from the source node to the destination. func psbtSendFromImportedAccount(t *harnessTest, srcNode, destNode, signer *lntest.HarnessNode, account string, accountAddrType walletrpc.AddressType) { ctxb := context.Background() ctxt, cancel := context.WithTimeout(ctxb, defaultTimeout) defer cancel() balanceResp, err := srcNode.WalletBalance(ctxt, &lnrpc.WalletBalanceRequest{}) require.NoError(t.t, err) require.Contains(t.t, balanceResp.AccountBalance, account) confBalance := balanceResp.AccountBalance[account].ConfirmedBalance destAmt := confBalance - 10000 ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() destAddrResp, err := destNode.NewAddress(ctxt, &lnrpc.NewAddressRequest{ Type: lnrpc.AddressType_WITNESS_PUBKEY_HASH, }) require.NoError(t.t, err) ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() fundReq := &walletrpc.FundPsbtRequest{ Template: &walletrpc.FundPsbtRequest_Raw{ Raw: &walletrpc.TxTemplate{ Outputs: map[string]uint64{ destAddrResp.Address: uint64(destAmt), }, }, }, Fees: &walletrpc.FundPsbtRequest_SatPerVbyte{ SatPerVbyte: 1, }, Account: account, } fundResp, err := srcNode.WalletKitClient.FundPsbt(ctxt, fundReq) require.NoError(t.t, err) // Have Carol sign the PSBT input since Dave doesn't have any private // key information. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() finalizeReq := &walletrpc.FinalizePsbtRequest{ FundedPsbt: fundResp.FundedPsbt, } finalizeResp, err := signer.WalletKitClient.FinalizePsbt(ctxt, finalizeReq) require.NoError(t.t, err) // With the PSBT signed, we can broadcast the resulting transaction. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() publishReq := &walletrpc.Transaction{ TxHex: finalizeResp.RawFinalTx, } _, err = srcNode.WalletKitClient.PublishTransaction(ctxt, publishReq) require.NoError(t.t, err) // Carol's balance from Dave's perspective should update accordingly. var ( expTxFee int64 expChangeScriptType txscript.ScriptClass ) switch accountAddrType { case walletrpc.AddressType_WITNESS_PUBKEY_HASH: expTxFee = 141 expChangeScriptType = txscript.WitnessV0PubKeyHashTy case walletrpc.AddressType_NESTED_WITNESS_PUBKEY_HASH: if account != defaultImportedAccount { expTxFee = 165 expChangeScriptType = txscript.ScriptHashTy break } // Spends from the default NP2WKH imported account have the same // fee rate as the hybrid address type since a NP2WKH input is // spent and a P2WKH change output is created. fallthrough case walletrpc.AddressType_HYBRID_NESTED_WITNESS_PUBKEY_HASH: expTxFee = 164 expChangeScriptType = txscript.WitnessV0PubKeyHashTy default: t.Fatalf("unsupported addr type %v", accountAddrType) } changeUtxoAmt := confBalance - destAmt - expTxFee // If the transaction was created from the default imported account, // then any change produced is moved to the default wallet account. accountWithBalance := account if account == defaultImportedAccount { accountWithBalance = defaultAccount } assertAccountBalance(t.t, srcNode, accountWithBalance, 0, changeUtxoAmt) _ = mineBlocks(t, t.lndHarness, 1, 1) assertAccountBalance(t.t, srcNode, accountWithBalance, changeUtxoAmt, 0) // Finally, assert that the transaction has the expected change address // type based on the account. var tx wire.MsgTx err = tx.Deserialize(bytes.NewReader(finalizeResp.RawFinalTx)) require.NoError(t.t, err) assertOutputScriptType(t.t, expChangeScriptType, &tx, changeUtxoAmt) } // fundChanAndCloseFromImportedAccount attempts to a fund a channel from the // given imported account, originating from the source node to the destination // node. To ensure the channel is operational before closing it, a test payment // is made. Several balance assertions are made along the way for the sake of // correctness. func fundChanAndCloseFromImportedAccount(t *harnessTest, srcNode, destNode, signer *lntest.HarnessNode, account string, accountAddrType walletrpc.AddressType, utxoAmt, chanSize int64) { ctxb := context.Background() // Retrieve the current confirmed balance to make some assertions later // on. ctxt, cancel := context.WithTimeout(ctxb, defaultTimeout) defer cancel() balanceResp, err := srcNode.WalletBalance(ctxt, &lnrpc.WalletBalanceRequest{}) require.NoError(t.t, err) require.Contains(t.t, balanceResp.AccountBalance, account) accountConfBalance := balanceResp. AccountBalance[account].ConfirmedBalance defaultAccountConfBalance := balanceResp. AccountBalance[defaultAccount].ConfirmedBalance // Now, start the channel funding process. We'll need to connect both // nodes first. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() t.lndHarness.EnsureConnected(ctxt, t.t, srcNode, destNode) // The source node will then fund the channel through a PSBT shim. var pendingChanID [32]byte _, err = rand.Read(pendingChanID[:]) require.NoError(t.t, err) ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() chanUpdates, rawPsbt, err := openChannelPsbt( ctxt, srcNode, destNode, lntest.OpenChannelParams{ Amt: btcutil.Amount(chanSize), FundingShim: &lnrpc.FundingShim{ Shim: &lnrpc.FundingShim_PsbtShim{ PsbtShim: &lnrpc.PsbtShim{ PendingChanId: pendingChanID[:], }, }, }, }, ) require.NoError(t.t, err) ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() fundReq := &walletrpc.FundPsbtRequest{ Template: &walletrpc.FundPsbtRequest_Psbt{ Psbt: rawPsbt, }, Fees: &walletrpc.FundPsbtRequest_SatPerVbyte{ SatPerVbyte: 1, }, Account: account, } fundResp, err := srcNode.WalletKitClient.FundPsbt(ctxt, fundReq) require.NoError(t.t, err) _, err = srcNode.FundingStateStep(ctxb, &lnrpc.FundingTransitionMsg{ Trigger: &lnrpc.FundingTransitionMsg_PsbtVerify{ PsbtVerify: &lnrpc.FundingPsbtVerify{ PendingChanId: pendingChanID[:], FundedPsbt: fundResp.FundedPsbt, }, }, }) require.NoError(t.t, err) // Now that we have a PSBT to fund the channel, our signer needs to sign // it. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() finalizeReq := &walletrpc.FinalizePsbtRequest{ FundedPsbt: fundResp.FundedPsbt, } finalizeResp, err := signer.WalletKitClient.FinalizePsbt(ctxt, finalizeReq) require.NoError(t.t, err) // The source node can then submit the signed PSBT and complete the // channel funding process. _, err = srcNode.FundingStateStep(ctxb, &lnrpc.FundingTransitionMsg{ Trigger: &lnrpc.FundingTransitionMsg_PsbtFinalize{ PsbtFinalize: &lnrpc.FundingPsbtFinalize{ PendingChanId: pendingChanID[:], SignedPsbt: finalizeResp.SignedPsbt, }, }, }) require.NoError(t.t, err) // We should receive a notification of the channel funding transaction // being broadcast. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() updateResp, err := receiveChanUpdate(ctxt, chanUpdates) require.NoError(t.t, err) upd, ok := updateResp.Update.(*lnrpc.OpenStatusUpdate_ChanPending) require.True(t.t, ok) // Mine enough blocks to announce the channel to the network, making // balance assertions along the way. var ( expChanTxFee int64 expChangeScriptType txscript.ScriptClass ) switch accountAddrType { case walletrpc.AddressType_WITNESS_PUBKEY_HASH: expChanTxFee = 153 expChangeScriptType = txscript.WitnessV0PubKeyHashTy case walletrpc.AddressType_NESTED_WITNESS_PUBKEY_HASH: if account != defaultImportedAccount { expChanTxFee = 177 expChangeScriptType = txscript.ScriptHashTy break } // Spends from the default NP2WKH imported account have the same // fee rate as the hybrid address type since a NP2WKH input is // spent and a P2WKH change output is created. fallthrough case walletrpc.AddressType_HYBRID_NESTED_WITNESS_PUBKEY_HASH: expChanTxFee = 176 expChangeScriptType = txscript.WitnessV0PubKeyHashTy default: t.Fatalf("unsupported addr type %v", accountAddrType) } chanChangeUtxoAmt := utxoAmt - chanSize - expChanTxFee txHash, err := chainhash.NewHash(upd.ChanPending.Txid) require.NoError(t.t, err) // If we're spending from the default imported account, then any change // outputs produced are moved to the default wallet account, so we // should expect to see balances there. var confBalanceAfterChan int64 if account == defaultImportedAccount { confBalanceAfterChan = defaultAccountConfBalance assertAccountBalance(t.t, srcNode, account, 0, 0) assertAccountBalance( t.t, srcNode, defaultAccount, defaultAccountConfBalance, chanChangeUtxoAmt, ) block := mineBlocks(t, t.lndHarness, 6, 1)[0] assertTxInBlock(t, block, txHash) confBalanceAfterChan += chanChangeUtxoAmt assertAccountBalance(t.t, srcNode, account, 0, 0) assertAccountBalance( t.t, srcNode, defaultAccount, confBalanceAfterChan, 0, ) } else { // Otherwise, all interactions remain within Carol's imported // account. confBalanceAfterChan = accountConfBalance - utxoAmt assertAccountBalance( t.t, srcNode, account, confBalanceAfterChan, chanChangeUtxoAmt, ) block := mineBlocks(t, t.lndHarness, 6, 1)[0] assertTxInBlock(t, block, txHash) confBalanceAfterChan += chanChangeUtxoAmt assertAccountBalance( t.t, srcNode, account, confBalanceAfterChan, 0, ) } // Assert that the transaction has the expected change address type // based on the account. var tx wire.MsgTx err = tx.Deserialize(bytes.NewReader(finalizeResp.RawFinalTx)) require.NoError(t.t, err) assertOutputScriptType(t.t, expChangeScriptType, &tx, chanChangeUtxoAmt) // Wait for the channel to be announced by both parties. chanPoint := &lnrpc.ChannelPoint{ FundingTxid: &lnrpc.ChannelPoint_FundingTxidBytes{ FundingTxidBytes: upd.ChanPending.Txid, }, OutputIndex: upd.ChanPending.OutputIndex, } ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() err = srcNode.WaitForNetworkChannelOpen(ctxt, chanPoint) require.NoError(t.t, err) err = destNode.WaitForNetworkChannelOpen(ctxt, chanPoint) require.NoError(t.t, err) // Send a test payment to ensure the channel is operating as normal. const invoiceAmt = 100000 ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() resp, err := destNode.AddInvoice(ctxt, &lnrpc.Invoice{ Memo: "psbt import chan", Value: invoiceAmt, }) require.NoError(t.t, err) ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() err = completePaymentRequests( ctxt, srcNode, srcNode.RouterClient, []string{resp.PaymentRequest}, true, ) require.NoError(t.t, err) // Now that we've confirmed the opened channel works, we'll close it. ctxt, cancel = context.WithTimeout(ctxb, channelCloseTimeout) defer cancel() closeChannelAndAssert(ctxt, t, t.lndHarness, srcNode, chanPoint, false) // Since the channel still had funds left on the source node's side, // they must've been redeemed after the close. Without a pre-negotiated // close address, the funds will go into the source node's wallet // instead of the imported account. const chanCloseTxFee = 9050 balanceFromClosedChan := chanSize - invoiceAmt - chanCloseTxFee if account == defaultImportedAccount { assertAccountBalance(t.t, srcNode, account, 0, 0) assertAccountBalance( t.t, srcNode, defaultAccount, confBalanceAfterChan+balanceFromClosedChan, 0, ) } else { assertAccountBalance( t.t, srcNode, account, confBalanceAfterChan, 0, ) assertAccountBalance( t.t, srcNode, defaultAccount, balanceFromClosedChan, 0, ) } } // testWalletImportAccount tests that an imported account can fund transactions // and channels through PSBTs, by having one node (the one with the imported // account) craft the transactions and another node act as the signer. func testWalletImportAccount(net *lntest.NetworkHarness, t *harnessTest) { testCases := []struct { name string addrType walletrpc.AddressType }{ { name: "standard BIP-0049", addrType: walletrpc.AddressType_NESTED_WITNESS_PUBKEY_HASH, }, { name: "lnd BIP-0049 variant", addrType: walletrpc.AddressType_HYBRID_NESTED_WITNESS_PUBKEY_HASH, }, { name: "standard BIP-0084", addrType: walletrpc.AddressType_WITNESS_PUBKEY_HASH, }, } for _, tc := range testCases { tc := tc success := t.t.Run(tc.name, func(tt *testing.T) { ht := newHarnessTest(tt, net) ht.RunTestCase(&testCase{ name: tc.name, test: func(net1 *lntest.NetworkHarness, t1 *harnessTest) { testWalletImportAccountScenario( net, t, tc.addrType, ) }, }) }) if !success { // Log failure time to help relate the lnd logs to the // failure. t.Logf("Failure time: %v", time.Now().Format( "2006-01-02 15:04:05.000", )) break } } } func testWalletImportAccountScenario(net *lntest.NetworkHarness, t *harnessTest, addrType walletrpc.AddressType) { ctxb := context.Background() const utxoAmt int64 = btcutil.SatoshiPerBitcoin // We'll start our test by having two nodes, Carol and Dave. Carol's // default wallet account will be imported into Dave's node. carol := net.NewNode(t.t, "carol", nil) defer shutdownAndAssert(net, t, carol) dave := net.NewNode(t.t, "dave", nil) defer shutdownAndAssert(net, t, dave) ctxt, cancel := context.WithTimeout(ctxb, defaultTimeout) defer cancel() listReq := &walletrpc.ListAccountsRequest{ Name: "default", AddressType: addrType, } listResp, err := carol.WalletKitClient.ListAccounts(ctxt, listReq) require.NoError(t.t, err) require.Equal(t.t, len(listResp.Accounts), 1) carolAccount := listResp.Accounts[0] ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() const importedAccount = "carol" importReq := &walletrpc.ImportAccountRequest{ Name: importedAccount, ExtendedPublicKey: carolAccount.ExtendedPublicKey, AddressType: addrType, } _, err = dave.WalletKitClient.ImportAccount(ctxt, importReq) require.NoError(t.t, err) // We'll generate an address for Carol from Dave's node to receive some // funds. externalAddr := newExternalAddr( t.t, dave, carol, importedAccount, addrType, ) // Send coins to Carol's address and confirm them, making sure the // balance updates accordingly. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() _, err = net.Alice.SendCoins(ctxt, &lnrpc.SendCoinsRequest{ Addr: externalAddr, Amount: utxoAmt, SatPerByte: 1, }) require.NoError(t.t, err) assertAccountBalance(t.t, dave, importedAccount, 0, utxoAmt) _ = mineBlocks(t, net, 1, 1) assertAccountBalance(t.t, dave, importedAccount, utxoAmt, 0) // To ensure that Dave can use Carol's account as watch-only, we'll // construct a PSBT that sends funds to Alice, which we'll then hand // over to Carol to sign. psbtSendFromImportedAccount( t, dave, net.Alice, carol, importedAccount, addrType, ) // We'll generate a new address for Carol from Dave's node to receive // and fund a new channel. externalAddr = newExternalAddr( t.t, dave, carol, importedAccount, addrType, ) // Retrieve the current confirmed balance of the imported account for // some assertions we'll make later on. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() balanceResp, err := dave.WalletBalance(ctxt, &lnrpc.WalletBalanceRequest{}) require.NoError(t.t, err) require.Contains(t.t, balanceResp.AccountBalance, importedAccount) confBalance := balanceResp.AccountBalance[importedAccount].ConfirmedBalance // Send coins to Carol's address and confirm them, making sure the // balance updates accordingly. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() _, err = net.Alice.SendCoins(ctxt, &lnrpc.SendCoinsRequest{ Addr: externalAddr, Amount: utxoAmt, SatPerByte: 1, }) require.NoError(t.t, err) assertAccountBalance(t.t, dave, importedAccount, confBalance, utxoAmt) _ = mineBlocks(t, net, 1, 1) assertAccountBalance( t.t, dave, importedAccount, confBalance+utxoAmt, 0, ) // Now that we have enough funds, it's time to fund the channel, make a // test payment, and close it. This contains several balance assertions // along the way. fundChanAndCloseFromImportedAccount( t, dave, net.Alice, carol, importedAccount, addrType, utxoAmt, int64(funding.MaxBtcFundingAmount), ) } // testWalletImportPubKey tests that an imported public keys can fund // transactions and channels through PSBTs, by having one node (the one with the // imported account) craft the transactions and another node act as the signer. func testWalletImportPubKey(net *lntest.NetworkHarness, t *harnessTest) { testCases := []struct { name string addrType walletrpc.AddressType }{ { name: "BIP-0049", addrType: walletrpc.AddressType_NESTED_WITNESS_PUBKEY_HASH, }, { name: "BIP-0084", addrType: walletrpc.AddressType_WITNESS_PUBKEY_HASH, }, } for _, tc := range testCases { tc := tc success := t.t.Run(tc.name, func(tt *testing.T) { ht := newHarnessTest(tt, net) ht.RunTestCase(&testCase{ name: tc.name, test: func(net1 *lntest.NetworkHarness, t1 *harnessTest) { testWalletImportPubKeyScenario( net, t, tc.addrType, ) }, }) }) if !success { // Log failure time to help relate the lnd logs to the // failure. t.Logf("Failure time: %v", time.Now().Format( "2006-01-02 15:04:05.000", )) break } } } func testWalletImportPubKeyScenario(net *lntest.NetworkHarness, t *harnessTest, addrType walletrpc.AddressType) { ctxb := context.Background() const utxoAmt int64 = btcutil.SatoshiPerBitcoin // We'll start our test by having two nodes, Carol and Dave. carol := net.NewNode(t.t, "carol", nil) defer shutdownAndAssert(net, t, carol) dave := net.NewNode(t.t, "dave", nil) defer shutdownAndAssert(net, t, dave) // We'll define a helper closure that we'll use throughout the test to // generate a new address of the given type from Carol's perspective, // import it into Dave's wallet, and fund it. importPubKey := func(keyIndex uint32, prevConfBalance, prevUnconfBalance int64) { // Retrieve Carol's account public key for the corresponding // address type. ctxt, cancel := context.WithTimeout(ctxb, defaultTimeout) defer cancel() listReq := &walletrpc.ListAccountsRequest{ Name: "default", AddressType: addrType, } listResp, err := carol.WalletKitClient.ListAccounts(ctxt, listReq) require.NoError(t.t, err) require.Equal(t.t, len(listResp.Accounts), 1) p2wkhAccount := listResp.Accounts[0] // Derive the external address at the given index. accountPubKey, err := hdkeychain.NewKeyFromString( p2wkhAccount.ExtendedPublicKey, ) require.NoError(t.t, err) externalAccountExtKey, err := accountPubKey.Derive(0) require.NoError(t.t, err) externalAddrExtKey, err := externalAccountExtKey.Derive(keyIndex) require.NoError(t.t, err) externalAddrPubKey, err := externalAddrExtKey.ECPubKey() require.NoError(t.t, err) // Import the public key into Dave. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() importReq := &walletrpc.ImportPublicKeyRequest{ PublicKey: externalAddrPubKey.SerializeCompressed(), AddressType: addrType, } _, err = dave.WalletKitClient.ImportPublicKey(ctxt, importReq) require.NoError(t.t, err) // We'll also generate the same address for Carol, as it'll be // required later when signing. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() carolAddrResp, err := carol.NewAddress(ctxt, &lnrpc.NewAddressRequest{ Type: walletToLNAddrType(t.t, addrType), }) require.NoError(t.t, err) // Send coins to Carol's address and confirm them, making sure // the balance updates accordingly. ctxt, cancel = context.WithTimeout(ctxb, defaultTimeout) defer cancel() _, err = net.Alice.SendCoins(ctxt, &lnrpc.SendCoinsRequest{ Addr: carolAddrResp.Address, Amount: utxoAmt, SatPerByte: 1, }) require.NoError(t.t, err) assertAccountBalance( t.t, dave, defaultImportedAccount, prevConfBalance, prevUnconfBalance+utxoAmt, ) _ = mineBlocks(t, net, 1, 1) assertAccountBalance( t.t, dave, defaultImportedAccount, prevConfBalance+utxoAmt, prevUnconfBalance, ) } // We'll have Carol generate a new external address, which we'll import // into Dave. importPubKey(0, 0, 0) // To ensure that Dave can use Carol's public key as watch-only, we'll // construct a PSBT that sends funds to Alice, which we'll then hand // over to Carol to sign. psbtSendFromImportedAccount( t, dave, net.Alice, carol, defaultImportedAccount, addrType, ) // We'll now attempt to fund a channel. // // We'll have Carol generate another external address, which we'll // import into Dave again. ctxt, cancel := context.WithTimeout(ctxb, defaultTimeout) defer cancel() balanceResp, err := dave.WalletBalance(ctxt, &lnrpc.WalletBalanceRequest{}) require.NoError(t.t, err) require.Contains(t.t, balanceResp.AccountBalance, defaultImportedAccount) confBalance := balanceResp. AccountBalance[defaultImportedAccount].ConfirmedBalance importPubKey(1, confBalance, 0) // Now that we have enough funds, it's time to fund the channel, make a // test payment, and close it. This contains several balance assertions // along the way. fundChanAndCloseFromImportedAccount( t, dave, net.Alice, carol, defaultImportedAccount, addrType, utxoAmt, int64(funding.MaxBtcFundingAmount), ) }