import 'dart:convert'; import 'dart:math'; import 'dart:typed_data'; import 'package:bip32/bip32.dart' as bip32; import 'package:bip47/bip47.dart'; import 'package:bip47/src/util.dart'; import 'package:bitcoindart/bitcoindart.dart' as btc_dart; import 'package:bitcoindart/src/utils/constants/op.dart' as op; import 'package:bitcoindart/src/utils/script.dart' as bscript; import 'package:isar/isar.dart'; import 'package:pointycastle/digests/sha256.dart'; import 'package:stackwallet/db/main_db.dart'; import 'package:stackwallet/electrumx_rpc/electrumx.dart'; import 'package:stackwallet/exceptions/wallet/insufficient_balance_exception.dart'; import 'package:stackwallet/exceptions/wallet/paynym_send_exception.dart'; import 'package:stackwallet/models/isar/models/isar_models.dart'; import 'package:stackwallet/services/coins/dogecoin/dogecoin_wallet.dart'; import 'package:stackwallet/utilities/bip32_utils.dart'; import 'package:stackwallet/utilities/enums/coin_enum.dart'; import 'package:stackwallet/utilities/enums/derive_path_type_enum.dart'; import 'package:stackwallet/utilities/flutter_secure_storage_interface.dart'; import 'package:stackwallet/utilities/format.dart'; import 'package:stackwallet/utilities/logger.dart'; import 'package:tuple/tuple.dart'; const kPaynymDerivePath = "m/47'/0'/0'"; mixin PaynymWalletInterface { // passed in wallet data late final String _walletId; late final String _walletName; late final btc_dart.NetworkType _network; late final Coin _coin; late final MainDB _db; late final ElectrumX _electrumXClient; late final SecureStorageInterface _secureStorage; // passed in wallet functions late final Future> Function() _getMnemonic; late final Future Function() _getChainHeight; late final Future Function() _getCurrentChangeAddress; late final int Function({ required int vSize, required int feeRatePerKB, }) _estimateTxFee; late final Future> Function({ required String address, required int satoshiAmount, Map? args, }) _prepareSend; late final Future Function({ required String address, }) _getTxCount; late final Future> Function( List utxosToUse, ) _fetchBuildTxData; late final Future Function() _refresh; late final Future Function() _checkChangeAddressForTransactions; late final Future Function({ required int chain, required String address, required String pubKey, required String wif, required DerivePathType derivePathType, }) _addDerivation; late final Future Function({ required int chain, required DerivePathType derivePathType, required Map derivationsToAdd, }) _addDerivations; // initializer void initPaynymWalletInterface({ required String walletId, required String walletName, required btc_dart.NetworkType network, required Coin coin, required MainDB db, required ElectrumX electrumXClient, required SecureStorageInterface secureStorage, required Future> Function() getMnemonic, required Future Function() getChainHeight, required Future Function() getCurrentChangeAddress, required int Function({ required int vSize, required int feeRatePerKB, }) estimateTxFee, required Future> Function({ required String address, required int satoshiAmount, Map? args, }) prepareSend, required Future Function({ required String address, }) getTxCount, required Future> Function( List utxosToUse, ) fetchBuildTxData, required Future Function() refresh, required Future Function() checkChangeAddressForTransactions, required Future Function({ required int chain, required String address, required String pubKey, required String wif, required DerivePathType derivePathType, }) addDerivation, required Future Function({ required int chain, required DerivePathType derivePathType, required Map derivationsToAdd, }) addDerivations, }) { _walletId = walletId; _walletName = walletName; _network = network; _coin = coin; _db = db; _electrumXClient = electrumXClient; _secureStorage = secureStorage; _getMnemonic = getMnemonic; _getChainHeight = getChainHeight; _getCurrentChangeAddress = getCurrentChangeAddress; _estimateTxFee = estimateTxFee; _prepareSend = prepareSend; _getTxCount = getTxCount; _fetchBuildTxData = fetchBuildTxData; _refresh = refresh; _checkChangeAddressForTransactions = checkChangeAddressForTransactions; _addDerivation = addDerivation; _addDerivations = addDerivations; } // convenience getter btc_dart.NetworkType get networkType => _network; Future
currentReceivingPaynymAddress(PaymentCode sender) async { final key = await lookupKey(sender.toString()); final address = await _db .getAddresses(_walletId) .filter() .subTypeEqualTo(AddressSubType.paynymReceive) .and() .otherDataEqualTo(key) .and() .otherDataIsNotNull() .sortByDerivationIndexDesc() .findFirst(); if (address == null) { final generatedAddress = await _generatePaynymReceivingAddress(sender, 0); await _db.putAddress(generatedAddress); return currentReceivingPaynymAddress(sender); } else { return address; } } Future
_generatePaynymReceivingAddress( PaymentCode sender, int index, ) async { final myPrivateKey = await deriveReceivingPrivateKey( mnemonic: await _getMnemonic(), index: index, ); final paymentAddress = PaymentAddress.initWithPrivateKey( myPrivateKey, sender, 0, ); final pair = paymentAddress.getReceiveAddressKeyPair(); final address = await generatePaynymReceivingAddressFromKeyPair( pair: pair, derivationIndex: index, derivePathType: DerivePathType.bip44, fromPaymentCode: sender, ); return address; } Future checkCurrentPaynymReceivingAddressForTransactions( PaymentCode sender) async { final address = await currentReceivingPaynymAddress(sender); final txCount = await _getTxCount(address: address.value); if (txCount > 0) { // generate next address and add to db final nextAddress = await _generatePaynymReceivingAddress( sender, address.derivationIndex + 1, ); await _db.putAddress(nextAddress); } } Future checkAllCurrentReceivingPaynymAddressesForTransactions() async { final codes = await getAllPaymentCodesFromNotificationTransactions(); final List> futures = []; for (final code in codes) { futures.add(checkCurrentPaynymReceivingAddressForTransactions(code)); } await Future.wait(futures); } // generate bip32 payment code root Future getRootNode({ required List mnemonic, }) async { final root = await Bip32Utils.getBip32Root(mnemonic.join(" "), _network); return root; } Future deriveNotificationPrivateKey({ required List mnemonic, }) async { final root = await getRootNode(mnemonic: mnemonic); final node = root.derivePath(kPaynymDerivePath).derive(0); return node.privateKey!; } Future deriveReceivingPrivateKey({ required List mnemonic, required int index, }) async { final root = await getRootNode(mnemonic: mnemonic); final node = root.derivePath(kPaynymDerivePath).derive(index); return node.privateKey!; } /// fetch or generate this wallet's bip47 payment code Future getPaymentCode( DerivePathType derivePathType, ) async { final address = await getMyNotificationAddress(derivePathType); final pCodeString = await paymentCodeStringByKey(address.otherData!); final paymentCode = PaymentCode.fromPaymentCode( pCodeString!, _network, ); return paymentCode; } Future signWithNotificationKey(Uint8List data) async { final privateKey = await deriveNotificationPrivateKey(mnemonic: await _getMnemonic()); final pair = btc_dart.ECPair.fromPrivateKey(privateKey, network: _network); final signed = pair.sign(SHA256Digest().process(data)); return signed; } Future signStringWithNotificationKey(String data) async { final bytes = await signWithNotificationKey(Uint8List.fromList(utf8.encode(data))); return Format.uint8listToString(bytes); } Future> preparePaymentCodeSend( {required PaymentCode paymentCode, required int satoshiAmount, Map? args}) async { if (!(await hasConnected(paymentCode.notificationAddressP2PKH()))) { throw PaynymSendException( "No notification transaction sent to $paymentCode"); } else { final myPrivateKey = await deriveNotificationPrivateKey(mnemonic: await _getMnemonic()); final sendToAddress = await nextUnusedSendAddressFrom( pCode: paymentCode, privateKey: myPrivateKey, ); return _prepareSend( address: sendToAddress.value, satoshiAmount: satoshiAmount, args: args, ); } } /// get the next unused address to send to given the receiver's payment code /// and your own private key Future
nextUnusedSendAddressFrom({ required PaymentCode pCode, required Uint8List privateKey, int startIndex = 0, }) async { // https://en.bitcoin.it/wiki/BIP_0047#Path_levels const maxCount = 2147483647; for (int i = startIndex; i < maxCount; i++) { final key = await lookupKey(pCode.toString()); final address = await _db .getAddresses(_walletId) .filter() .subTypeEqualTo(AddressSubType.paynymSend) .and() .otherDataEqualTo(key) .and() .otherDataIsNotNull() .and() .derivationIndexEqualTo(i) .findFirst(); if (address != null) { final count = await _getTxCount(address: address.value); // return address if unused, otherwise continue to next index if (count == 0) { return address; } } else { final pair = PaymentAddress.initWithPrivateKey( privateKey, pCode, i, // index to use ).getSendAddressKeyPair(); // add address to local db final address = await generatePaynymSendAddressFromKeyPair( pair: pair, derivationIndex: i, derivePathType: DerivePathType.bip44, toPaymentCode: pCode, ); final storedAddress = await _db.getAddress(_walletId, address.value); if (storedAddress == null) { await _db.putAddress(address); } else { await _db.updateAddress(storedAddress, address); } final count = await _getTxCount(address: address.value); // return address if unused, otherwise continue to next index if (count == 0) { return address; } } } throw PaynymSendException("Exhausted unused send addresses!"); } Future> prepareNotificationTx({ required int selectedTxFeeRate, required String targetPaymentCodeString, int additionalOutputs = 0, List? utxos, }) async { const amountToSend = DUST_LIMIT; final List availableOutputs = utxos ?? await _db.getUTXOs(_walletId).findAll(); final List spendableOutputs = []; int spendableSatoshiValue = 0; // Build list of spendable outputs and totaling their satoshi amount for (var i = 0; i < availableOutputs.length; i++) { if (availableOutputs[i].isBlocked == false && availableOutputs[i].isConfirmed( await _getChainHeight(), MINIMUM_CONFIRMATIONS) == true) { spendableOutputs.add(availableOutputs[i]); spendableSatoshiValue += availableOutputs[i].value; } } if (spendableSatoshiValue < amountToSend) { // insufficient balance throw InsufficientBalanceException( "Spendable balance is less than the minimum required for a notification transaction."); } else if (spendableSatoshiValue == amountToSend) { // insufficient balance due to missing amount to cover fee throw InsufficientBalanceException( "Remaining balance does not cover the network fee."); } // sort spendable by age (oldest first) spendableOutputs.sort((a, b) => b.blockTime!.compareTo(a.blockTime!)); int satoshisBeingUsed = 0; int outputsBeingUsed = 0; List utxoObjectsToUse = []; for (int i = 0; satoshisBeingUsed < amountToSend && i < spendableOutputs.length; i++) { utxoObjectsToUse.add(spendableOutputs[i]); satoshisBeingUsed += spendableOutputs[i].value; outputsBeingUsed += 1; } // add additional outputs if required for (int i = 0; i < additionalOutputs && outputsBeingUsed < spendableOutputs.length; i++) { utxoObjectsToUse.add(spendableOutputs[outputsBeingUsed]); satoshisBeingUsed += spendableOutputs[outputsBeingUsed].value; outputsBeingUsed += 1; } // gather required signing data final utxoSigningData = await _fetchBuildTxData(utxoObjectsToUse); final int vSizeForNoChange = (await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, change: 0)) .item2; final int vSizeForWithChange = (await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, change: satoshisBeingUsed - amountToSend)) .item2; // Assume 2 outputs, for recipient and payment code script int feeForNoChange = _estimateTxFee( vSize: vSizeForNoChange, feeRatePerKB: selectedTxFeeRate, ); // Assume 3 outputs, for recipient, payment code script, and change int feeForWithChange = _estimateTxFee( vSize: vSizeForWithChange, feeRatePerKB: selectedTxFeeRate, ); if (feeForNoChange < vSizeForNoChange * 1000) { feeForNoChange = vSizeForNoChange * 1000; } if (feeForWithChange < vSizeForWithChange * 1000) { feeForWithChange = vSizeForWithChange * 1000; } if (satoshisBeingUsed - amountToSend > feeForNoChange + DUST_LIMIT) { // try to add change output due to "left over" amount being greater than // the estimated fee + the dust limit int changeAmount = satoshisBeingUsed - amountToSend - feeForWithChange; // check estimates are correct and build notification tx if (changeAmount >= DUST_LIMIT && satoshisBeingUsed - amountToSend - changeAmount == feeForWithChange) { final txn = await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, change: changeAmount, ); int feeBeingPaid = satoshisBeingUsed - amountToSend - changeAmount; Map transactionObject = { "hex": txn.item1, "recipientPaynym": targetPaymentCodeString, "amount": amountToSend, "fee": feeBeingPaid, "vSize": txn.item2, }; return transactionObject; } else { // something broke during fee estimation or the change amount is smaller // than the dust limit. Try without change final txn = await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, change: 0, ); int feeBeingPaid = satoshisBeingUsed - amountToSend; Map transactionObject = { "hex": txn.item1, "recipientPaynym": targetPaymentCodeString, "amount": amountToSend, "fee": feeBeingPaid, "vSize": txn.item2, }; return transactionObject; } } else if (satoshisBeingUsed - amountToSend >= feeForNoChange) { // since we already checked if we need to add a change output we can just // build without change here final txn = await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, change: 0, ); int feeBeingPaid = satoshisBeingUsed - amountToSend; Map transactionObject = { "hex": txn.item1, "recipientPaynym": targetPaymentCodeString, "amount": amountToSend, "fee": feeBeingPaid, "vSize": txn.item2, }; return transactionObject; } else { // if we get here we do not have enough funds to cover the tx total so we // check if we have any more available outputs and try again if (spendableOutputs.length > outputsBeingUsed) { return prepareNotificationTx( selectedTxFeeRate: selectedTxFeeRate, targetPaymentCodeString: targetPaymentCodeString, additionalOutputs: additionalOutputs + 1, ); } else { throw InsufficientBalanceException( "Remaining balance does not cover the network fee."); } } } // return tuple with string value equal to the raw tx hex and the int value // equal to its vSize Future> _createNotificationTx({ required String targetPaymentCodeString, required List utxosToUse, required Map utxoSigningData, required int change, }) async { final targetPaymentCode = PaymentCode.fromPaymentCode(targetPaymentCodeString, _network); final myCode = await getPaymentCode(DerivePathType.bip44); final utxo = utxosToUse.first; final txPoint = utxo.txid.fromHex.toList(); final txPointIndex = utxo.vout; final rev = Uint8List(txPoint.length + 4); Util.copyBytes(Uint8List.fromList(txPoint), 0, rev, 0, txPoint.length); final buffer = rev.buffer.asByteData(); buffer.setUint32(txPoint.length, txPointIndex, Endian.little); final myKeyPair = utxoSigningData[utxo.txid]["keyPair"] as btc_dart.ECPair; final S = SecretPoint( myKeyPair.privateKey!, targetPaymentCode.notificationPublicKey(), ); final blindingMask = PaymentCode.getMask(S.ecdhSecret(), rev); final blindedPaymentCode = PaymentCode.blind( myCode.getPayload(), blindingMask, ); final opReturnScript = bscript.compile([ (op.OPS["OP_RETURN"] as int), blindedPaymentCode, ]); // build a notification tx final txb = btc_dart.TransactionBuilder(network: _network); txb.setVersion(1); txb.addInput( utxo.txid, txPointIndex, ); // todo: modify address once segwit support is in our bip47 txb.addOutput(targetPaymentCode.notificationAddressP2PKH(), DUST_LIMIT); txb.addOutput(opReturnScript, 0); // TODO: add possible change output and mark output as dangerous if (change > 0) { // generate new change address if current change address has been used await _checkChangeAddressForTransactions(); final String changeAddress = await _getCurrentChangeAddress(); txb.addOutput(changeAddress, change); } txb.sign( vin: 0, keyPair: myKeyPair, ); // sign rest of possible inputs for (var i = 1; i < utxosToUse.length - 1; i++) { final txid = utxosToUse[i].txid; txb.sign( vin: i, keyPair: utxoSigningData[txid]["keyPair"] as btc_dart.ECPair, // witnessValue: utxosToUse[i].value, ); } final builtTx = txb.build(); return Tuple2(builtTx.toHex(), builtTx.virtualSize()); } Future broadcastNotificationTx( {required Map preparedTx}) async { try { Logging.instance.log("confirmNotificationTx txData: $preparedTx", level: LogLevel.Info); final txHash = await _electrumXClient.broadcastTransaction( rawTx: preparedTx["hex"] as String); Logging.instance.log("Sent txHash: $txHash", level: LogLevel.Info); // TODO: only refresh transaction data try { await _refresh(); } catch (e) { Logging.instance.log( "refresh() failed in confirmNotificationTx ($_walletName::$_walletId): $e", level: LogLevel.Error, ); } return txHash; } catch (e, s) { Logging.instance.log("Exception rethrown from confirmSend(): $e\n$s", level: LogLevel.Error); rethrow; } } // TODO optimize Future hasConnected(String paymentCodeString) async { final myNotificationAddress = await getMyNotificationAddress(DerivePathTypeExt.primaryFor(_coin)); final txns = await _db .getTransactions(_walletId) .filter() .subTypeEqualTo(TransactionSubType.bip47Notification) .findAll(); for (final tx in txns) { // quick check that may cause problems? if (tx.address.value?.value == myNotificationAddress.value) { return true; } final unBlindedPaymentCode = await unBlindedPaymentCodeFromTransaction( transaction: tx, myNotificationAddress: myNotificationAddress, ); if (paymentCodeString == unBlindedPaymentCode.toString()) { return true; } } // otherwise return no return false; } Future unBlindedPaymentCodeFromTransaction({ required Transaction transaction, required Address myNotificationAddress, }) async { if (transaction.address.value != null && transaction.address.value!.value != myNotificationAddress.value) { return null; } try { final blindedCode = transaction.outputs.elementAt(1).scriptPubKeyAsm!.split(" ")[1]; final designatedInput = transaction.inputs.first; final txPoint = designatedInput.txid.fromHex.toList(); final txPointIndex = designatedInput.vout; final rev = Uint8List(txPoint.length + 4); Util.copyBytes(Uint8List.fromList(txPoint), 0, rev, 0, txPoint.length); final buffer = rev.buffer.asByteData(); buffer.setUint32(txPoint.length, txPointIndex, Endian.little); final pubKey = designatedInput.scriptSigAsm!.split(" ")[1].fromHex; final myPrivateKey = await deriveNotificationPrivateKey(mnemonic: await _getMnemonic()); final S = SecretPoint(myPrivateKey, pubKey); final mask = PaymentCode.getMask(S.ecdhSecret(), rev); final unBlindedPayload = PaymentCode.blind(blindedCode.fromHex, mask); final unBlindedPaymentCode = PaymentCode.initFromPayload(unBlindedPayload); return unBlindedPaymentCode; } catch (e) { Logging.instance.log( "unBlindedPaymentCodeFromTransaction() failed: $e", level: LogLevel.Warning, ); return null; } } Future> getAllPaymentCodesFromNotificationTransactions() async { final myAddress = await getMyNotificationAddress(DerivePathTypeExt.primaryFor(_coin)); final txns = await _db .getTransactions(_walletId) .filter() .subTypeEqualTo(TransactionSubType.bip47Notification) .findAll(); List unBlindedList = []; for (final tx in txns) { final unBlinded = await unBlindedPaymentCodeFromTransaction( transaction: tx, myNotificationAddress: myAddress, ); if (unBlinded != null && unBlindedList .where((e) => e.toString() == unBlinded.toString()) .isEmpty) { unBlindedList.add(unBlinded); } } return unBlindedList; } Future restoreAllHistory({ required int maxUnusedAddressGap, required int maxNumberOfIndexesToCheck, }) async { final codes = await getAllPaymentCodesFromNotificationTransactions(); final List> futures = []; for (final code in codes) { futures.add(restoreHistoryWith( code, maxUnusedAddressGap, maxNumberOfIndexesToCheck)); } await Future.wait(futures); } Future restoreHistoryWith( PaymentCode other, int maxUnusedAddressGap, int maxNumberOfIndexesToCheck, ) async { // https://en.bitcoin.it/wiki/BIP_0047#Path_levels const maxCount = 2147483647; assert(maxNumberOfIndexesToCheck < maxCount); final mnemonic = await _getMnemonic(); final mySendPrivateKey = await deriveNotificationPrivateKey(mnemonic: mnemonic); final receivingNode = (await getRootNode(mnemonic: mnemonic)).derivePath(kPaynymDerivePath); List
addresses = []; int receivingGapCounter = 0; int outgoingGapCounter = 0; for (int i = 0; i < maxNumberOfIndexesToCheck && (receivingGapCounter < maxUnusedAddressGap || outgoingGapCounter < maxUnusedAddressGap); i++) { if (outgoingGapCounter < maxUnusedAddressGap) { final paymentAddressSending = PaymentAddress.initWithPrivateKey( mySendPrivateKey, other, i, // index to use ); final pair = paymentAddressSending.getSendAddressKeyPair(); final address = await generatePaynymSendAddressFromKeyPair( pair: pair, derivationIndex: i, derivePathType: DerivePathType.bip44, toPaymentCode: other, ); addresses.add(address); final count = await _getTxCount(address: address.value); if (count > 0) { outgoingGapCounter = 0; } else { outgoingGapCounter++; } } if (receivingGapCounter < maxUnusedAddressGap) { final myReceivingPrivateKey = receivingNode.derive(i).privateKey!; final paymentAddressReceiving = PaymentAddress.initWithPrivateKey( myReceivingPrivateKey, other, 0, ); final pair = paymentAddressReceiving.getReceiveAddressKeyPair(); final address = await generatePaynymReceivingAddressFromKeyPair( pair: pair, derivationIndex: i, derivePathType: DerivePathType.bip44, fromPaymentCode: other, ); addresses.add(address); final count = await _getTxCount(address: address.value); if (count > 0) { receivingGapCounter = 0; } else { receivingGapCounter++; } } } await _db.updateOrPutAddresses(addresses); } Future
generatePaynymSendAddressFromKeyPair({ required btc_dart.ECPair pair, required int derivationIndex, required DerivePathType derivePathType, required PaymentCode toPaymentCode, }) async { final data = btc_dart.PaymentData(pubkey: pair.publicKey); String addressString; switch (derivePathType) { case DerivePathType.bip44: addressString = btc_dart.P2PKH(data: data, network: _network).data.address!; break; // The following doesn't apply currently // case DerivePathType.bip49: // addressString = btc_dart // .P2SH( // data: btc_dart.PaymentData( // redeem: btc_dart // .P2WPKH( // data: data, // network: network, // ) // .data), // network: network, // ) // .data // .address!; // break; // // case DerivePathType.bip84: // addressString = btc_dart // .P2WPKH( // network: network, // data: data, // ) // .data // .address!; // break; default: throw UnimplementedError("segwit paynyms not implemented yet"); } final address = Address( walletId: _walletId, value: addressString, publicKey: pair.publicKey, derivationIndex: derivationIndex, type: AddressType.nonWallet, subType: AddressSubType.paynymSend, otherData: await storeCode(toPaymentCode.toString()), ); return address; } Future
generatePaynymReceivingAddressFromKeyPair({ required btc_dart.ECPair pair, required int derivationIndex, required DerivePathType derivePathType, required PaymentCode fromPaymentCode, }) async { final data = btc_dart.PaymentData(pubkey: pair.publicKey); String addressString; AddressType addrType; switch (derivePathType) { case DerivePathType.bip44: addressString = btc_dart .P2PKH( data: data, network: _network, ) .data .address!; addrType = AddressType.p2pkh; break; // The following doesn't apply currently // case DerivePathType.bip49: // addressString = btc_dart // .P2SH( // data: btc_dart.PaymentData( // redeem: btc_dart // .P2WPKH( // data: data, // network: network, // ) // .data), // network: network, // ) // .data // .address!; // addrType = AddressType.p2sh; // break; // // case DerivePathType.bip84: // addressString = btc_dart // .P2WPKH( // network: network, // data: data, // ) // .data // .address!; // addrType = AddressType.p2wpkh; // break; default: throw UnimplementedError("segwit paynyms not implemented yet"); } final address = Address( walletId: _walletId, value: addressString, publicKey: pair.publicKey, derivationIndex: derivationIndex, type: addrType, subType: AddressSubType.paynymReceive, otherData: await storeCode(fromPaymentCode.toString()), ); final myCode = await getPaymentCode(DerivePathType.bip44); final bip32NetworkType = bip32.NetworkType( wif: _network.wif, bip32: bip32.Bip32Type( public: _network.bip32.public, private: _network.bip32.private, ), ); final bip32.BIP32 node = bip32.BIP32.fromPrivateKey( pair.privateKey!, myCode.getChain(), bip32NetworkType, ); await _addDerivation( chain: 0, address: address.value, derivePathType: DerivePathType.bip44, pubKey: Format.uint8listToString(node.publicKey), wif: node.toWIF(), ); return address; } Future
getMyNotificationAddress( DerivePathType derivePathType, ) async { // TODO: fix when segwit is here derivePathType = DerivePathType.bip44; AddressType type; switch (derivePathType) { case DerivePathType.bip44: type = AddressType.p2pkh; break; case DerivePathType.bip49: type = AddressType.p2sh; break; case DerivePathType.bip84: type = AddressType.p2wpkh; break; } final storedAddress = await _db .getAddresses(_walletId) .filter() .subTypeEqualTo(AddressSubType.paynymNotification) .and() .typeEqualTo(type) .and() .not() .typeEqualTo(AddressType.nonWallet) .findFirst(); if (storedAddress != null) { return storedAddress; } else { final root = await getRootNode(mnemonic: await _getMnemonic()); final node = root.derivePath(kPaynymDerivePath); final paymentCode = PaymentCode.initFromPubKey( node.publicKey, node.chainCode, _network, ); String addressString; final data = btc_dart.PaymentData(pubkey: paymentCode.notificationPublicKey()); switch (derivePathType) { case DerivePathType.bip44: addressString = btc_dart .P2PKH( data: data, network: _network, ) .data .address!; break; // case DerivePathType.bip49: // addressString = btc_dart // .P2SH( // data: btc_dart.PaymentData( // redeem: btc_dart // .P2WPKH( // data: data, // network: network, // ) // .data), // network: network, // ) // .data // .address!; // break; // case DerivePathType.bip84: // addressString = btc_dart // .P2WPKH( // network: network, // data: data, // ) // .data // .address!; // break; default: throw UnimplementedError("segwit paynyms not implemented yet"); } final address = Address( walletId: _walletId, value: addressString, publicKey: paymentCode.getPubKey(), derivationIndex: 0, type: type, subType: AddressSubType.paynymNotification, otherData: await storeCode(paymentCode.toString()), ); await _addDerivation( chain: 0, address: address.value, derivePathType: DerivePathType.bip44, pubKey: Format.uint8listToString(node.publicKey), wif: node.toWIF(), ); await _db.putAddress(address); return address; } } /// look up a key that corresponds to a payment code string Future lookupKey(String paymentCodeString) async { final keys = (await _secureStorage.keys).where((e) => e.startsWith(kPCodeKeyPrefix)); for (final key in keys) { final value = await _secureStorage.read(key: key); if (value == paymentCodeString) { return key; } } return null; } /// fetch a payment code string Future paymentCodeStringByKey(String key) async { final value = await _secureStorage.read(key: key); return value; } /// store payment code string and return the generated key used Future storeCode(String paymentCodeString) async { final key = _generateKey(); await _secureStorage.write(key: key, value: paymentCodeString); return key; } /// generate a new payment code string storage key String _generateKey() { final bytes = _randomBytes(24); return "$kPCodeKeyPrefix${bytes.toHex}"; } // https://github.com/AaronFeickert/stack_wallet_backup/blob/master/lib/secure_storage.dart#L307-L311 /// Generate cryptographically-secure random bytes Uint8List _randomBytes(int n) { final Random rng = Random.secure(); return Uint8List.fromList( List.generate(n, (_) => rng.nextInt(0xFF + 1))); } } const String kPCodeKeyPrefix = "pCode_key_";