import 'dart:async'; import 'dart:convert'; import 'dart:ffi'; import 'dart:io'; import 'dart:math'; import 'package:cw_core/crypto_currency.dart'; import 'package:cw_core/monero_wallet_utils.dart'; import 'package:cw_core/node.dart'; import 'package:cw_core/pathForWallet.dart'; import 'package:cw_core/pending_transaction.dart'; import 'package:cw_core/sync_status.dart'; import 'package:cw_core/transaction_priority.dart'; import 'package:cw_core/wallet_base.dart'; import 'package:cw_core/wallet_info.dart'; import 'package:cw_zano/api/calls.dart' as calls; import 'package:cw_zano/api/model/history.dart'; import 'package:cw_zano/api/model/zano_wallet_keys.dart'; import 'package:cw_zano/api/wallet.dart' as zano_wallet; import 'package:cw_zano/api/zano_api.dart'; import 'package:cw_zano/pending_zano_transaction.dart'; import 'package:cw_zano/zano_balance.dart'; import 'package:cw_zano/zano_transaction_creation_credentials.dart'; import 'package:cw_zano/zano_transaction_history.dart'; import 'package:cw_zano/zano_transaction_info.dart'; import 'package:cw_zano/zano_wallet_addresses.dart'; import 'package:ffi/ffi.dart'; import 'package:flutter/material.dart'; import 'package:mobx/mobx.dart'; part 'zano_wallet.g.dart'; const moneroBlockSize = 1000; class ZanoWallet = ZanoWalletBase with _$ZanoWallet; typedef _load_wallet = Pointer Function(Pointer, Pointer, Int8); typedef _LoadWallet = Pointer Function(Pointer, Pointer, int); const int zanoMixin = 10; abstract class ZanoWalletBase extends WalletBase with Store { ZanoWalletBase(WalletInfo walletInfo) : balance = ObservableMap.of({CryptoCurrency.zano: ZanoBalance(total: 0, unlocked: 0)}), _isTransactionUpdating = false, _hasSyncAfterStartup = false, walletAddresses = ZanoWalletAddresses(walletInfo), syncStatus = NotConnectedSyncStatus(), super(walletInfo) { transactionHistory = ZanoTransactionHistory(); /*_onAccountChangeReaction = reaction((_) => walletAddresses.account, (Account? account) { if (account == null) { return; } balance.addAll(getZanoBalance(accountIndex: account.id)); /**walletAddresses.updateSubaddressList(accountIndex: account.id);*/ });*/ } List history = []; String assetId = ''; static const int _autoSaveInterval = 30; @override ZanoWalletAddresses walletAddresses; @override @observable SyncStatus syncStatus; @override @observable ObservableMap balance; @override String seed = ''; @override ZanoWalletKeys keys = ZanoWalletKeys( privateSpendKey: '', privateViewKey: '', publicSpendKey: '', publicViewKey: ''); zano_wallet.SyncListener? _listener; /**ReactionDisposer? _onAccountChangeReaction;*/ bool _isTransactionUpdating; bool _hasSyncAfterStartup; Timer? _autoSaveTimer; int _hWallet = 0; int get hWallet => _hWallet; set hWallet(int value) { _hWallet = value; } Future init(String address) async { await walletAddresses.init(); await walletAddresses.updateAddress(address); ///balance.addAll(getZanoBalance(/**accountIndex: walletAddresses.account?.id ?? 0*/)); _setListeners(); await updateTransactions(); if (walletInfo.isRecovery) { debugPrint('setRecoveringFromSeed isRecovery ${walletInfo.isRecovery}'); if (zano_wallet.getCurrentHeight(hWallet) <= 1) { debugPrint('setRefreshFromBlockHeight height ${walletInfo.restoreHeight}'); } } _autoSaveTimer = Timer.periodic(Duration(seconds: _autoSaveInterval), (_) async => await save()); } @override Future? updateBalance() => null; @override void close() { _listener?.stop(); /**_onAccountChangeReaction?.reaction.dispose();*/ _autoSaveTimer?.cancel(); } @override Future connectToNode({required Node node}) async { try { syncStatus = ConnectingSyncStatus(); await calls.setupNode( address: "195.201.107.230:33336", // node.uriRaw, login: "", // node.login, password: "", // node.password, useSSL: false, // node.useSSL ?? false, isLightWallet: false, // FIXME: hardcoded value /*socksProxyAddress: node.socksProxyAddress*/ ); //zano_wallet.setTrustedDaemon(node.trusted); syncStatus = ConnectedSyncStatus(); } catch (e) { syncStatus = FailedSyncStatus(); print(e); } } @override Future startSync() async { try { _setInitialHeight(); } catch (_) {} try { syncStatus = AttemptingSyncStatus(); debugPrint("startRefresh"); _setListeners(); _listener?.start(this, hWallet); } catch (e) { syncStatus = FailedSyncStatus(); print(e); rethrow; } } @override Future createTransaction(Object credentials) async { final creds = credentials as ZanoTransactionCreationCredentials; final output = creds.outputs.first; final address = output.isParsedAddress && (output.extractedAddress?.isNotEmpty ?? false) ? output.extractedAddress! : output.address; final stringAmount = output.sendAll ? null : output.cryptoAmount!.replaceAll(',', '.'); final fee = calculateEstimatedFee(creds.priority); final intAmount = (double.parse(stringAmount!) * pow(10, 12)).toInt(); final transaction = PendingZanoTransaction(fee: fee, intAmount: intAmount, hWallet: hWallet, address: address, assetId: assetId, comment: output.note ?? '', zanoWallet: this); return transaction; /*final _credentials = credentials as ZanoTransactionCreationCredentials; final outputs = _credentials.outputs; final hasMultiDestination = outputs.length > 1; final assetType = CryptoCurrency.fromString(_credentials.assetType.toLowerCase()); final balances = getZanoBalance(/*accountIndex: walletAddresses.account!.id*/); final unlockedBalance = balances[assetType]!.unlockedBalance; PendingTransactionDescription pendingTransactionDescription; if (!(syncStatus is SyncedSyncStatus)) { throw ZanoTransactionCreationException('The wallet is not synced.'); } if (hasMultiDestination) { if (outputs.any( (item) => item.sendAll || (item.formattedCryptoAmount ?? 0) <= 0)) { throw ZanoTransactionCreationException( 'You do not have enough coins to send this amount.'); } final int totalAmount = outputs.fold( 0, (acc, value) => acc + (value.formattedCryptoAmount ?? 0)); if (unlockedBalance < totalAmount) { throw ZanoTransactionCreationException( 'You do not have enough coins to send this amount.'); } final zanoOutputs = outputs .map((output) => ZanoOutput( address: output.address, amount: output.cryptoAmount!.replaceAll(',', '.'))) .toList(); pendingTransactionDescription = await transaction_history.createTransactionMultDest( outputs: zanoOutputs, priorityRaw: _credentials.priority.serialize()); } else { final output = outputs.first; final address = output.isParsedAddress && (output.extractedAddress?.isNotEmpty ?? false) ? output.extractedAddress! : output.address; final amount = output.sendAll ? null : output.cryptoAmount!.replaceAll(',', '.'); final int? formattedAmount = output.sendAll ? null : output.formattedCryptoAmount; if ((formattedAmount != null && unlockedBalance < formattedAmount) || (formattedAmount == null && unlockedBalance <= 0)) { final formattedBalance = moneroAmountToString(amount: unlockedBalance); throw ZanoTransactionCreationException( 'You do not have enough unlocked balance. Unlocked: $formattedBalance. Transaction amount: ${output.cryptoAmount}.'); } pendingTransactionDescription = await transaction_history.createTransaction( address: address, assetType: _credentials.assetType, amount: amount, priorityRaw: _credentials.priority.serialize()); } return PendingZanoTransaction(pendingTransactionDescription, assetType);*/ } @override int calculateEstimatedFee(TransactionPriority priority, [int? amount = null]) { return calls.getCurrentTxFee(priority.raw); } @override Future save() async { await walletAddresses.updateAddressesInBox(); await backupWalletFiles(name); await calls.store(hWallet); } @override Future renameWalletFiles(String newWalletName) async { final currentWalletPath = await pathForWallet(name: name, type: type); final currentCacheFile = File(currentWalletPath); final currentKeysFile = File('$currentWalletPath.keys'); final currentAddressListFile = File('$currentWalletPath.address.txt'); final newWalletPath = await pathForWallet(name: newWalletName, type: type); // Copies current wallet files into new wallet name's dir and files if (currentCacheFile.existsSync()) { await currentCacheFile.copy(newWalletPath); } if (currentKeysFile.existsSync()) { await currentKeysFile.copy('$newWalletPath.keys'); } if (currentAddressListFile.existsSync()) { await currentAddressListFile.copy('$newWalletPath.address.txt'); } // Delete old name's dir and files await Directory(currentWalletPath).delete(recursive: true); } @override Future changePassword(String password) async { calls.setPassword(hWallet: hWallet, password: password); } Future setAsRecovered() async { walletInfo.isRecovery = false; await walletInfo.save(); } @override Future rescan({required int height}) async { walletInfo.restoreHeight = height; walletInfo.isRecovery = true; debugPrint('setRefreshFromBlockHeight height $height'); debugPrint('rescanBlockchainAsync'); await startSync(); _askForUpdateBalance(); /**walletAddresses.accountList.update();*/ await _askForUpdateTransactionHistory(); await save(); await walletInfo.save(); } Future _refreshTransactions() async { final result = await calls.getRecentTxsAndInfo(hWallet: hWallet, offset: 0, count: 30); final map = jsonDecode(result); if (map == null || map["result"] == null || map["result"]["result"] == null) { return; } if (map["result"]["result"]["transfers"] != null) history = (map["result"]["result"]["transfers"] as List) .map((e) => History.fromJson(e as Map)) .toList(); } @override Future> fetchTransactions() async { //zano_transaction_history.refreshTransactions(); await _refreshTransactions(); return history .map((history) => ZanoTransactionInfo.fromHistory(history)) .fold>({}, (Map acc, ZanoTransactionInfo tx) { acc[tx.id] = tx; return acc; }); // return _getAllTransactions(null) // .fold>({}, // (Map acc, ZanoTransactionInfo tx) { // acc[tx.id] = tx; // return acc; // }); } Future updateTransactions() async { try { if (_isTransactionUpdating) { return; } _isTransactionUpdating = true; final transactions = await fetchTransactions(); transactionHistory.addMany(transactions); await transactionHistory.save(); _isTransactionUpdating = false; } catch (e) { print(e); _isTransactionUpdating = false; } } // List _getAllTransactions(dynamic _) => // zano_transaction_history // .getAllTransations() // .map((row) => ZanoTransactionInfo.fromRow(row)) // .toList(); void _setListeners() { _listener?.stop(); _listener = zano_wallet.setListeners(_onNewBlock, _onNewTransaction); } void _setInitialHeight() { if (walletInfo.isRecovery) { return; } final currentHeight = zano_wallet.getCurrentHeight(hWallet); if (currentHeight <= 1) { final height = _getHeightByDate(walletInfo.date); debugPrint('setRecoveringFromSeed isRecovery true'); debugPrint('setRefreshFromBlockHeight height $height'); } } int _getHeightByDate(DateTime date) { return 0; } void _askForUpdateBalance() { debugPrint('askForUpdateBalance'); } Future _askForUpdateTransactionHistory() async => await updateTransactions(); void _onNewBlock(int height, int blocksLeft, double ptc) async { try { if (walletInfo.isRecovery) { await _askForUpdateTransactionHistory(); _askForUpdateBalance(); /*walletAddresses.accountList.update();*/ } if (blocksLeft < 1000) { await _askForUpdateTransactionHistory(); _askForUpdateBalance(); /*walletAddresses.accountList.update();*/ syncStatus = SyncedSyncStatus(); if (!_hasSyncAfterStartup) { _hasSyncAfterStartup = true; await save(); } if (walletInfo.isRecovery) { await setAsRecovered(); } } else { syncStatus = SyncingSyncStatus(blocksLeft, ptc); } } catch (e) { print(e.toString()); } } void _onNewTransaction() async { try { await _askForUpdateTransactionHistory(); _askForUpdateBalance(); await Future.delayed(Duration(seconds: 1)); } catch (e) { print(e.toString()); } } final _loadWalletNative = zanoApi.lookup>('load_wallet').asFunction<_LoadWallet>(); String loadWallet(String path, String password) { print('load_wallet path $path password $password'); final pathPointer = path.toNativeUtf8(); final passwordPointer = password.toNativeUtf8(); final result = _convertUTF8ToString( pointer: _loadWalletNative(pathPointer, passwordPointer, 0), ); print('load_wallet result $result'); return result; } String _convertUTF8ToString({required Pointer pointer}) { final str = pointer.toDartString(); calloc.free(pointer); return str; } }