import 'dart:convert'; import 'dart:math'; import 'dart:typed_data'; import 'package:bip32/bip32.dart' as bip32; import 'package:bip47/bip47.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:coinlib_flutter/coinlib_flutter.dart' as coinlib; import 'package:isar/isar.dart'; import 'package:pointycastle/digests/sha256.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/blockchain_data/v2/input_v2.dart'; import 'package:stackwallet/models/isar/models/blockchain_data/v2/output_v2.dart'; import 'package:stackwallet/models/isar/models/blockchain_data/v2/transaction_v2.dart'; import 'package:stackwallet/models/isar/models/isar_models.dart'; import 'package:stackwallet/models/signing_data.dart'; import 'package:stackwallet/utilities/amount/amount.dart'; import 'package:stackwallet/utilities/bip32_utils.dart'; import 'package:stackwallet/utilities/bip47_utils.dart'; import 'package:stackwallet/utilities/enums/derive_path_type_enum.dart'; import 'package:stackwallet/utilities/extensions/extensions.dart'; import 'package:stackwallet/utilities/format.dart'; import 'package:stackwallet/utilities/logger.dart'; import 'package:stackwallet/wallets/crypto_currency/coins/dogecoin.dart'; import 'package:stackwallet/wallets/crypto_currency/crypto_currency.dart'; import 'package:stackwallet/wallets/crypto_currency/interfaces/paynym_currency_interface.dart'; import 'package:stackwallet/wallets/models/tx_data.dart'; import 'package:stackwallet/wallets/wallet/intermediate/bip39_hd_wallet.dart'; import 'package:stackwallet/wallets/wallet/wallet_mixin_interfaces/electrumx_interface.dart'; import 'package:tuple/tuple.dart'; const String kPCodeKeyPrefix = "pCode_key_"; String _basePaynymDerivePath({required bool testnet}) => "m/47'/${testnet ? "1" : "0"}'/0'"; String _notificationDerivationPath({required bool testnet}) => "${_basePaynymDerivePath(testnet: testnet)}/0"; String _receivingPaynymAddressDerivationPath( int index, { required bool testnet, }) => "${_basePaynymDerivePath(testnet: testnet)}/$index/0"; String _sendPaynymAddressDerivationPath( int index, { required bool testnet, }) => "${_basePaynymDerivePath(testnet: testnet)}/0/$index"; mixin PaynymInterface on Bip39HDWallet, ElectrumXInterface { btc_dart.NetworkType get networkType => btc_dart.NetworkType( messagePrefix: cryptoCurrency.networkParams.messagePrefix, bech32: cryptoCurrency.networkParams.bech32Hrp, bip32: btc_dart.Bip32Type( public: cryptoCurrency.networkParams.pubHDPrefix, private: cryptoCurrency.networkParams.privHDPrefix, ), pubKeyHash: cryptoCurrency.networkParams.p2pkhPrefix, scriptHash: cryptoCurrency.networkParams.p2shPrefix, wif: cryptoCurrency.networkParams.wifPrefix, ); Future getBip47BaseNode() async { final root = await _getRootNode(); final node = root.derivePath( _basePaynymDerivePath( testnet: info.coin.network == CryptoCurrencyNetwork.test, ), ); return node; } Future getPrivateKeyForPaynymReceivingAddress({ required String paymentCodeString, required int index, }) async { final bip47base = await getBip47BaseNode(); final paymentAddress = PaymentAddress( bip32Node: bip47base.derive(index), paymentCode: PaymentCode.fromPaymentCode( paymentCodeString, networkType: networkType, ), networkType: networkType, index: 0, ); final pair = paymentAddress.getReceiveAddressKeyPair(); return pair.privateKey!; } Future
currentReceivingPaynymAddress({ required PaymentCode sender, required bool isSegwit, }) async { final keys = await lookupKey(sender.toString()); final address = await mainDB .getAddresses(walletId) .filter() .subTypeEqualTo(AddressSubType.paynymReceive) .and() .group((q) { if (isSegwit) { return q .typeEqualTo(AddressType.p2sh) .or() .typeEqualTo(AddressType.p2wpkh); } else { return q.typeEqualTo(AddressType.p2pkh); } }) .and() .anyOf(keys, (q, String e) => q.otherDataEqualTo(e)) .sortByDerivationIndexDesc() .findFirst(); if (address == null) { final generatedAddress = await _generatePaynymReceivingAddress( sender: sender, index: 0, generateSegwitAddress: isSegwit, ); final existing = await mainDB .getAddresses(walletId) .filter() .valueEqualTo(generatedAddress.value) .findFirst(); if (existing == null) { // Add that new address await mainDB.putAddress(generatedAddress); } else { // we need to update the address await mainDB.updateAddress(existing, generatedAddress); } return currentReceivingPaynymAddress( isSegwit: isSegwit, sender: sender, ); } else { return address; } } Future
_generatePaynymReceivingAddress({ required PaymentCode sender, required int index, required bool generateSegwitAddress, }) async { final root = await _getRootNode(); final node = root.derivePath( _basePaynymDerivePath( testnet: info.coin.network == CryptoCurrencyNetwork.test, ), ); final paymentAddress = PaymentAddress( bip32Node: node.derive(index), paymentCode: sender, networkType: networkType, index: 0, ); final addressString = generateSegwitAddress ? paymentAddress.getReceiveAddressP2WPKH() : paymentAddress.getReceiveAddressP2PKH(); final address = Address( walletId: walletId, value: addressString, publicKey: [], derivationIndex: index, derivationPath: DerivationPath() ..value = _receivingPaynymAddressDerivationPath( index, testnet: info.coin.network == CryptoCurrencyNetwork.test, ), type: generateSegwitAddress ? AddressType.p2wpkh : AddressType.p2pkh, subType: AddressSubType.paynymReceive, otherData: await storeCode(sender.toString()), ); return address; } Future
_generatePaynymSendAddress({ required PaymentCode other, required int index, required bool generateSegwitAddress, bip32.BIP32? mySendBip32Node, }) async { final node = mySendBip32Node ?? await deriveNotificationBip32Node(); final paymentAddress = PaymentAddress( bip32Node: node, paymentCode: other, networkType: networkType, index: index, ); final addressString = generateSegwitAddress ? paymentAddress.getSendAddressP2WPKH() : paymentAddress.getSendAddressP2PKH(); final address = Address( walletId: walletId, value: addressString, publicKey: [], derivationIndex: index, derivationPath: DerivationPath() ..value = _sendPaynymAddressDerivationPath( index, testnet: info.coin.network == CryptoCurrencyNetwork.test, ), type: AddressType.nonWallet, subType: AddressSubType.paynymSend, otherData: await storeCode(other.toString()), ); return address; } Future checkCurrentPaynymReceivingAddressForTransactions({ required PaymentCode sender, required bool isSegwit, }) async { final address = await currentReceivingPaynymAddress( sender: sender, isSegwit: isSegwit, ); final txCount = await fetchTxCount( addressScriptHash: cryptoCurrency.addressToScriptHash( address: address.value, ), ); if (txCount > 0) { // generate next address and add to db final nextAddress = await _generatePaynymReceivingAddress( sender: sender, index: address.derivationIndex + 1, generateSegwitAddress: isSegwit, ); final existing = await mainDB .getAddresses(walletId) .filter() .valueEqualTo(nextAddress.value) .findFirst(); if (existing == null) { // Add that new address await mainDB.putAddress(nextAddress); } else { // we need to update the address await mainDB.updateAddress(existing, nextAddress); } // keep checking until address with no tx history is set as current await checkCurrentPaynymReceivingAddressForTransactions( sender: sender, isSegwit: isSegwit, ); } } Future checkAllCurrentReceivingPaynymAddressesForTransactions() async { final codes = await getAllPaymentCodesFromNotificationTransactions(); final List> futures = []; for (final code in codes) { futures.add( checkCurrentPaynymReceivingAddressForTransactions( sender: code, isSegwit: true, ), ); futures.add( checkCurrentPaynymReceivingAddressForTransactions( sender: code, isSegwit: false, ), ); } await Future.wait(futures); } // generate bip32 payment code root Future _getRootNode() async { return _cachedRootNode ??= await Bip32Utils.getBip32Root( (await getMnemonic()), (await getMnemonicPassphrase()), bip32.NetworkType( wif: networkType.wif, bip32: bip32.Bip32Type( public: networkType.bip32.public, private: networkType.bip32.private, ), ), ); } bip32.BIP32? _cachedRootNode; Future deriveNotificationBip32Node() async { final root = await _getRootNode(); final node = root .derivePath( _basePaynymDerivePath( testnet: info.coin.network == CryptoCurrencyNetwork.test, ), ) .derive(0); return node; } /// fetch or generate this wallet's bip47 payment code Future getPaymentCode({ required bool isSegwit, }) async { final node = await _getRootNode(); final paymentCode = PaymentCode.fromBip32Node( node.derivePath( _basePaynymDerivePath( testnet: info.coin.network == CryptoCurrencyNetwork.test, ), ), networkType: networkType, shouldSetSegwitBit: isSegwit, ); return paymentCode; } Future signWithNotificationKey(Uint8List data) async { final myPrivateKeyNode = await deriveNotificationBip32Node(); final pair = btc_dart.ECPair.fromPrivateKey( myPrivateKeyNode.privateKey!, network: networkType, ); 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 TxData txData, // required PaymentCode paymentCode, // required bool isSegwit, // required Amount amount, // Map? args, }) async { // TODO: handle asserts in a better manner assert(txData.recipients != null && txData.recipients!.length == 1); assert(txData.paynymAccountLite!.code == txData.recipients!.first.address); final paymentCode = PaymentCode.fromPaymentCode( txData.paynymAccountLite!.code, networkType: networkType, ); if (!(await hasConnected(txData.paynymAccountLite!.code.toString()))) { throw PaynymSendException( "No notification transaction sent to $paymentCode,", ); } else { final myPrivateKeyNode = await deriveNotificationBip32Node(); final sendToAddress = await nextUnusedSendAddressFrom( pCode: paymentCode, privateKeyNode: myPrivateKeyNode, isSegwit: txData.paynymAccountLite!.segwit, ); return prepareSend( txData: txData.copyWith( recipients: [ ( address: sendToAddress.value, amount: txData.recipients!.first.amount, isChange: false, ), ], ), ); } } /// 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 bool isSegwit, required bip32.BIP32 privateKeyNode, int startIndex = 0, }) async { // https://en.bitcoin.it/wiki/BIP_0047#Path_levels const maxCount = 2147483647; for (int i = startIndex; i < maxCount; i++) { final keys = await lookupKey(pCode.toString()); final address = await mainDB .getAddresses(walletId) .filter() .subTypeEqualTo(AddressSubType.paynymSend) .and() .anyOf(keys, (q, String e) => q.otherDataEqualTo(e)) .and() .derivationIndexEqualTo(i) .findFirst(); if (address != null) { final count = await fetchTxCount( addressScriptHash: cryptoCurrency.addressToScriptHash( address: address.value, ), ); // return address if unused, otherwise continue to next index if (count == 0) { return address; } } else { final address = await _generatePaynymSendAddress( other: pCode, index: i, generateSegwitAddress: isSegwit, mySendBip32Node: privateKeyNode, ); final storedAddress = await mainDB.getAddress(walletId, address.value); if (storedAddress == null) { await mainDB.putAddress(address); } else { await mainDB.updateAddress(storedAddress, address); } final count = await fetchTxCount( addressScriptHash: cryptoCurrency.addressToScriptHash( 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 { try { final amountToSend = cryptoCurrency.dustLimitP2PKH; final List availableOutputs = utxos ?? await mainDB.getUTXOs(walletId).findAll(); final List spendableOutputs = []; BigInt spendableSatoshiValue = BigInt.zero; // 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 fetchChainHeight(), cryptoCurrency.minConfirms, ) == true) { spendableOutputs.add(availableOutputs[i]); spendableSatoshiValue += BigInt.from(availableOutputs[i].value); } } if (spendableSatoshiValue < amountToSend.raw) { // insufficient balance throw InsufficientBalanceException( "Spendable balance is less than the minimum required for a notification transaction.", ); } else if (spendableSatoshiValue == amountToSend.raw) { // 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!)); BigInt satoshisBeingUsed = BigInt.zero; int outputsBeingUsed = 0; final List utxoObjectsToUse = []; for (int i = 0; satoshisBeingUsed < amountToSend.raw && i < spendableOutputs.length; i++) { utxoObjectsToUse.add(spendableOutputs[i]); satoshisBeingUsed += BigInt.from(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 += BigInt.from(spendableOutputs[outputsBeingUsed].value); outputsBeingUsed += 1; } // gather required signing data final utxoSigningData = await fetchBuildTxData(utxoObjectsToUse); final vSizeForNoChange = BigInt.from( (await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxoSigningData: utxoSigningData, change: BigInt.zero, // override amount to get around absurd fees error overrideAmountForTesting: satoshisBeingUsed, )) .item2, ); final vSizeForWithChange = BigInt.from( (await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxoSigningData: utxoSigningData, change: satoshisBeingUsed - amountToSend.raw, )) .item2, ); // Assume 2 outputs, for recipient and payment code script BigInt feeForNoChange = BigInt.from( estimateTxFee( vSize: vSizeForNoChange.toInt(), feeRatePerKB: selectedTxFeeRate, ), ); // Assume 3 outputs, for recipient, payment code script, and change BigInt feeForWithChange = BigInt.from( estimateTxFee( vSize: vSizeForWithChange.toInt(), feeRatePerKB: selectedTxFeeRate, ), ); if (info.coin is Dogecoin) { if (feeForNoChange < vSizeForNoChange * BigInt.from(1000)) { feeForNoChange = vSizeForNoChange * BigInt.from(1000); } if (feeForWithChange < vSizeForWithChange * BigInt.from(1000)) { feeForWithChange = vSizeForWithChange * BigInt.from(1000); } } if (satoshisBeingUsed - amountToSend.raw > feeForNoChange + cryptoCurrency.dustLimitP2PKH.raw) { // try to add change output due to "left over" amount being greater than // the estimated fee + the dust limit BigInt changeAmount = satoshisBeingUsed - amountToSend.raw - feeForWithChange; // check estimates are correct and build notification tx if (changeAmount >= cryptoCurrency.dustLimitP2PKH.raw && satoshisBeingUsed - amountToSend.raw - changeAmount == feeForWithChange) { var txn = await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxoSigningData: utxoSigningData, change: changeAmount, ); BigInt feeBeingPaid = satoshisBeingUsed - amountToSend.raw - changeAmount; // make sure minimum fee is accurate if that is being used if (txn.item2 - feeBeingPaid.toInt() == 1) { changeAmount -= BigInt.one; feeBeingPaid += BigInt.one; txn = await _createNotificationTx( targetPaymentCodeString: targetPaymentCodeString, utxoSigningData: utxoSigningData, change: changeAmount, ); } final txData = TxData( raw: txn.item1, recipients: [ ( address: targetPaymentCodeString, amount: amountToSend, isChange: false, ), ], fee: Amount( rawValue: feeBeingPaid, fractionDigits: cryptoCurrency.fractionDigits, ), vSize: txn.item2, utxos: utxoSigningData.map((e) => e.utxo).toSet(), note: "PayNym connect", ); return txData; } 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, utxoSigningData: utxoSigningData, change: BigInt.zero, ); final BigInt feeBeingPaid = satoshisBeingUsed - amountToSend.raw; final txData = TxData( raw: txn.item1, recipients: [ ( address: targetPaymentCodeString, amount: amountToSend, isChange: false, ), ], fee: Amount( rawValue: feeBeingPaid, fractionDigits: cryptoCurrency.fractionDigits, ), vSize: txn.item2, utxos: utxoSigningData.map((e) => e.utxo).toSet(), note: "PayNym connect", ); return txData; } } else if (satoshisBeingUsed - amountToSend.raw >= 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, utxoSigningData: utxoSigningData, change: BigInt.zero, ); final BigInt feeBeingPaid = satoshisBeingUsed - amountToSend.raw; final txData = TxData( raw: txn.item1, recipients: [ ( address: targetPaymentCodeString, amount: amountToSend, isChange: false, ), ], fee: Amount( rawValue: feeBeingPaid, fractionDigits: cryptoCurrency.fractionDigits, ), vSize: txn.item2, utxos: utxoSigningData.map((e) => e.utxo).toSet(), note: "PayNym connect", ); return txData; } 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.", ); } } } catch (e) { rethrow; } } // 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 utxoSigningData, required BigInt change, BigInt? overrideAmountForTesting, }) async { try { final targetPaymentCode = PaymentCode.fromPaymentCode( targetPaymentCodeString, networkType: networkType, ); final myCode = await getPaymentCode(isSegwit: false); final utxo = utxoSigningData.first.utxo; final txPoint = utxo.txid.toUint8ListFromHex.reversed.toList(); final txPointIndex = utxo.vout; final rev = Uint8List(txPoint.length + 4); _copyBytes(Uint8List.fromList(txPoint), 0, rev, 0, txPoint.length); final buffer = rev.buffer.asByteData(); buffer.setUint32(txPoint.length, txPointIndex, Endian.little); final myKeyPair = utxoSigningData.first.keyPair!; final S = SecretPoint( myKeyPair.privateKey.data, targetPaymentCode.notificationPublicKey(), ); final blindingMask = PaymentCode.getMask(S.ecdhSecret(), rev); final blindedPaymentCode = PaymentCode.blind( payload: myCode.getPayload(), mask: blindingMask, unBlind: false, ); final opReturnScript = bscript.compile([ (op.OPS["OP_RETURN"] as int), blindedPaymentCode, ]); // build a notification tx final List prevOuts = []; coinlib.Transaction clTx = coinlib.Transaction( version: 1, inputs: [], outputs: [], ); for (var i = 0; i < utxoSigningData.length; i++) { final txid = utxoSigningData[i].utxo.txid; final hash = Uint8List.fromList( txid.toUint8ListFromHex.reversed.toList(), ); final prevOutpoint = coinlib.OutPoint( hash, utxoSigningData[i].utxo.vout, ); final prevOutput = coinlib.Output.fromAddress( BigInt.from(utxoSigningData[i].utxo.value), coinlib.Address.fromString( utxoSigningData[i].utxo.address!, cryptoCurrency.networkParams, ), ); prevOuts.add(prevOutput); final coinlib.Input input; switch (utxoSigningData[i].derivePathType) { case DerivePathType.bip44: case DerivePathType.bch44: input = coinlib.P2PKHInput( prevOut: prevOutpoint, publicKey: utxoSigningData[i].keyPair!.publicKey, sequence: 0xffffffff - 1, ); // TODO: fix this as it is (probably) wrong! (unlikely used in paynyms) case DerivePathType.bip49: throw Exception("TODO p2sh"); // input = coinlib.P2SHMultisigInput( // prevOut: prevOutpoint, // program: coinlib.MultisigProgram.decompile( // utxoSigningData[i].redeemScript!, // ), // sequence: 0xffffffff - 1, // ); case DerivePathType.bip84: input = coinlib.P2WPKHInput( prevOut: prevOutpoint, publicKey: utxoSigningData[i].keyPair!.publicKey, sequence: 0xffffffff - 1, ); case DerivePathType.bip86: input = coinlib.TaprootKeyInput(prevOut: prevOutpoint); default: throw UnsupportedError( "Unknown derivation path type found: ${utxoSigningData[i].derivePathType}", ); } clTx = clTx.addInput(input); } final String notificationAddress = targetPaymentCode.notificationAddressP2PKH(); final address = coinlib.Address.fromString( normalizeAddress(notificationAddress), cryptoCurrency.networkParams, ); final output = coinlib.Output.fromAddress( overrideAmountForTesting ?? cryptoCurrency.dustLimitP2PKH.raw, address, ); clTx = clTx.addOutput(output); clTx = clTx.addOutput( coinlib.Output.fromScriptBytes( BigInt.zero, opReturnScript, ), ); // TODO: add possible change output and mark output as dangerous if (change > BigInt.zero) { // generate new change address if current change address has been used await checkChangeAddressForTransactions(); final String changeAddress = (await getCurrentChangeAddress())!.value; final output = coinlib.Output.fromAddress( change, coinlib.Address.fromString( normalizeAddress(changeAddress), cryptoCurrency.networkParams, ), ); clTx = clTx.addOutput(output); } clTx = clTx.sign( inputN: 0, value: BigInt.from(utxo.value), key: myKeyPair.privateKey, prevOuts: prevOuts, ); // sign rest of possible inputs for (int i = 1; i < utxoSigningData.length; i++) { final value = BigInt.from(utxoSigningData[i].utxo.value); coinlib.ECPrivateKey key = utxoSigningData[i].keyPair!.privateKey; if (clTx.inputs[i] is coinlib.TaprootKeyInput) { final taproot = coinlib.Taproot( internalKey: utxoSigningData[i].keyPair!.publicKey, ); key = taproot.tweakPrivateKey(key); } clTx = clTx.sign( inputN: i, value: value, key: key, prevOuts: prevOuts, ); } return Tuple2(clTx.toHex(), clTx.vSize()); } catch (e, s) { Logging.instance.log( "_createNotificationTx(): $e\n$s", level: LogLevel.Error, ); rethrow; } } Future broadcastNotificationTx({ required TxData txData, }) async { try { Logging.instance .log("confirmNotificationTx txData: $txData", level: LogLevel.Info); final txHash = await electrumXClient.broadcastTransaction(rawTx: txData.raw!); Logging.instance.log("Sent txHash: $txHash", level: LogLevel.Info); try { await updateTransactions(); } catch (e) { Logging.instance.log( "refresh() failed in confirmNotificationTx (${info.name}::$walletId): $e", level: LogLevel.Error, ); } return txData.copyWith( txid: txHash, txHash: txHash, ); } catch (e, s) { Logging.instance.log( "Exception rethrown from confirmSend(): $e\n$s", level: LogLevel.Error, ); rethrow; } } // Future _checkHasConnectedCache(String paymentCodeString) async { // final value = await secureStorageInterface.read( // key: "$_connectedKeyPrefix$paymentCodeString"); // if (value == null) { // return null; // } else { // final int rawBool = int.parse(value); // return rawBool > 0; // } // } // // Future _setConnectedCache( // String paymentCodeString, bool hasConnected) async { // await secureStorageInterface.write( // key: "$_connectedKeyPrefix$paymentCodeString", // value: hasConnected ? "1" : "0"); // } // TODO optimize Future hasConnected(String paymentCodeString) async { // final didConnect = await _checkHasConnectedCache(paymentCodeString); // if (didConnect == true) { // return true; // } // // final keys = await lookupKey(paymentCodeString); // // final tx = await mainDB // .getTransactions(walletId) // .filter() // .subTypeEqualTo(TransactionSubType.bip47Notification).and() // .address((q) => // q.anyOf(keys, (q, e) => q.otherDataEqualTo(e))) // .findAll(); final myNotificationAddress = await getMyNotificationAddress(); final txns = await mainDB.isar.transactionV2s .where() .walletIdEqualTo(walletId) .filter() .subTypeEqualTo(TransactionSubType.bip47Notification) .findAll(); for (final tx in txns) { switch (tx.type) { case TransactionType.incoming: for (final output in tx.outputs) { for (final outputAddress in output.addresses) { if (outputAddress == myNotificationAddress.value) { final unBlindedPaymentCode = await unBlindedPaymentCodeFromTransaction( transaction: tx, ); if (unBlindedPaymentCode != null && paymentCodeString == unBlindedPaymentCode.toString()) { // await _setConnectedCache(paymentCodeString, true); return true; } final unBlindedPaymentCodeBad = await unBlindedPaymentCodeFromTransactionBad( transaction: tx, ); if (unBlindedPaymentCodeBad != null && paymentCodeString == unBlindedPaymentCodeBad.toString()) { // await _setConnectedCache(paymentCodeString, true); return true; } } } } case TransactionType.outgoing: for (final output in tx.outputs) { for (final outputAddress in output.addresses) { final address = await mainDB.isar.addresses .where() .walletIdEqualTo(walletId) .filter() .subTypeEqualTo(AddressSubType.paynymNotification) .and() .valueEqualTo(outputAddress) .findFirst(); if (address?.otherData != null) { final code = await paymentCodeStringByKey(address!.otherData!); if (code == paymentCodeString) { // await _setConnectedCache(paymentCodeString, true); return true; } } } } default: break; } } // otherwise return no // await _setConnectedCache(paymentCodeString, false); return false; } Uint8List? _pubKeyFromInput(InputV2 input) { final scriptSigComponents = input.scriptSigAsm?.split(" ") ?? []; if (scriptSigComponents.length > 1) { return scriptSigComponents[1].toUint8ListFromHex; } if (input.witness != null) { try { final witnessComponents = jsonDecode(input.witness!) as List; if (witnessComponents.length == 2) { return (witnessComponents[1] as String).toUint8ListFromHex; } } catch (e, s) { Logging.instance.log("_pubKeyFromInput: $e\n$s", level: LogLevel.Info); } } return null; } Future unBlindedPaymentCodeFromTransaction({ required TransactionV2 transaction, }) async { try { final blindedCodeBytes = Bip47Utils.getBlindedPaymentCodeBytesFrom(transaction); // transaction does not contain a payment code if (blindedCodeBytes == null) { return null; } final designatedInput = transaction.inputs.first; final txPoint = designatedInput.outpoint!.txid.toUint8ListFromHex.reversed.toList(); final txPointIndex = designatedInput.outpoint!.vout; final rev = Uint8List(txPoint.length + 4); _copyBytes(Uint8List.fromList(txPoint), 0, rev, 0, txPoint.length); final buffer = rev.buffer.asByteData(); buffer.setUint32(txPoint.length, txPointIndex, Endian.little); final pubKey = _pubKeyFromInput(designatedInput)!; final myPrivateKey = (await deriveNotificationBip32Node()).privateKey!; final S = SecretPoint(myPrivateKey, pubKey); final mask = PaymentCode.getMask(S.ecdhSecret(), rev); final unBlindedPayload = PaymentCode.blind( payload: blindedCodeBytes, mask: mask, unBlind: true, ); final unBlindedPaymentCode = PaymentCode.fromPayload( unBlindedPayload, networkType: networkType, ); return unBlindedPaymentCode; } catch (e, s) { Logging.instance.log( "unBlindedPaymentCodeFromTransaction() failed: $e\n$s\nFor tx: $transaction", level: LogLevel.Warning, ); return null; } } Future unBlindedPaymentCodeFromTransactionBad({ required TransactionV2 transaction, }) async { try { final blindedCodeBytes = Bip47Utils.getBlindedPaymentCodeBytesFrom(transaction); // transaction does not contain a payment code if (blindedCodeBytes == null) { return null; } final designatedInput = transaction.inputs.first; final txPoint = designatedInput.outpoint!.txid.toUint8ListFromHex.toList(); final txPointIndex = designatedInput.outpoint!.vout; final rev = Uint8List(txPoint.length + 4); _copyBytes(Uint8List.fromList(txPoint), 0, rev, 0, txPoint.length); final buffer = rev.buffer.asByteData(); buffer.setUint32(txPoint.length, txPointIndex, Endian.little); final pubKey = _pubKeyFromInput(designatedInput)!; final myPrivateKey = (await deriveNotificationBip32Node()).privateKey!; final S = SecretPoint(myPrivateKey, pubKey); final mask = PaymentCode.getMask(S.ecdhSecret(), rev); final unBlindedPayload = PaymentCode.blind( payload: blindedCodeBytes, mask: mask, unBlind: true, ); final unBlindedPaymentCode = PaymentCode.fromPayload( unBlindedPayload, networkType: networkType, ); return unBlindedPaymentCode; } catch (e) { Logging.instance.log( "unBlindedPaymentCodeFromTransactionBad() failed: $e\nFor tx: $transaction", level: LogLevel.Warning, ); return null; } } Future> getAllPaymentCodesFromNotificationTransactions() async { final txns = await mainDB.isar.transactionV2s .where() .walletIdEqualTo(walletId) .filter() .subTypeEqualTo(TransactionSubType.bip47Notification) .findAll(); final List codes = []; for (final tx in txns) { // tx is sent so we can check the address's otherData for the code String if (tx.type == TransactionType.outgoing) { for (final output in tx.outputs) { for (final outputAddress in output.addresses.where((e) => e.isNotEmpty)) { final address = await mainDB.isar.addresses .where() .walletIdEqualTo(walletId) .filter() .subTypeEqualTo(AddressSubType.paynymNotification) .and() .valueEqualTo(outputAddress) .findFirst(); if (address?.otherData != null) { final codeString = await paymentCodeStringByKey(address!.otherData!); if (codeString != null && codes.where((e) => e.toString() == codeString).isEmpty) { codes.add( PaymentCode.fromPaymentCode( codeString, networkType: networkType, ), ); } } } } } else { // otherwise we need to un blind the code final unBlinded = await unBlindedPaymentCodeFromTransaction( transaction: tx, ); if (unBlinded != null && codes.where((e) => e.toString() == unBlinded.toString()).isEmpty) { codes.add(unBlinded); } final unBlindedBad = await unBlindedPaymentCodeFromTransactionBad( transaction: tx, ); if (unBlindedBad != null && codes .where((e) => e.toString() == unBlindedBad.toString()) .isEmpty) { codes.add(unBlindedBad); } } } return codes; } Future checkForNotificationTransactionsTo( Set otherCodeStrings, ) async { final sentNotificationTransactions = await mainDB.isar.transactionV2s .where() .walletIdEqualTo(walletId) .filter() .subTypeEqualTo(TransactionSubType.bip47Notification) .and() .typeEqualTo(TransactionType.outgoing) .findAll(); final List codes = []; for (final codeString in otherCodeStrings) { codes.add( PaymentCode.fromPaymentCode(codeString, networkType: networkType), ); } for (final tx in sentNotificationTransactions) { for (final output in tx.outputs) { for (final outputAddress in output.addresses) { if (outputAddress.isNotEmpty) { for (final code in codes) { final notificationAddress = code.notificationAddressP2PKH(); if (outputAddress == notificationAddress) { Address? storedAddress = await mainDB.getAddress(walletId, outputAddress); if (storedAddress == null) { // most likely not mine storedAddress = Address( walletId: walletId, value: notificationAddress, publicKey: [], derivationIndex: 0, derivationPath: null, type: AddressType.nonWallet, subType: AddressSubType.paynymNotification, otherData: await storeCode(code.toString()), ); } else { storedAddress = storedAddress.copyWith( subType: AddressSubType.paynymNotification, otherData: await storeCode(code.toString()), ); } await mainDB.updateOrPutAddresses([storedAddress]); } } } } } } } Future restoreAllHistory({ required int maxUnusedAddressGap, required int maxNumberOfIndexesToCheck, required Set paymentCodeStrings, }) async { final codes = await getAllPaymentCodesFromNotificationTransactions(); final List extraCodes = []; for (final codeString in paymentCodeStrings) { if (codes.where((e) => e.toString() == codeString).isEmpty) { final extraCode = PaymentCode.fromPaymentCode( codeString, networkType: networkType, ); if (extraCode.isValid()) { extraCodes.add(extraCode); } } } codes.addAll(extraCodes); final List> futures = []; for (final code in codes) { futures.add( _restoreHistoryWith( other: code, maxUnusedAddressGap: maxUnusedAddressGap, maxNumberOfIndexesToCheck: maxNumberOfIndexesToCheck, checkSegwitAsWell: code.isSegWitEnabled(), ), ); } await Future.wait(futures); } Future _restoreHistoryWith({ required PaymentCode other, required bool checkSegwitAsWell, required int maxUnusedAddressGap, required int maxNumberOfIndexesToCheck, }) async { // https://en.bitcoin.it/wiki/BIP_0047#Path_levels const maxCount = 2147483647; assert(maxNumberOfIndexesToCheck < maxCount); final mySendBip32Node = await deriveNotificationBip32Node(); final List
addresses = []; int receivingGapCounter = 0; int outgoingGapCounter = 0; // non segwit receiving for (int i = 0; i < maxNumberOfIndexesToCheck && receivingGapCounter < maxUnusedAddressGap; i++) { if (receivingGapCounter < maxUnusedAddressGap) { final address = await _generatePaynymReceivingAddress( sender: other, index: i, generateSegwitAddress: false, ); addresses.add(address); final count = await fetchTxCount( addressScriptHash: cryptoCurrency.addressToScriptHash( address: address.value, ), ); if (count > 0) { receivingGapCounter = 0; } else { receivingGapCounter++; } } } // non segwit sends for (int i = 0; i < maxNumberOfIndexesToCheck && outgoingGapCounter < maxUnusedAddressGap; i++) { if (outgoingGapCounter < maxUnusedAddressGap) { final address = await _generatePaynymSendAddress( other: other, index: i, generateSegwitAddress: false, mySendBip32Node: mySendBip32Node, ); addresses.add(address); final count = await fetchTxCount( addressScriptHash: cryptoCurrency.addressToScriptHash( address: address.value, ), ); if (count > 0) { outgoingGapCounter = 0; } else { outgoingGapCounter++; } } } if (checkSegwitAsWell) { int receivingGapCounterSegwit = 0; int outgoingGapCounterSegwit = 0; // segwit receiving for (int i = 0; i < maxNumberOfIndexesToCheck && receivingGapCounterSegwit < maxUnusedAddressGap; i++) { if (receivingGapCounterSegwit < maxUnusedAddressGap) { final address = await _generatePaynymReceivingAddress( sender: other, index: i, generateSegwitAddress: true, ); addresses.add(address); final count = await fetchTxCount( addressScriptHash: cryptoCurrency.addressToScriptHash( address: address.value, ), ); if (count > 0) { receivingGapCounterSegwit = 0; } else { receivingGapCounterSegwit++; } } } // segwit sends for (int i = 0; i < maxNumberOfIndexesToCheck && outgoingGapCounterSegwit < maxUnusedAddressGap; i++) { if (outgoingGapCounterSegwit < maxUnusedAddressGap) { final address = await _generatePaynymSendAddress( other: other, index: i, generateSegwitAddress: true, mySendBip32Node: mySendBip32Node, ); addresses.add(address); final count = await fetchTxCount( addressScriptHash: cryptoCurrency.addressToScriptHash( address: address.value, ), ); if (count > 0) { outgoingGapCounterSegwit = 0; } else { outgoingGapCounterSegwit++; } } } } await mainDB.updateOrPutAddresses(addresses); } Future
getMyNotificationAddress() async { final storedAddress = await mainDB .getAddresses(walletId) .filter() .subTypeEqualTo(AddressSubType.paynymNotification) .and() .typeEqualTo(AddressType.p2pkh) .and() .not() .typeEqualTo(AddressType.nonWallet) .findFirst(); if (storedAddress != null) { return storedAddress; } else { final root = await _getRootNode(); final node = root.derivePath( _basePaynymDerivePath( testnet: info.coin.network == CryptoCurrencyNetwork.test, ), ); final paymentCode = PaymentCode.fromBip32Node( node, networkType: networkType, shouldSetSegwitBit: false, ); final data = btc_dart.PaymentData( pubkey: paymentCode.notificationPublicKey(), ); final addressString = btc_dart .P2PKH( data: data, network: networkType, ) .data .address!; Address address = Address( walletId: walletId, value: addressString, publicKey: paymentCode.getPubKey(), derivationIndex: 0, derivationPath: DerivationPath() ..value = _notificationDerivationPath( testnet: info.coin.network == CryptoCurrencyNetwork.test, ), type: AddressType.p2pkh, subType: AddressSubType.paynymNotification, otherData: await storeCode(paymentCode.toString()), ); // check against possible race condition. Ff this function was called // multiple times an address could've been saved after the check at the // beginning to see if there already was notification address. This would // lead to a Unique Index violation error await mainDB.isar.writeTxn(() async { final storedAddress = await mainDB .getAddresses(walletId) .filter() .subTypeEqualTo(AddressSubType.paynymNotification) .and() .typeEqualTo(AddressType.p2pkh) .and() .not() .typeEqualTo(AddressType.nonWallet) .findFirst(); if (storedAddress == null) { await mainDB.isar.addresses.put(address); } else { address = storedAddress; } }); return address; } } /// look up a key that corresponds to a payment code string Future> lookupKey(String paymentCodeString) async { final keys = (await secureStorageInterface.keys).where( (e) => e.startsWith(kPCodeKeyPrefix), ); final List result = []; for (final key in keys) { final value = await secureStorageInterface.read(key: key); if (value == paymentCodeString) { result.add(key); } } return result; } /// fetch a payment code string Future paymentCodeStringByKey(String key) async { final value = await secureStorageInterface.read(key: key); return value; } /// store payment code string and return the generated key used Future storeCode(String paymentCodeString) async { final key = _generateKey(); await secureStorageInterface.write(key: key, value: paymentCodeString); return key; } void _copyBytes( Uint8List source, int sourceStartingIndex, Uint8List destination, int destinationStartingIndex, int numberOfBytes, ) { for (int i = 0; i < numberOfBytes; i++) { destination[i + destinationStartingIndex] = source[i + sourceStartingIndex]; } } /// 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)), ); } // ================== Overrides ============================================== @override Future updateTransactions({List
? overrideAddresses}) async { // Get all addresses. final List
allAddressesOld = overrideAddresses ?? await fetchAddressesForElectrumXScan(); // Separate receiving and change addresses. final Set receivingAddresses = allAddressesOld .where( (e) => e.subType == AddressSubType.receiving || e.subType == AddressSubType.paynymNotification || e.subType == AddressSubType.paynymReceive, ) .map((e) => e.value) .toSet(); final Set changeAddresses = allAddressesOld .where((e) => e.subType == AddressSubType.change) .map((e) => e.value) .toSet(); // Remove duplicates. final allAddressesSet = {...receivingAddresses, ...changeAddresses}; // Fetch history from ElectrumX. final List> allTxHashes = await fetchHistory(allAddressesSet); // Only parse new txs (not in db yet). final List> allTransactions = []; for (final txHash in allTxHashes) { // Check for duplicates by searching for tx by tx_hash in db. // final storedTx = await mainDB.isar.transactionV2s // .where() // .txidWalletIdEqualTo(txHash["tx_hash"] as String, walletId) // .findFirst(); // // if (storedTx == null || // storedTx.height == null || // (storedTx.height != null && storedTx.height! <= 0)) { // Tx not in db yet. final tx = await electrumXCachedClient.getTransaction( txHash: txHash["tx_hash"] as String, verbose: true, cryptoCurrency: cryptoCurrency, ); // Only tx to list once. if (allTransactions .indexWhere((e) => e["txid"] == tx["txid"] as String) == -1) { tx["height"] = txHash["height"]; allTransactions.add(tx); } // } } // Parse all new txs. final List txns = []; for (final txData in allTransactions) { bool wasSentFromThisWallet = false; // Set to true if any inputs were detected as owned by this wallet. bool wasReceivedInThisWallet = false; // Set to true if any outputs were detected as owned by this wallet. // Parse inputs. BigInt amountReceivedInThisWallet = BigInt.zero; BigInt changeAmountReceivedInThisWallet = BigInt.zero; final List inputs = []; for (final jsonInput in txData["vin"] as List) { final map = Map.from(jsonInput as Map); final List addresses = []; String valueStringSats = "0"; OutpointV2? outpoint; final coinbase = map["coinbase"] as String?; if (coinbase == null) { // Not a coinbase (ie a typical input). final txid = map["txid"] as String; final vout = map["vout"] as int; final inputTx = await electrumXCachedClient.getTransaction( txHash: txid, cryptoCurrency: cryptoCurrency, ); final prevOutJson = Map.from( (inputTx["vout"] as List).firstWhere((e) => e["n"] == vout) as Map, ); final prevOut = OutputV2.fromElectrumXJson( prevOutJson, decimalPlaces: cryptoCurrency.fractionDigits, isFullAmountNotSats: true, walletOwns: false, // Doesn't matter here as this is not saved. ); outpoint = OutpointV2.isarCantDoRequiredInDefaultConstructor( txid: txid, vout: vout, ); valueStringSats = prevOut.valueStringSats; addresses.addAll(prevOut.addresses); } InputV2 input = InputV2.fromElectrumxJson( json: map, outpoint: outpoint, valueStringSats: valueStringSats, addresses: addresses, coinbase: coinbase, // Need addresses before we can know if the wallet owns this input. walletOwns: false, ); // Check if input was from this wallet. if (allAddressesSet.intersection(input.addresses.toSet()).isNotEmpty) { wasSentFromThisWallet = true; input = input.copyWith(walletOwns: true); } inputs.add(input); } // Parse outputs. final List outputs = []; for (final outputJson in txData["vout"] as List) { OutputV2 output = OutputV2.fromElectrumXJson( Map.from(outputJson as Map), decimalPlaces: cryptoCurrency.fractionDigits, isFullAmountNotSats: true, // Need addresses before we can know if the wallet owns this input. walletOwns: false, ); // If output was to my wallet, add value to amount received. if (receivingAddresses .intersection(output.addresses.toSet()) .isNotEmpty) { wasReceivedInThisWallet = true; amountReceivedInThisWallet += output.value; output = output.copyWith(walletOwns: true); } else if (changeAddresses .intersection(output.addresses.toSet()) .isNotEmpty) { wasReceivedInThisWallet = true; changeAmountReceivedInThisWallet += output.value; output = output.copyWith(walletOwns: true); } outputs.add(output); } final totalOut = outputs .map((e) => e.value) .fold(BigInt.zero, (value, element) => value + element); TransactionType type; TransactionSubType subType = TransactionSubType.none; if (outputs.length > 1 && inputs.isNotEmpty) { for (int i = 0; i < outputs.length; i++) { final List? scriptChunks = outputs[i].scriptPubKeyAsm?.split(" "); if (scriptChunks?.length == 2 && scriptChunks?[0] == "OP_RETURN") { final blindedPaymentCode = scriptChunks![1]; final bytes = blindedPaymentCode.toUint8ListFromHex; // https://en.bitcoin.it/wiki/BIP_0047#Sending if (bytes.length == 80 && bytes.first == 1) { subType = TransactionSubType.bip47Notification; break; } } } } // At least one input was owned by this wallet. if (wasSentFromThisWallet) { type = TransactionType.outgoing; if (wasReceivedInThisWallet) { if (changeAmountReceivedInThisWallet + amountReceivedInThisWallet == totalOut) { // Definitely sent all to self. type = TransactionType.sentToSelf; } else if (amountReceivedInThisWallet == BigInt.zero) { // Most likely just a typical send, do nothing here yet. } } } else if (wasReceivedInThisWallet) { // Only found outputs owned by this wallet. type = TransactionType.incoming; // TODO: [prio=none] Check for special Bitcoin outputs like ordinals. } else { Logging.instance.log( "Unexpected tx found (ignoring it): $txData", level: LogLevel.Error, ); continue; } final tx = TransactionV2( walletId: walletId, blockHash: txData["blockhash"] as String?, hash: txData["hash"] as String, txid: txData["txid"] as String, height: txData["height"] as int?, version: txData["version"] as int, timestamp: txData["blocktime"] as int? ?? DateTime.timestamp().millisecondsSinceEpoch ~/ 1000, inputs: List.unmodifiable(inputs), outputs: List.unmodifiable(outputs), type: type, subType: subType, otherData: null, ); txns.add(tx); } await mainDB.updateOrPutTransactionV2s(txns); } @override Future< ({ String? blockedReason, bool blocked, String? utxoLabel, })> checkBlockUTXO( Map jsonUTXO, String? scriptPubKeyHex, Map? jsonTX, String? utxoOwnerAddress, ) async { bool blocked = false; String? blockedReason; String? utxoLabel; // check for bip47 notification if (jsonTX != null) { final outputs = jsonTX["vout"] as List; for (int i = 0; i < outputs.length; i++) { final output = outputs[i]; final List? scriptChunks = (output['scriptPubKey']?['asm'] as String?)?.split(" "); if (scriptChunks?.length == 2 && scriptChunks?[0] == "OP_RETURN") { final blindedPaymentCode = scriptChunks![1]; final bytes = blindedPaymentCode.toUint8ListFromHex; // https://en.bitcoin.it/wiki/BIP_0047#Sending if (bytes.length == 80 && bytes.first == 1) { final myNotificationAddress = await getMyNotificationAddress(); if (utxoOwnerAddress == myNotificationAddress.value) { blocked = true; blockedReason = "Incoming paynym notification transaction."; } else { blockedReason = "Paynym notification change output. Incautious " "handling of change outputs from notification transactions " "may cause unintended loss of privacy."; utxoLabel = blockedReason; } break; } } } } return ( blockedReason: blockedReason, blocked: blocked, utxoLabel: utxoLabel ); } @override FilterOperation? get transactionFilterOperation => FilterGroup.not( const FilterGroup.and( [ FilterCondition.equalTo( property: r"subType", value: TransactionSubType.bip47Notification, ), FilterCondition.equalTo( property: r"type", value: TransactionType.incoming, ), ], ), ); }