import 'dart:async'; import 'dart:convert'; import 'dart:io'; import 'package:decimal/decimal.dart'; import 'package:fusiondart/fusiondart.dart'; import 'package:fusiondart/src/models/address.dart' as fusion_address; import 'package:fusiondart/src/models/input.dart' as fusion_input; import 'package:fusiondart/src/models/output.dart' as fusion_output; import 'package:fusiondart/src/models/transaction.dart' as fusion_tx; import 'package:isar/isar.dart'; import 'package:stackwallet/db/isar/main_db.dart'; import 'package:stackwallet/electrumx_rpc/cached_electrumx.dart'; import 'package:stackwallet/models/isar/models/isar_models.dart'; import 'package:stackwallet/services/tor_service.dart'; import 'package:stackwallet/utilities/amount/amount.dart'; import 'package:stackwallet/utilities/enums/coin_enum.dart'; import 'package:stackwallet/utilities/enums/derive_path_type_enum.dart'; import 'package:stackwallet/utilities/stack_file_system.dart'; const String kReservedFusionAddress = "reserved_fusion_address"; /// A mixin for the BitcoinCashWallet class that adds CashFusion functionality. mixin FusionWalletInterface { // Passed in wallet data. late final String _walletId; late final Coin _coin; late final MainDB _db; late final CachedElectrumX _cachedElectrumX; late final TorService _torService; // Passed in wallet functions. late final Future
Function( int chain, int index, DerivePathType derivePathType, ) _generateAddressForChain; /// Initializes the FusionWalletInterface mixin. /// /// This function must be called before any other functions in this mixin. /// /// Returns a `Future` that resolves when Tor has been started. Future initFusionInterface({ required String walletId, required Coin coin, required MainDB db, required Future
Function( int, int, DerivePathType, ) generateAddressForChain, required CachedElectrumX cachedElectrumX, }) async { // Set passed in wallet data. _walletId = walletId; _coin = coin; _db = db; _generateAddressForChain = generateAddressForChain; _torService = TorService.sharedInstance; _cachedElectrumX = cachedElectrumX; // Try getting the proxy info. // // Start the Tor service if it's not already running. Returns if Tor is already // connected or else after Tor returns from start(). try { _torService.getProxyInfo(); // Proxy info successfully retrieved, Tor is connected. return; } catch (e) { // Init the Tor service if it hasn't already been. final torDir = await StackFileSystem.applicationTorDirectory(); _torService.init(torDataDirPath: torDir.path); // Start the Tor service. return await _torService.start(); } } /// Returns a list of all addresses in the wallet. Future> getFusionAddresses() async { List
_addresses = await _db.getAddresses(_walletId).findAll(); return _addresses.map((address) => address.toFusionAddress()).toList(); } /// Returns a list of all transactions in the wallet for the given address. Future> getTransactionsByAddress( String address) async { var _txs = await _db.getTransactions(_walletId).findAll(); // Use Future.wait to await all the futures in the set and then convert it to a set. var resultSet = await Future.wait( _txs.map((tx) => tx.toFusionTransaction(_cachedElectrumX))); return resultSet.toSet(); } /// Returns a list of all UTXOs in the wallet for the given address. Future> getInputsByAddress(String address) async { var _utxos = await _db.getUTXOsByAddress(_walletId, address).findAll(); return _utxos .map((utxo) => utxo.toFusionInput( pubKey: utf8.encode(address.toString()))) // TODO fix public key. .toList(); } /// Creates a new reserved change address. Future createNewReservedChangeAddress() async { int? highestChangeIndex = await _db .getAddresses(_walletId) .filter() .typeEqualTo(AddressType.p2pkh) .subTypeEqualTo(AddressSubType.change) .derivationPath((q) => q.not().valueStartsWith("m/44'/0'")) .sortByDerivationIndexDesc() .derivationIndexProperty() .findFirst(); Address address = await _generateAddressForChain( 1, // change chain highestChangeIndex ?? 0, DerivePathTypeExt.primaryFor(_coin), ); address = address.copyWith(otherData: kReservedFusionAddress); // TODO if we really want to be sure it's not used, call electrumx and check it Address? _address = await _db.getAddress(_walletId, address.value); if (_address != null) { // throw Exception("Address already exists"); await _db.updateAddress(_address, address); } else { await _db.putAddress(address); } return address.toFusionAddress(); } /// Returns a list of unused reserved change addresses. /// /// If there are not enough unused reserved change addresses, new ones are created. Future> getUnusedReservedChangeAddresses( int numberOfAddresses, ) async { // Fetch all transactions that have been sent to a reserved change address. final txns = await _db .getTransactions(_walletId) .filter() .address((q) => q.otherDataEqualTo(kReservedFusionAddress)) .findAll(); // Fetch all addresses that have been used in a transaction. final List usedAddresses = txns .where((e) => e.address.value != null) .map((e) => e.address.value!.value) .toList(growable: false); // Fetch all reserved change addresses. final List
addresses = await _db .getAddresses(_walletId) .filter() .otherDataEqualTo(kReservedFusionAddress) .findAll(); // Initialize a list of unused reserved change addresses. final List unusedAddresses = []; // Add any unused reserved change addresses to the list. for (final address in addresses) { if (!usedAddresses.contains(address.value)) { unusedAddresses.add(address.toFusionAddress()); } } // If there are not enough unused reserved change addresses, create new ones. if (unusedAddresses.length < numberOfAddresses) { for (int i = unusedAddresses.length; i < numberOfAddresses; i++) { unusedAddresses.add(await createNewReservedChangeAddress()); } } // Return the list of unused reserved change addresses. return unusedAddresses; } /// Returns the current Tor proxy address. Future<({InternetAddress host, int port})> getSocksProxyAddress() async { /* // Start the Tor service if it's not already running. if (_torService.proxyInfo.port == -1) { // -1 indicates that the proxy is not running. await _torService.start(); // We already unawaited this in initFusionInterface... } */ // TODO make sure we've properly awaited the Tor service starting before // returning the proxy address. // Return the proxy address. return _torService.getProxyInfo(); } // Initial attempt for CashFusion integration goes here. /// Fuse the wallet's UTXOs. /// /// This function is called when the user taps the "Fuse" button in the UI. /// /// Returns: /// A `Future` that resolves when the fusion operation is finished. Future fuse() async { // Initial attempt for CashFusion integration goes here. Fusion mainFusionObject = Fusion( getAddresses: () => getFusionAddresses(), getTransactionsByAddress: (String address) => getTransactionsByAddress(address), getInputsByAddress: (String address) => getInputsByAddress(address), // createNewReservedChangeAddress: () => createNewReservedChangeAddress(), getUnusedReservedChangeAddresses: (int numberOfAddresses) => getUnusedReservedChangeAddresses(numberOfAddresses), getSocksProxyAddress: () => getSocksProxyAddress(), ); // Pass wallet functions to the Fusion object mainFusionObject.initFusion( getAddresses: getFusionAddresses, getTransactionsByAddress: getTransactionsByAddress, getInputsByAddress: getInputsByAddress, /*createNewReservedChangeAddress: createNewReservedChangeAddress,*/ getUnusedReservedChangeAddresses: getUnusedReservedChangeAddresses, getSocksProxyAddress: getSocksProxyAddress); // Add stack UTXOs. List utxos = await _db.getUTXOs(_walletId).findAll(); List<(String, int, int, List)> coinList = []; // Loop through UTXOs, checking and adding valid ones. for (var e in utxos) { // Check if address is available. if (e.address == null) { // TODO we could continue here (and below during scriptPubKey validation) instead of throwing. throw Exception("UTXO ${e.txid}:${e.vout} address is null"); } // Find public key. print("1 getting tx ${e.txid}"); Map tx = await _cachedElectrumX.getTransaction( coin: _coin, txHash: e.txid, verbose: true); // TODO is verbose needed? // Check if scriptPubKey is available. if (tx["vout"] == null) { throw Exception("Vout in transaction ${e.txid} is null"); } if (tx["vout"][e.vout] == null) { throw Exception("Vout index ${e.vout} in transaction is null"); } if (tx["vout"][e.vout]["scriptPubKey"] == null) { throw Exception("scriptPubKey at vout index ${e.vout} is null"); } if (tx["vout"][e.vout]["scriptPubKey"]["hex"] == null) { throw Exception("hex in scriptPubKey at vout index ${e.vout} is null"); } // Assign scriptPubKey to pubKey. TODO verify this is correct. List pubKey = utf8.encode("${tx["vout"][e.vout]["scriptPubKey"]["hex"]}"); // Add UTXO to coinList. coinList.add((e.txid, e.vout, e.value, pubKey)); } // Add Stack UTXOs. await mainFusionObject.addCoinsFromWallet(coinList); // Fuse UTXOs. return await mainFusionObject.fuse(); //print ("DEBUG FUSION bitcoincash_wallet.dart 1202"); // TODO remove or fix code below. /* print("DEBUG: Waiting for any potential incoming data..."); try { await Future.delayed(Duration(seconds: 5)); // wait for 5 seconds } catch (e) { print (e); } print("DEBUG: Done waiting."); bool mydebug1 = false; if (mydebug1 == true) { var serverIp = '167.114.119.46'; var serverPort = 8787; List frame = [ 118, 91, 232, 180, 228, 57, 109, 207, 0, 0, 0, 45, 10, 43, 10, 7, 97, 108, 112, 104, 97, 49, 51, 18, 32, 111, 226, 140, 10, 182, 241, 179, 114, 193, 166, 162, 70, 174, 99, 247, 79, 147, 30, 131, 101, 225, 90, 8, 156, 104, 214, 25, 0, 0, 0, 0, 0 ]; print("lets try to connect to a socket again"); var socket = await Socket.connect(serverIp, serverPort); print('Connected to the server.'); socket.add(frame); print('Sent frame: $frame'); socket.listen((data) { print('Received from server: $data'); }, onDone: () { print('Server closed connection.'); socket.destroy(); }, onError: (error) { print('Error: $error'); socket.destroy(); }); } // await _checkCurrentChangeAddressesForTransactions(); // await _checkCurrentReceivingAddressesForTransactions(); */ } Future refreshFusion() { // TODO throw UnimplementedError( "TODO refreshFusion eg look up number of fusion participants connected/coordinating"); } } /// An extension of Stack Wallet's Address class that adds CashFusion functionality. extension FusionAddress on Address { fusion_address.Address toFusionAddress() { return fusion_address.Address( addr: value, publicKey: publicKey, // Assuming List and List are compatible derivationPath: fusion_address.DerivationPath(derivationPath?.value ?? "")); } } /// An extension of Stack Wallet's UTXO class that adds CashFusion functionality. /// /// This class is used to convert Stack Wallet's UTXO class to FusionDart's /// Input and Output classes. extension FusionUTXO on UTXO { /// Converts a Stack Wallet UTXO to a FusionDart Input. fusion_input.Input toFusionInput({required List pubKey}) { return fusion_input.Input( prevTxid: utf8.encode(txid), // TODO verify this is what we want. prevIndex: vout, // TODO verify this is what we want. pubKey: pubKey, // TODO fix public key. amount: value, ); } /// Converts a Stack Wallet UTXO to a FusionDart Output. fusion_output.Output toFusionOutput({required String address}) { return fusion_output.Output( addr: fusion_address.Address( addr: address, publicKey: utf8.encode(address.toString()), // TODO fix public key. derivationPath: null, // TODO fix derivation path. ), value: value, ); } } /// An extension of Stack Wallet's Transaction class that adds CashFusion functionality. extension FusionTransaction on Transaction { // WIP. Future toFusionTransaction( CachedElectrumX cachedElectrumX) async { // Initialize Fusion Dart's Transaction object. fusion_tx.Transaction fusionTransaction = fusion_tx.Transaction(); // WIP. fusionTransaction.Inputs = await Future.wait(inputs.map((e) async { // Find input amount. Map _tx = await cachedElectrumX.getTransaction( coin: Coin.bitcoincash, txHash: e.txid, verbose: true); // TODO is verbose needed? // Check if output amount is available. if (_tx.isEmpty) { throw Exception("Transaction not found for input: ${e.txid}"); } if (_tx["vout"] == null) { throw Exception("Vout in transaction ${e.txid} is null"); } if (_tx["vout"][e.vout] == null) { throw Exception("Vout index ${e.vout} in transaction is null"); } if (_tx["vout"][e.vout]["value"] == null) { throw Exception("Value of vout index ${e.vout} in transaction is null"); } // TODO replace with conditional chaining? // Assign vout value to amount. final value = Amount.fromDecimal( Decimal.parse(_tx["vout"][e.vout]["value"].toString()), fractionDigits: Coin.bitcoincash.decimals, ); return fusion_input.Input( prevTxid: utf8.encode(e.txid), // TODO verify this is what we want. prevIndex: e.vout, // TODO verify this is what we want. pubKey: utf8.encode(address.value.toString()), // TODO fix public key. amount: value.raw.toInt(), ); }).toList()); fusionTransaction.Outputs = outputs.map((e) { /* if (e.scriptPubKey == null) { // TODO calculate scriptPubKey if it is null. } */ fusion_address.DerivationPath? derivationPath; List? pubKey; // Validate that we have all the required data. if (address.value == null) { // TODO calculate address if it is null. throw Exception( "address value is null for input: ${e.scriptPubKeyAddress}"); } else { if (address.value!.publicKey.isEmpty || e.scriptPubKey != null) { pubKey = utf8.encode(e.scriptPubKey!); // TODO is this valid? } else { pubKey = address.value! .publicKey; // TODO IMPORTANT: this address may not be *the* address in question :) } if (address.value!.derivationPath != null) { derivationPath = fusion_address.DerivationPath( address.value!.derivationPath!.toString()); } else { // TODO calculate derivation path if it is null. /* throw Exception( "derivationPath is null for input: ${e.scriptPubKeyAddress}"); */ } } // TODO handle case where address.value.publicKey is empty and e.scriptPubKey is null return fusion_output.Output( addr: fusion_address.Address( addr: e.scriptPubKeyAddress, publicKey: pubKey, derivationPath: derivationPath, ), value: e.value, ); }).toList(); return fusionTransaction; } }