import 'dart:async'; import 'dart:convert'; import 'dart:io'; import 'package:bech32/bech32.dart'; import 'package:bip32/bip32.dart' as bip32; import 'package:bip39/bip39.dart' as bip39; import 'package:bitbox/bitbox.dart' as bitbox; import 'package:bitcoindart/bitcoindart.dart'; import 'package:bs58check/bs58check.dart' as bs58check; import 'package:decimal/decimal.dart'; import 'package:flutter/foundation.dart'; import 'package:isar/isar.dart'; import 'package:stackwallet/electrumx_rpc/cached_electrumx.dart'; import 'package:stackwallet/electrumx_rpc/electrumx.dart'; import 'package:stackwallet/hive/db.dart'; import 'package:stackwallet/models/balance.dart'; import 'package:stackwallet/models/isar/models/address/address.dart'; import 'package:stackwallet/models/isar/models/isar_models.dart' as isar_models; import 'package:stackwallet/models/paymint/fee_object_model.dart'; import 'package:stackwallet/services/coins/coin_service.dart'; import 'package:stackwallet/services/event_bus/events/global/node_connection_status_changed_event.dart'; import 'package:stackwallet/services/event_bus/events/global/refresh_percent_changed_event.dart'; import 'package:stackwallet/services/event_bus/events/global/updated_in_background_event.dart'; import 'package:stackwallet/services/event_bus/events/global/wallet_sync_status_changed_event.dart'; import 'package:stackwallet/services/event_bus/global_event_bus.dart'; import 'package:stackwallet/services/mixins/wallet_cache.dart'; import 'package:stackwallet/services/mixins/wallet_db.dart'; import 'package:stackwallet/services/node_service.dart'; import 'package:stackwallet/services/notifications_api.dart'; import 'package:stackwallet/services/transaction_notification_tracker.dart'; import 'package:stackwallet/utilities/address_utils.dart'; import 'package:stackwallet/utilities/assets.dart'; import 'package:stackwallet/utilities/constants.dart'; import 'package:stackwallet/utilities/default_nodes.dart'; import 'package:stackwallet/utilities/enums/coin_enum.dart'; import 'package:stackwallet/utilities/enums/fee_rate_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:stackwallet/utilities/prefs.dart'; import 'package:tuple/tuple.dart'; import 'package:uuid/uuid.dart'; const int MINIMUM_CONFIRMATIONS = 1; const int DUST_LIMIT = 546; const String GENESIS_HASH_MAINNET = "000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f"; const String GENESIS_HASH_TESTNET = "000000000933ea01ad0ee984209779baaec3ced90fa3f408719526f8d77f4943"; enum DerivePathType { bip44, bip49 } bip32.BIP32 getBip32Node(int chain, int index, String mnemonic, NetworkType network, DerivePathType derivePathType) { final root = getBip32Root(mnemonic, network); final node = getBip32NodeFromRoot(chain, index, root, derivePathType); return node; } /// wrapper for compute() bip32.BIP32 getBip32NodeWrapper( Tuple5 args, ) { return getBip32Node( args.item1, args.item2, args.item3, args.item4, args.item5, ); } bip32.BIP32 getBip32NodeFromRoot( int chain, int index, bip32.BIP32 root, DerivePathType derivePathType) { String coinType; switch (root.network.wif) { case 0x80: // bch mainnet wif coinType = "145"; // bch mainnet break; case 0xef: // bch testnet wif coinType = "1"; // bch testnet break; default: throw Exception("Invalid Bitcoincash network type used!"); } switch (derivePathType) { case DerivePathType.bip44: return root.derivePath("m/44'/$coinType'/0'/$chain/$index"); case DerivePathType.bip49: return root.derivePath("m/49'/$coinType'/0'/$chain/$index"); default: throw Exception("DerivePathType must not be null."); } } /// wrapper for compute() bip32.BIP32 getBip32NodeFromRootWrapper( Tuple4 args, ) { return getBip32NodeFromRoot( args.item1, args.item2, args.item3, args.item4, ); } bip32.BIP32 getBip32Root(String mnemonic, NetworkType network) { final seed = bip39.mnemonicToSeed(mnemonic); final networkType = bip32.NetworkType( wif: network.wif, bip32: bip32.Bip32Type( public: network.bip32.public, private: network.bip32.private, ), ); final root = bip32.BIP32.fromSeed(seed, networkType); return root; } /// wrapper for compute() bip32.BIP32 getBip32RootWrapper(Tuple2 args) { return getBip32Root(args.item1, args.item2); } class BitcoinCashWallet extends CoinServiceAPI with WalletCache, WalletDB { static const integrationTestFlag = bool.fromEnvironment("IS_INTEGRATION_TEST"); final _prefs = Prefs.instance; Timer? timer; late Coin _coin; late final TransactionNotificationTracker txTracker; NetworkType get _network { switch (coin) { case Coin.bitcoincash: return bitcoincash; case Coin.bitcoincashTestnet: return bitcoincashtestnet; default: throw Exception("Bitcoincash network type not set!"); } } @override Future> get utxos => isar.utxos.where().findAll(); @override Future> get transactions => isar.transactions.where().sortByTimestampDesc().findAll(); @override Coin get coin => _coin; @override Future get currentReceivingAddress async => (await _currentReceivingAddress).value; Future get _currentReceivingAddress async => (await isar.addresses .filter() .typeEqualTo(isar_models.AddressType.p2pkh) .subTypeEqualTo(isar_models.AddressSubType.receiving) .sortByDerivationIndexDesc() .findFirst())!; Future get currentChangeAddress async => (await _currentChangeAddress).value; Future get _currentChangeAddress async => (await isar.addresses .filter() .typeEqualTo(isar_models.AddressType.p2pkh) .subTypeEqualTo(isar_models.AddressSubType.change) .sortByDerivationIndexDesc() .findFirst())!; @override Future exit() async { _hasCalledExit = true; timer?.cancel(); timer = null; stopNetworkAlivePinging(); await isarClose(); } bool _hasCalledExit = false; @override bool get hasCalledExit => _hasCalledExit; @override Future get fees => _feeObject ??= _getFees(); Future? _feeObject; @override Future get maxFee async { final fee = (await fees).fast; final satsFee = Format.satoshisToAmount(fee, coin: coin) * Decimal.fromInt(Constants.satsPerCoin(coin)); return satsFee.floor().toBigInt().toInt(); } @override Future> get mnemonic => _getMnemonicList(); Future get chainHeight async { try { final result = await _electrumXClient.getBlockHeadTip(); return result["height"] as int; } catch (e, s) { Logging.instance.log("Exception caught in chainHeight: $e\n$s", level: LogLevel.Error); return -1; } } @override int get storedChainHeight { final storedHeight = DB.instance .get(boxName: walletId, key: DBKeys.storedChainHeight) as int?; return storedHeight ?? 0; } Future updateStoredChainHeight({required int newHeight}) async { await DB.instance.put( boxName: walletId, key: DBKeys.storedChainHeight, value: newHeight); } DerivePathType addressType({required String address}) { Uint8List? decodeBase58; Segwit? decodeBech32; try { if (bitbox.Address.detectFormat(address) == bitbox.Address.formatCashAddr) { if (validateCashAddr(address)) { address = bitbox.Address.toLegacyAddress(address); } else { throw ArgumentError('$address is not currently supported'); } } } catch (e, s) {} try { decodeBase58 = bs58check.decode(address); } catch (err) { // Base58check decode fail } if (decodeBase58 != null) { if (decodeBase58[0] == _network.pubKeyHash) { // P2PKH return DerivePathType.bip44; } if (decodeBase58[0] == _network.scriptHash) { // P2SH return DerivePathType.bip49; } throw ArgumentError('Invalid version or Network mismatch'); } else { try { decodeBech32 = segwit.decode(address); } catch (err) { // Bech32 decode fail } if (decodeBech32 != null) { if (_network.bech32 != decodeBech32.hrp) { throw ArgumentError('Invalid prefix or Network mismatch'); } if (decodeBech32.version != 0) { throw ArgumentError('Invalid address version'); } } } throw ArgumentError('$address has no matching Script'); } bool longMutex = false; @override Future recoverFromMnemonic({ required String mnemonic, required int maxUnusedAddressGap, required int maxNumberOfIndexesToCheck, required int height, }) async { longMutex = true; final start = DateTime.now(); try { Logging.instance.log("IS_INTEGRATION_TEST: $integrationTestFlag", level: LogLevel.Info); if (!integrationTestFlag) { final features = await electrumXClient.getServerFeatures(); Logging.instance.log("features: $features", level: LogLevel.Info); switch (coin) { case Coin.bitcoincash: if (features['genesis_hash'] != GENESIS_HASH_MAINNET) { throw Exception("genesis hash does not match main net!"); } break; case Coin.bitcoincashTestnet: if (features['genesis_hash'] != GENESIS_HASH_TESTNET) { throw Exception("genesis hash does not match test net!"); } break; default: throw Exception( "Attempted to generate a BitcoinCashWallet using a non bch coin type: ${coin.name}"); } } // check to make sure we aren't overwriting a mnemonic // this should never fail if ((await _secureStore.read(key: '${_walletId}_mnemonic')) != null) { longMutex = false; throw Exception("Attempted to overwrite mnemonic on restore!"); } await _secureStore.write( key: '${_walletId}_mnemonic', value: mnemonic.trim()); await _recoverWalletFromBIP32SeedPhrase( mnemonic: mnemonic.trim(), maxUnusedAddressGap: maxUnusedAddressGap, maxNumberOfIndexesToCheck: maxNumberOfIndexesToCheck, ); } catch (e, s) { Logging.instance.log( "Exception rethrown from recoverFromMnemonic(): $e\n$s", level: LogLevel.Error); longMutex = false; rethrow; } longMutex = false; final end = DateTime.now(); Logging.instance.log( "$walletName recovery time: ${end.difference(start).inMilliseconds} millis", level: LogLevel.Info); } Future> _checkGaps( int maxNumberOfIndexesToCheck, int maxUnusedAddressGap, int txCountBatchSize, bip32.BIP32 root, DerivePathType type, int chain) async { List addressArray = []; int returningIndex = -1; Map> derivations = {}; int gapCounter = 0; for (int index = 0; index < maxNumberOfIndexesToCheck && gapCounter < maxUnusedAddressGap; index += txCountBatchSize) { List iterationsAddressArray = []; Logging.instance.log( "index: $index, \t GapCounter $chain ${type.name}: $gapCounter", level: LogLevel.Info); final _id = "k_$index"; Map txCountCallArgs = {}; final Map receivingNodes = {}; for (int j = 0; j < txCountBatchSize; j++) { final node = await compute( getBip32NodeFromRootWrapper, Tuple4( chain, index + j, root, type, ), ); String addressString; final data = PaymentData(pubkey: node.publicKey); isar_models.AddressType addrType; switch (type) { case DerivePathType.bip44: addressString = P2PKH(data: data, network: _network).data.address!; addrType = isar_models.AddressType.p2pkh; break; case DerivePathType.bip49: addressString = P2SH( data: PaymentData( redeem: P2WPKH(data: data, network: _network).data), network: _network) .data .address!; addrType = isar_models.AddressType.p2sh; break; default: throw Exception("No Path type $type exists"); } final address = isar_models.Address() ..subType = chain == 0 ? isar_models.AddressSubType.receiving : isar_models.AddressSubType.change ..type = addrType ..publicKey = node.publicKey ..value = addressString ..derivationIndex = index + j; receivingNodes.addAll({ "${_id}_$j": { "node": node, "address": address, } }); txCountCallArgs.addAll({ "${_id}_$j": addressString, }); } // get address tx counts final counts = await _getBatchTxCount(addresses: txCountCallArgs); if (kDebugMode) { print("Counts $counts"); } // check and add appropriate addresses for (int k = 0; k < txCountBatchSize; k++) { int count = counts["${_id}_$k"]!; if (count > 0) { final node = receivingNodes["${_id}_$k"]; final address = node["address"] as isar_models.Address; // add address to array addressArray.add(address); iterationsAddressArray.add(address.value); // set current index returningIndex = index + k; // reset counter gapCounter = 0; // add info to derivations derivations[node["address"] as String] = { "pubKey": Format.uint8listToString( (node["node"] as bip32.BIP32).publicKey), "wif": (node["node"] as bip32.BIP32).toWIF(), }; } // increase counter when no tx history found if (count == 0) { gapCounter++; } } // cache all the transactions while waiting for the current function to finish. unawaited(getTransactionCacheEarly(iterationsAddressArray)); } return { "addressArray": addressArray, "index": returningIndex, "derivations": derivations }; } Future getTransactionCacheEarly(List allAddresses) async { try { final List> allTxHashes = await _fetchHistory(allAddresses); for (final txHash in allTxHashes) { try { unawaited(cachedElectrumXClient.getTransaction( txHash: txHash["tx_hash"] as String, verbose: true, coin: coin, )); } catch (e) { continue; } } } catch (e) { // } } Future _recoverWalletFromBIP32SeedPhrase({ required String mnemonic, int maxUnusedAddressGap = 20, int maxNumberOfIndexesToCheck = 1000, }) async { longMutex = true; Map> p2pkhReceiveDerivations = {}; Map> p2shReceiveDerivations = {}; Map> p2pkhChangeDerivations = {}; Map> p2shChangeDerivations = {}; final root = await compute(getBip32RootWrapper, Tuple2(mnemonic, _network)); List p2pkhReceiveAddressArray = []; List p2shReceiveAddressArray = []; int p2pkhReceiveIndex = -1; int p2shReceiveIndex = -1; List p2pkhChangeAddressArray = []; List p2shChangeAddressArray = []; int p2pkhChangeIndex = -1; int p2shChangeIndex = -1; // The gap limit will be capped at [maxUnusedAddressGap] // int receivingGapCounter = 0; // int changeGapCounter = 0; // actual size is 24 due to p2pkh and p2sh so 12x2 const txCountBatchSize = 12; try { // receiving addresses Logging.instance .log("checking receiving addresses...", level: LogLevel.Info); final resultReceive44 = _checkGaps(maxNumberOfIndexesToCheck, maxUnusedAddressGap, txCountBatchSize, root, DerivePathType.bip44, 0); final resultReceive49 = _checkGaps(maxNumberOfIndexesToCheck, maxUnusedAddressGap, txCountBatchSize, root, DerivePathType.bip49, 0); Logging.instance .log("checking change addresses...", level: LogLevel.Info); // change addresses final resultChange44 = _checkGaps(maxNumberOfIndexesToCheck, maxUnusedAddressGap, txCountBatchSize, root, DerivePathType.bip44, 1); final resultChange49 = _checkGaps(maxNumberOfIndexesToCheck, maxUnusedAddressGap, txCountBatchSize, root, DerivePathType.bip49, 1); await Future.wait([ resultReceive44, resultReceive49, resultChange44, resultChange49, ]); p2pkhReceiveAddressArray = (await resultReceive44)['addressArray'] as List; p2pkhReceiveIndex = (await resultReceive44)['index'] as int; p2pkhReceiveDerivations = (await resultReceive44)['derivations'] as Map>; p2shReceiveAddressArray = (await resultReceive49)['addressArray'] as List; p2shReceiveIndex = (await resultReceive49)['index'] as int; p2shReceiveDerivations = (await resultReceive49)['derivations'] as Map>; p2pkhChangeAddressArray = (await resultChange44)['addressArray'] as List; p2pkhChangeIndex = (await resultChange44)['index'] as int; p2pkhChangeDerivations = (await resultChange44)['derivations'] as Map>; p2shChangeAddressArray = (await resultChange49)['addressArray'] as List; p2shChangeIndex = (await resultChange49)['index'] as int; p2shChangeDerivations = (await resultChange49)['derivations'] as Map>; // save the derivations (if any) if (p2pkhReceiveDerivations.isNotEmpty) { await addDerivations( chain: 0, derivePathType: DerivePathType.bip44, derivationsToAdd: p2pkhReceiveDerivations); } if (p2shReceiveDerivations.isNotEmpty) { await addDerivations( chain: 0, derivePathType: DerivePathType.bip49, derivationsToAdd: p2shReceiveDerivations); } if (p2pkhChangeDerivations.isNotEmpty) { await addDerivations( chain: 1, derivePathType: DerivePathType.bip44, derivationsToAdd: p2pkhChangeDerivations); } if (p2shChangeDerivations.isNotEmpty) { await addDerivations( chain: 1, derivePathType: DerivePathType.bip49, derivationsToAdd: p2shChangeDerivations); } // If restoring a wallet that never received any funds, then set receivingArray manually // If we didn't do this, it'd store an empty array if (p2pkhReceiveIndex == -1) { final address = await _generateAddressForChain(0, 0, DerivePathType.bip44); p2pkhReceiveAddressArray.add(address); } if (p2shReceiveIndex == -1) { final address = await _generateAddressForChain(0, 0, DerivePathType.bip49); p2shReceiveAddressArray.add(address); } // If restoring a wallet that never sent any funds with change, then set changeArray // manually. If we didn't do this, it'd store an empty array. if (p2pkhChangeIndex == -1) { final address = await _generateAddressForChain(1, 0, DerivePathType.bip44); p2pkhChangeAddressArray.add(address); } if (p2shChangeIndex == -1) { final address = await _generateAddressForChain(1, 0, DerivePathType.bip49); p2shChangeAddressArray.add(address); } await isarInit(walletId); await isar.writeTxn(() async { await isar.addresses.putAll(p2pkhReceiveAddressArray); await isar.addresses.putAll(p2pkhChangeAddressArray); await isar.addresses.putAll(p2shReceiveAddressArray); await isar.addresses.putAll(p2shChangeAddressArray); }); await _updateUTXOs(); await DB.instance .put(boxName: walletId, key: DBKeys.id, value: _walletId); await DB.instance.put( boxName: walletId, key: DBKeys.isFavorite, value: false); longMutex = false; } catch (e, s) { Logging.instance.log( "Exception rethrown from _recoverWalletFromBIP32SeedPhrase(): $e\n$s", level: LogLevel.Info); longMutex = false; rethrow; } } Future refreshIfThereIsNewData() async { if (longMutex) return false; if (_hasCalledExit) return false; Logging.instance.log("refreshIfThereIsNewData", level: LogLevel.Info); try { bool needsRefresh = false; Logging.instance.log( "notified unconfirmed transactions: ${txTracker.pendings}", level: LogLevel.Info); Set txnsToCheck = {}; for (final String txid in txTracker.pendings) { if (!txTracker.wasNotifiedConfirmed(txid)) { txnsToCheck.add(txid); } } for (String txid in txnsToCheck) { final txn = await electrumXClient.getTransaction(txHash: txid); var confirmations = txn["confirmations"]; if (confirmations is! int) continue; bool isUnconfirmed = confirmations < MINIMUM_CONFIRMATIONS; if (!isUnconfirmed) { // unconfirmedTxs = {}; needsRefresh = true; break; } } if (!needsRefresh) { var allOwnAddresses = await _fetchAllOwnAddresses(); List> allTxs = await _fetchHistory( allOwnAddresses.map((e) => e.value).toList(growable: false)); for (Map transaction in allTxs) { final txid = transaction['tx_hash'] as String; if ((await isar.transactions .filter() .txidMatches(txid) .findFirst()) == null) { Logging.instance.log( " txid not found in address history already ${transaction['tx_hash']}", level: LogLevel.Info); needsRefresh = true; break; } } } return needsRefresh; } catch (e, s) { Logging.instance.log( "Exception caught in refreshIfThereIsNewData: $e\n$s", level: LogLevel.Info); rethrow; } } Future getAllTxsToWatch() async { if (_hasCalledExit) return; List unconfirmedTxnsToNotifyPending = []; List unconfirmedTxnsToNotifyConfirmed = []; final currentChainHeight = await chainHeight; final txCount = await isar.transactions.count(); const paginateLimit = 50; for (int i = 0; i < txCount; i += paginateLimit) { final transactions = await isar.transactions .where() .offset(i) .limit(paginateLimit) .findAll(); for (final tx in transactions) { if (tx.isConfirmed(currentChainHeight, MINIMUM_CONFIRMATIONS)) { if (txTracker.wasNotifiedPending(tx.txid) && !txTracker.wasNotifiedConfirmed(tx.txid)) { unconfirmedTxnsToNotifyConfirmed.add(tx); } } else { if (!txTracker.wasNotifiedPending(tx.txid)) { unconfirmedTxnsToNotifyPending.add(tx); } } } } // notify on new incoming transaction for (final tx in unconfirmedTxnsToNotifyPending) { final confirmations = tx.getConfirmations(currentChainHeight); if (tx.type == isar_models.TransactionType.incoming) { unawaited( NotificationApi.showNotification( title: "Incoming transaction", body: walletName, walletId: walletId, iconAssetName: Assets.svg.iconFor(coin: coin), date: DateTime.now(), shouldWatchForUpdates: confirmations < MINIMUM_CONFIRMATIONS, coinName: coin.name, txid: tx.txid, confirmations: confirmations, requiredConfirmations: MINIMUM_CONFIRMATIONS, ), ); await txTracker.addNotifiedPending(tx.txid); } else if (tx.type == isar_models.TransactionType.outgoing) { unawaited( NotificationApi.showNotification( title: "Sending transaction", body: walletName, walletId: walletId, iconAssetName: Assets.svg.iconFor(coin: coin), date: DateTime.fromMillisecondsSinceEpoch(tx.timestamp * 1000), shouldWatchForUpdates: confirmations < MINIMUM_CONFIRMATIONS, coinName: coin.name, txid: tx.txid, confirmations: confirmations, requiredConfirmations: MINIMUM_CONFIRMATIONS, ), ); await txTracker.addNotifiedPending(tx.txid); } } // notify on confirmed for (final tx in unconfirmedTxnsToNotifyConfirmed) { if (tx.type == isar_models.TransactionType.incoming) { unawaited( NotificationApi.showNotification( title: "Incoming transaction confirmed", body: walletName, walletId: walletId, iconAssetName: Assets.svg.iconFor(coin: coin), date: DateTime.now(), shouldWatchForUpdates: false, coinName: coin.name, ), ); await txTracker.addNotifiedConfirmed(tx.txid); } else if (tx.type == isar_models.TransactionType.outgoing) { unawaited( NotificationApi.showNotification( title: "Outgoing transaction confirmed", body: walletName, walletId: walletId, iconAssetName: Assets.svg.iconFor(coin: coin), date: DateTime.now(), shouldWatchForUpdates: false, coinName: coin.name, ), ); await txTracker.addNotifiedConfirmed(tx.txid); } } } bool refreshMutex = false; bool _shouldAutoSync = false; @override bool get shouldAutoSync => _shouldAutoSync; @override set shouldAutoSync(bool shouldAutoSync) { if (_shouldAutoSync != shouldAutoSync) { _shouldAutoSync = shouldAutoSync; if (!shouldAutoSync) { timer?.cancel(); timer = null; stopNetworkAlivePinging(); } else { startNetworkAlivePinging(); refresh(); } } } //TODO Show percentages properly/more consistently /// Refreshes display data for the wallet @override Future refresh() async { if (refreshMutex) { Logging.instance.log("$walletId $walletName refreshMutex denied", level: LogLevel.Info); return; } else { refreshMutex = true; } try { GlobalEventBus.instance.fire( WalletSyncStatusChangedEvent( WalletSyncStatus.syncing, walletId, coin, ), ); GlobalEventBus.instance.fire(RefreshPercentChangedEvent(0.0, walletId)); GlobalEventBus.instance.fire(RefreshPercentChangedEvent(0.1, walletId)); final currentHeight = await chainHeight; const storedHeight = 1; //await storedChainHeight; Logging.instance .log("chain height: $currentHeight", level: LogLevel.Info); Logging.instance .log("cached height: $storedHeight", level: LogLevel.Info); if (currentHeight != storedHeight) { if (currentHeight != -1) { // -1 failed to fetch current height await updateStoredChainHeight(newHeight: currentHeight); } GlobalEventBus.instance.fire(RefreshPercentChangedEvent(0.2, walletId)); await _checkChangeAddressForTransactions(); GlobalEventBus.instance.fire(RefreshPercentChangedEvent(0.3, walletId)); await _checkCurrentReceivingAddressesForTransactions(); final fetchFuture = _refreshTransactions(); final utxosRefreshFuture = _updateUTXOs(); GlobalEventBus.instance .fire(RefreshPercentChangedEvent(0.50, walletId)); final feeObj = _getFees(); GlobalEventBus.instance .fire(RefreshPercentChangedEvent(0.60, walletId)); GlobalEventBus.instance .fire(RefreshPercentChangedEvent(0.70, walletId)); _feeObject = Future(() => feeObj); await utxosRefreshFuture; GlobalEventBus.instance .fire(RefreshPercentChangedEvent(0.80, walletId)); await fetchFuture; await getAllTxsToWatch(); GlobalEventBus.instance .fire(RefreshPercentChangedEvent(0.90, walletId)); } GlobalEventBus.instance.fire(RefreshPercentChangedEvent(1.0, walletId)); GlobalEventBus.instance.fire( WalletSyncStatusChangedEvent( WalletSyncStatus.synced, walletId, coin, ), ); refreshMutex = false; if (shouldAutoSync) { timer ??= Timer.periodic(const Duration(seconds: 150), (timer) async { // chain height check currently broken // if ((await chainHeight) != (await storedChainHeight)) { if (await refreshIfThereIsNewData()) { await refresh(); GlobalEventBus.instance.fire(UpdatedInBackgroundEvent( "New data found in $walletId $walletName in background!", walletId)); } // } }); } } catch (error, strace) { refreshMutex = false; GlobalEventBus.instance.fire( NodeConnectionStatusChangedEvent( NodeConnectionStatus.disconnected, walletId, coin, ), ); GlobalEventBus.instance.fire( WalletSyncStatusChangedEvent( WalletSyncStatus.unableToSync, walletId, coin, ), ); Logging.instance.log( "Caught exception in refreshWalletData(): $error\n$strace", level: LogLevel.Error); } } @override Future> prepareSend({ required String address, required int satoshiAmount, Map? args, }) async { try { final feeRateType = args?["feeRate"]; final feeRateAmount = args?["feeRateAmount"]; if (feeRateType is FeeRateType || feeRateAmount is int) { late final int rate; if (feeRateType is FeeRateType) { int fee = 0; final feeObject = await fees; switch (feeRateType) { case FeeRateType.fast: fee = feeObject.fast; break; case FeeRateType.average: fee = feeObject.medium; break; case FeeRateType.slow: fee = feeObject.slow; break; } rate = fee; } else { rate = feeRateAmount as int; } // check for send all bool isSendAll = false; if (satoshiAmount == balance.spendable) { isSendAll = true; } final result = await coinSelection(satoshiAmount, rate, address, isSendAll); Logging.instance.log("SEND RESULT: $result", level: LogLevel.Info); if (result is int) { switch (result) { case 1: throw Exception("Insufficient balance!"); case 2: throw Exception("Insufficient funds to pay for transaction fee!"); default: throw Exception("Transaction failed with error code $result"); } } else { final hex = result["hex"]; if (hex is String) { final fee = result["fee"] as int; final vSize = result["vSize"] as int; Logging.instance.log("txHex: $hex", level: LogLevel.Info); Logging.instance.log("fee: $fee", level: LogLevel.Info); Logging.instance.log("vsize: $vSize", level: LogLevel.Info); // fee should never be less than vSize sanity check if (fee < vSize) { throw Exception( "Error in fee calculation: Transaction fee cannot be less than vSize"); } return result as Map; } else { throw Exception("sent hex is not a String!!!"); } } } else { throw ArgumentError("Invalid fee rate argument provided!"); } } catch (e, s) { Logging.instance.log("Exception rethrown from prepareSend(): $e\n$s", level: LogLevel.Error); rethrow; } } @override Future confirmSend({dynamic txData}) async { try { Logging.instance.log("confirmSend txData: $txData", level: LogLevel.Info); final txHash = await _electrumXClient.broadcastTransaction( rawTx: txData["hex"] as String); Logging.instance.log("Sent txHash: $txHash", level: LogLevel.Info); return txHash; } catch (e, s) { Logging.instance.log("Exception rethrown from confirmSend(): $e\n$s", level: LogLevel.Error); rethrow; } } @override Future testNetworkConnection() async { try { final result = await _electrumXClient.ping(); return result; } catch (_) { return false; } } Timer? _networkAliveTimer; void startNetworkAlivePinging() { // call once on start right away _periodicPingCheck(); // then periodically check _networkAliveTimer = Timer.periodic( Constants.networkAliveTimerDuration, (_) async { _periodicPingCheck(); }, ); } void _periodicPingCheck() async { bool hasNetwork = await testNetworkConnection(); _isConnected = hasNetwork; if (_isConnected != hasNetwork) { NodeConnectionStatus status = hasNetwork ? NodeConnectionStatus.connected : NodeConnectionStatus.disconnected; GlobalEventBus.instance .fire(NodeConnectionStatusChangedEvent(status, walletId, coin)); } } void stopNetworkAlivePinging() { _networkAliveTimer?.cancel(); _networkAliveTimer = null; } bool _isConnected = false; @override bool get isConnected => _isConnected; @override Future initializeNew() async { Logging.instance .log("Generating new ${coin.prettyName} wallet.", level: LogLevel.Info); if ((DB.instance.get(boxName: walletId, key: DBKeys.id)) != null) { throw Exception( "Attempted to initialize a new wallet using an existing wallet ID!"); } await _prefs.init(); try { await _generateNewWallet(); } catch (e, s) { Logging.instance.log("Exception rethrown from initializeNew(): $e\n$s", level: LogLevel.Fatal); rethrow; } await Future.wait([ DB.instance .put(boxName: walletId, key: DBKeys.id, value: _walletId), DB.instance.put( boxName: walletId, key: DBKeys.isFavorite, value: false), ]); } @override Future initializeExisting() async { Logging.instance.log("Opening existing ${coin.prettyName} wallet.", level: LogLevel.Info); if ((DB.instance.get(boxName: walletId, key: DBKeys.id)) == null) { throw Exception( "Attempted to initialize an existing wallet using an unknown wallet ID!"); } await _prefs.init(); await isarInit(walletId); } // hack to add tx to txData before refresh completes // required based on current app architecture where we don't properly store // transactions locally in a good way @override Future updateSentCachedTxData(Map txData) async { // final priceData = // await _priceAPI.getPricesAnd24hChange(baseCurrency: _prefs.currency); // Decimal currentPrice = priceData[coin]?.item1 ?? Decimal.zero; // final locale = // Platform.isWindows ? "en_US" : await Devicelocale.currentLocale; // final String worthNow = Format.localizedStringAsFixed( // value: // ((currentPrice * Decimal.fromInt(txData["recipientAmt"] as int)) / // Decimal.fromInt(Constants.satsPerCoin(coin))) // .toDecimal(scaleOnInfinitePrecision: 2), // decimalPlaces: 2, // locale: locale!); // // final tx = models.Transaction( // txid: txData["txid"] as String, // confirmedStatus: false, // timestamp: DateTime.now().millisecondsSinceEpoch ~/ 1000, // txType: "Sent", // amount: txData["recipientAmt"] as int, // worthNow: worthNow, // worthAtBlockTimestamp: worthNow, // fees: txData["fee"] as int, // inputSize: 0, // outputSize: 0, // inputs: [], // outputs: [], // address: txData["address"] as String, // height: -1, // confirmations: 0, // ); // // if (cachedTxData == null) { // final data = await _fetchTransactionData(); // _transactionData = Future(() => data); // } // // final transactions = cachedTxData!.getAllTransactions(); // transactions[tx.txid] = tx; // cachedTxData = models.TransactionData.fromMap(transactions); // _transactionData = Future(() => cachedTxData!); } bool validateCashAddr(String cashAddr) { String addr = cashAddr; if (cashAddr.contains(":")) { addr = cashAddr.split(":").last; } return addr.startsWith("q"); } @override bool validateAddress(String address) { try { // 0 for bitcoincash: address scheme, 1 for legacy address final format = bitbox.Address.detectFormat(address); if (kDebugMode) { print("format $format"); } if (_coin == Coin.bitcoincashTestnet) { return true; } if (format == bitbox.Address.formatCashAddr) { return validateCashAddr(address); } else { return address.startsWith("1"); } } catch (e) { return false; } } @override String get walletId => _walletId; late String _walletId; @override String get walletName => _walletName; late String _walletName; // setter for updating on rename @override set walletName(String newName) => _walletName = newName; late ElectrumX _electrumXClient; ElectrumX get electrumXClient => _electrumXClient; late CachedElectrumX _cachedElectrumXClient; CachedElectrumX get cachedElectrumXClient => _cachedElectrumXClient; late SecureStorageInterface _secureStore; BitcoinCashWallet({ required String walletId, required String walletName, required Coin coin, required ElectrumX client, required CachedElectrumX cachedClient, required TransactionNotificationTracker tracker, required SecureStorageInterface secureStore, }) { txTracker = tracker; _walletId = walletId; _walletName = walletName; _coin = coin; _electrumXClient = client; _cachedElectrumXClient = cachedClient; _secureStore = secureStore; } @override Future updateNode(bool shouldRefresh) async { final failovers = NodeService(secureStorageInterface: _secureStore) .failoverNodesFor(coin: coin) .map((e) => ElectrumXNode( address: e.host, port: e.port, name: e.name, id: e.id, useSSL: e.useSSL, )) .toList(); final newNode = await getCurrentNode(); _cachedElectrumXClient = CachedElectrumX.from( node: newNode, prefs: _prefs, failovers: failovers, ); _electrumXClient = ElectrumX.from( node: newNode, prefs: _prefs, failovers: failovers, ); if (shouldRefresh) { unawaited(refresh()); } } Future> _getMnemonicList() async { final mnemonicString = await _secureStore.read(key: '${_walletId}_mnemonic'); if (mnemonicString == null) { return []; } final List data = mnemonicString.split(' '); return data; } Future getCurrentNode() async { final node = NodeService(secureStorageInterface: _secureStore) .getPrimaryNodeFor(coin: coin) ?? DefaultNodes.getNodeFor(coin); return ElectrumXNode( address: node.host, port: node.port, name: node.name, useSSL: node.useSSL, id: node.id, ); } Future> _fetchAllOwnAddresses() async { final allAddresses = await isar.addresses .filter() .subTypeEqualTo(isar_models.AddressSubType.receiving) .or() .subTypeEqualTo(isar_models.AddressSubType.change) .findAll(); // for (var i = 0; i < receivingAddressesP2PKH.length; i++) { // if (!allAddresses.contains(receivingAddressesP2PKH[i])) { // allAddresses.add(receivingAddressesP2PKH[i] as String); // } // } // for (var i = 0; i < changeAddressesP2PKH.length; i++) { // if (!allAddresses.contains(changeAddressesP2PKH[i])) { // allAddresses.add(changeAddressesP2PKH[i] as String); // } // } return allAddresses; } Future _getFees() async { try { //TODO adjust numbers for different speeds? const int f = 1, m = 5, s = 20; final fast = await electrumXClient.estimateFee(blocks: f); final medium = await electrumXClient.estimateFee(blocks: m); final slow = await electrumXClient.estimateFee(blocks: s); final feeObject = FeeObject( numberOfBlocksFast: f, numberOfBlocksAverage: m, numberOfBlocksSlow: s, fast: Format.decimalAmountToSatoshis(fast, coin), medium: Format.decimalAmountToSatoshis(medium, coin), slow: Format.decimalAmountToSatoshis(slow, coin), ); Logging.instance.log("fetched fees: $feeObject", level: LogLevel.Info); return feeObject; } catch (e) { Logging.instance .log("Exception rethrown from _getFees(): $e", level: LogLevel.Error); rethrow; } } Future _generateNewWallet() async { Logging.instance .log("IS_INTEGRATION_TEST: $integrationTestFlag", level: LogLevel.Info); if (!integrationTestFlag) { try { final features = await electrumXClient .getServerFeatures() .timeout(const Duration(seconds: 3)); Logging.instance.log("features: $features", level: LogLevel.Info); switch (coin) { case Coin.bitcoincash: if (features['genesis_hash'] != GENESIS_HASH_MAINNET) { throw Exception("genesis hash does not match main net!"); } break; case Coin.bitcoincashTestnet: if (features['genesis_hash'] != GENESIS_HASH_TESTNET) { throw Exception("genesis hash does not match test net!"); } break; default: throw Exception( "Attempted to generate a BitcoinWallet using a non bitcoin coin type: ${coin.name}"); } } catch (e, s) { Logging.instance.log("$e/n$s", level: LogLevel.Info); } } // this should never fail if ((await _secureStore.read(key: '${_walletId}_mnemonic')) != null) { throw Exception( "Attempted to overwrite mnemonic on generate new wallet!"); } await _secureStore.write( key: '${_walletId}_mnemonic', value: bip39.generateMnemonic(strength: 256)); // Generate and add addresses to relevant arrays final initialAddresses = await Future.wait([ // P2PKH _generateAddressForChain(0, 0, DerivePathType.bip44), _generateAddressForChain(1, 0, DerivePathType.bip44), // P2SH _generateAddressForChain(0, 0, DerivePathType.bip49), _generateAddressForChain(1, 0, DerivePathType.bip49), ]); await isarInit(walletId); await isar.writeTxn(() async { await isar.addresses.putAll(initialAddresses); }); Logging.instance.log("_generateNewWalletFinished", level: LogLevel.Info); } /// Generates a new internal or external chain address for the wallet using a BIP44 or BIP49 derivation path. /// [chain] - Use 0 for receiving (external), 1 for change (internal). Should not be any other value! /// [index] - This can be any integer >= 0 Future _generateAddressForChain( int chain, int index, DerivePathType derivePathType, ) async { final mnemonic = await _secureStore.read(key: '${_walletId}_mnemonic'); final node = await compute( getBip32NodeWrapper, Tuple5( chain, index, mnemonic!, _network, derivePathType, ), ); final data = PaymentData(pubkey: node.publicKey); String address; isar_models.AddressType addrType; switch (derivePathType) { case DerivePathType.bip44: address = P2PKH(data: data, network: _network).data.address!; addrType = isar_models.AddressType.p2pkh; break; case DerivePathType.bip49: address = P2SH( data: PaymentData( redeem: P2WPKH(data: data, network: _network).data), network: _network) .data .address!; addrType = isar_models.AddressType.p2sh; break; // default: // // should never hit this due to all enum cases handled // return null; } // add generated address & info to derivations await addDerivation( chain: chain, address: address, pubKey: Format.uint8listToString(node.publicKey), wif: node.toWIF(), derivePathType: derivePathType, ); return isar_models.Address() ..derivationIndex = index ..value = address ..publicKey = node.publicKey ..type = addrType ..subType = chain == 0 ? isar_models.AddressSubType.receiving : isar_models.AddressSubType.change; } /// Returns the latest receiving/change (external/internal) address for the wallet depending on [chain] /// and /// [chain] - Use 0 for receiving (external), 1 for change (internal). Should not be any other value! Future _getCurrentAddressForChain( int chain, DerivePathType derivePathType, ) async { final subType = chain == 0 // Here, we assume that chain == 1 if it isn't 0 ? isar_models.AddressSubType.receiving : isar_models.AddressSubType.change; isar_models.AddressType type; switch (derivePathType) { case DerivePathType.bip44: type = isar_models.AddressType.p2pkh; break; case DerivePathType.bip49: type = isar_models.AddressType.p2sh; break; } final address = await isar.addresses .filter() .typeEqualTo(type) .subTypeEqualTo(subType) .sortByDerivationIndexDesc() .findFirst(); return address!.value; } String _buildDerivationStorageKey({ required int chain, required DerivePathType derivePathType, }) { String key; String chainId = chain == 0 ? "receive" : "change"; switch (derivePathType) { case DerivePathType.bip44: key = "${walletId}_${chainId}DerivationsP2PKH"; break; case DerivePathType.bip49: key = "${walletId}_${chainId}DerivationsP2SH"; break; } return key; } Future> _fetchDerivations( {required int chain, required DerivePathType derivePathType}) async { // build lookup key final key = _buildDerivationStorageKey( chain: chain, derivePathType: derivePathType); // fetch current derivations final derivationsString = await _secureStore.read(key: key); return Map.from( jsonDecode(derivationsString ?? "{}") as Map); } /// Add a single derivation to the local secure storage for [chain] and /// [derivePathType] where [chain] must either be 1 for change or 0 for receive. /// This will overwrite a previous entry where the address of the new derivation /// matches a derivation currently stored. Future addDerivation({ required int chain, required String address, required String pubKey, required String wif, required DerivePathType derivePathType, }) async { // build lookup key final key = _buildDerivationStorageKey( chain: chain, derivePathType: derivePathType); // fetch current derivations final derivationsString = await _secureStore.read(key: key); final derivations = Map.from(jsonDecode(derivationsString ?? "{}") as Map); // add derivation derivations[address] = { "pubKey": pubKey, "wif": wif, }; // save derivations final newReceiveDerivationsString = jsonEncode(derivations); await _secureStore.write(key: key, value: newReceiveDerivationsString); } /// Add multiple derivations to the local secure storage for [chain] and /// [derivePathType] where [chain] must either be 1 for change or 0 for receive. /// This will overwrite any previous entries where the address of the new derivation /// matches a derivation currently stored. /// The [derivationsToAdd] must be in the format of: /// { /// addressA : { /// "pubKey": , /// "wif": , /// }, /// addressB : { /// "pubKey": , /// "wif": , /// }, /// } Future addDerivations({ required int chain, required DerivePathType derivePathType, required Map derivationsToAdd, }) async { // build lookup key final key = _buildDerivationStorageKey( chain: chain, derivePathType: derivePathType); // fetch current derivations final derivationsString = await _secureStore.read(key: key); final derivations = Map.from(jsonDecode(derivationsString ?? "{}") as Map); // add derivation derivations.addAll(derivationsToAdd); // save derivations final newReceiveDerivationsString = jsonEncode(derivations); await _secureStore.write(key: key, value: newReceiveDerivationsString); } Future _updateUTXOs() async { final allAddresses = await _fetchAllOwnAddresses(); try { final fetchedUtxoList = >>[]; final Map>> batches = {}; const batchSizeMax = 10; int batchNumber = 0; for (int i = 0; i < allAddresses.length; i++) { if (batches[batchNumber] == null) { batches[batchNumber] = {}; } final scripthash = _convertToScriptHash(allAddresses[i].value, _network); if (kDebugMode) { print("SCRIPT_HASH_FOR_ADDRESS ${allAddresses[i]} IS $scripthash"); } batches[batchNumber]!.addAll({ scripthash: [scripthash] }); if (i % batchSizeMax == batchSizeMax - 1) { batchNumber++; } } for (int i = 0; i < batches.length; i++) { final response = await _electrumXClient.getBatchUTXOs(args: batches[i]!); for (final entry in response.entries) { if (entry.value.isNotEmpty) { fetchedUtxoList.add(entry.value); } } } final currentChainHeight = await chainHeight; final List outputArray = []; int satoshiBalanceTotal = 0; int satoshiBalancePending = 0; int satoshiBalanceSpendable = 0; int satoshiBalanceBlocked = 0; for (int i = 0; i < fetchedUtxoList.length; i++) { for (int j = 0; j < fetchedUtxoList[i].length; j++) { final txn = await cachedElectrumXClient.getTransaction( txHash: fetchedUtxoList[i][j]["tx_hash"] as String, verbose: true, coin: coin, ); final utxo = isar_models.UTXO(); utxo.txid = txn["txid"] as String; utxo.vout = fetchedUtxoList[i][j]["tx_pos"] as int; utxo.value = fetchedUtxoList[i][j]["value"] as int; utxo.name = ""; // todo check here if we should mark as blocked utxo.isBlocked = false; utxo.blockedReason = null; utxo.isCoinbase = txn["is_coinbase"] as bool? ?? false; utxo.blockHash = txn["blockhash"] as String?; utxo.blockHeight = fetchedUtxoList[i][j]["height"] as int?; utxo.blockTime = txn["blocktime"] as int?; satoshiBalanceTotal += utxo.value; if (utxo.isBlocked) { satoshiBalanceBlocked += utxo.value; } else { if (utxo.isConfirmed(currentChainHeight, MINIMUM_CONFIRMATIONS)) { satoshiBalanceSpendable += utxo.value; } else { satoshiBalancePending += utxo.value; } } outputArray.add(utxo); } } Logging.instance .log('Outputs fetched: $outputArray', level: LogLevel.Info); await isar.writeTxn(() async { await isar.utxos.clear(); await isar.utxos.putAll(outputArray); }); // finally update balance _balance = Balance( coin: coin, total: satoshiBalanceTotal, spendable: satoshiBalanceSpendable, blockedTotal: satoshiBalanceBlocked, pendingSpendable: satoshiBalancePending, ); await updateCachedBalance(walletId, _balance!); } catch (e, s) { Logging.instance .log("Output fetch unsuccessful: $e\n$s", level: LogLevel.Error); } } @override Balance get balance => _balance ??= getCachedBalance(walletId, coin); Balance? _balance; Future getTxCount({required String address}) async { String? scripthash; try { scripthash = _convertToScriptHash(address, _network); final transactions = await electrumXClient.getHistory(scripthash: scripthash); return transactions.length; } catch (e) { Logging.instance.log( "Exception rethrown in _getTxCount(address: $address, scripthash: $scripthash): $e", level: LogLevel.Error); rethrow; } } Future> _getBatchTxCount({ required Map addresses, }) async { try { final Map> args = {}; if (kDebugMode) { print("Address $addresses"); } for (final entry in addresses.entries) { args[entry.key] = [_convertToScriptHash(entry.value, _network)]; } if (kDebugMode) { print("Args ${jsonEncode(args)}"); } final response = await electrumXClient.getBatchHistory(args: args); if (kDebugMode) { print("Response ${jsonEncode(response)}"); } final Map result = {}; for (final entry in response.entries) { result[entry.key] = entry.value.length; } if (kDebugMode) { print("result ${jsonEncode(result)}"); } return result; } catch (e, s) { Logging.instance.log( "Exception rethrown in _getBatchTxCount(address: $addresses: $e\n$s", level: LogLevel.Error); rethrow; } } Future _checkReceivingAddressForTransactions() async { try { final currentReceiving = await _currentReceivingAddress; final int txCount = await getTxCount(address: currentReceiving.value); Logging.instance.log( 'Number of txs for current receiving address $currentReceiving: $txCount', level: LogLevel.Info); if (txCount >= 1) { // First increment the receiving index final newReceivingIndex = currentReceiving.derivationIndex + 1; // Use new index to derive a new receiving address final newReceivingAddress = await _generateAddressForChain( 0, newReceivingIndex, DerivePathType.bip44); // Add that new receiving address await isar.writeTxn(() async { await isar.addresses.put(newReceivingAddress); }); } } on SocketException catch (se, s) { Logging.instance.log( "SocketException caught in _checkReceivingAddressForTransactions(${DerivePathType.bip44}): $se\n$s", level: LogLevel.Error); return; } catch (e, s) { Logging.instance.log( "Exception rethrown from _checkReceivingAddressForTransactions(${DerivePathType.bip44}): $e\n$s", level: LogLevel.Error); rethrow; } } Future _checkChangeAddressForTransactions() async { try { final currentChange = await _currentChangeAddress; final int txCount = await getTxCount(address: currentChange.value); Logging.instance.log( 'Number of txs for current change address $currentChange: $txCount', level: LogLevel.Info); if (txCount >= 1) { // First increment the change index final newChangeIndex = currentChange.derivationIndex + 1; // Use new index to derive a new change address final newChangeAddress = await _generateAddressForChain( 1, newChangeIndex, DerivePathType.bip44); // Add that new change address await isar.writeTxn(() async { await isar.addresses.put(newChangeAddress); }); } } on SocketException catch (se, s) { Logging.instance.log( "SocketException caught in _checkReceivingAddressForTransactions(${DerivePathType.bip44}): $se\n$s", level: LogLevel.Error); return; } catch (e, s) { Logging.instance.log( "Exception rethrown from _checkReceivingAddressForTransactions(${DerivePathType.bip44}): $e\n$s", level: LogLevel.Error); rethrow; } } Future _checkCurrentReceivingAddressesForTransactions() async { try { // for (final type in DerivePathType.values) { await _checkReceivingAddressForTransactions(); // } } catch (e, s) { Logging.instance.log( "Exception rethrown from _checkCurrentReceivingAddressesForTransactions(): $e\n$s", level: LogLevel.Info); rethrow; } } /// public wrapper because dart can't test private... Future checkCurrentReceivingAddressesForTransactions() async { if (Platform.environment["FLUTTER_TEST"] == "true") { try { return _checkCurrentReceivingAddressesForTransactions(); } catch (_) { rethrow; } } } Future _checkCurrentChangeAddressesForTransactions() async { try { // for (final type in DerivePathType.values) { await _checkChangeAddressForTransactions(); // } } catch (e, s) { Logging.instance.log( "Exception rethrown from _checkCurrentChangeAddressesForTransactions(): $e\n$s", level: LogLevel.Error); rethrow; } } /// public wrapper because dart can't test private... Future checkCurrentChangeAddressesForTransactions() async { if (Platform.environment["FLUTTER_TEST"] == "true") { try { return _checkCurrentChangeAddressesForTransactions(); } catch (_) { rethrow; } } } /// attempts to convert a string to a valid scripthash /// /// Returns the scripthash or throws an exception on invalid bch address String _convertToScriptHash(String bchAddress, NetworkType network) { try { if (bitbox.Address.detectFormat(bchAddress) == bitbox.Address.formatCashAddr && validateCashAddr(bchAddress)) { bchAddress = bitbox.Address.toLegacyAddress(bchAddress); } return AddressUtils.convertToScriptHash(bchAddress, network); } catch (e) { rethrow; } } Future>> _fetchHistory( List allAddresses) async { try { List> allTxHashes = []; final Map>> batches = {}; final Map requestIdToAddressMap = {}; const batchSizeMax = 10; int batchNumber = 0; for (int i = 0; i < allAddresses.length; i++) { if (batches[batchNumber] == null) { batches[batchNumber] = {}; } final scripthash = _convertToScriptHash(allAddresses[i], _network); final id = Logger.isTestEnv ? "$i" : const Uuid().v1(); requestIdToAddressMap[id] = allAddresses[i]; batches[batchNumber]!.addAll({ id: [scripthash] }); if (i % batchSizeMax == batchSizeMax - 1) { batchNumber++; } } for (int i = 0; i < batches.length; i++) { final response = await _electrumXClient.getBatchHistory(args: batches[i]!); for (final entry in response.entries) { for (int j = 0; j < entry.value.length; j++) { entry.value[j]["address"] = requestIdToAddressMap[entry.key]; if (!allTxHashes.contains(entry.value[j])) { allTxHashes.add(entry.value[j]); } } } } return allTxHashes; } catch (e, s) { Logging.instance.log("_fetchHistory: $e\n$s", level: LogLevel.Error); rethrow; } } bool _duplicateTxCheck( List> allTransactions, String txid) { for (int i = 0; i < allTransactions.length; i++) { if (allTransactions[i]["txid"] == txid) { return true; } } return false; } Future _refreshTransactions() async { List allAddressesOld = await _fetchAllOwnAddresses(); Set receivingAddresses = allAddressesOld .where((e) => e.subType == isar_models.AddressSubType.receiving) .map((e) { if (bitbox.Address.detectFormat(e.value) == bitbox.Address.formatLegacy && addressType(address: e.value) == DerivePathType.bip44) { return bitbox.Address.toCashAddress(e.value); } else { return e.value; } }).toSet(); Set changeAddresses = allAddressesOld .where((e) => e.subType == isar_models.AddressSubType.change) .map((e) { if (bitbox.Address.detectFormat(e.value) == bitbox.Address.formatLegacy && addressType(address: e.value) == DerivePathType.bip44) { return bitbox.Address.toCashAddress(e.value); } else { return e.value; } }).toSet(); final List> allTxHashes = await _fetchHistory([...receivingAddresses, ...changeAddresses]); List> allTransactions = []; for (final txHash in allTxHashes) { final tx = await cachedElectrumXClient.getTransaction( txHash: txHash["tx_hash"] as String, verbose: true, coin: coin, ); // Logging.instance.log("TRANSACTION: ${jsonEncode(tx)}"); if (!_duplicateTxCheck(allTransactions, tx["txid"] as String)) { tx["address"] = txHash["address"]; tx["height"] = txHash["height"]; allTransactions.add(tx); } } // // Logging.instance.log("addAddresses: $allAddresses", level: LogLevel.Info); // Logging.instance.log("allTxHashes: $allTxHashes", level: LogLevel.Info); // // Logging.instance.log("allTransactions length: ${allTransactions.length}", // level: LogLevel.Info); final List txns = []; for (final txData in allTransactions) { Set inputAddresses = {}; Set outputAddresses = {}; int totalInputValue = 0; int totalOutputValue = 0; int amountSentFromWallet = 0; int amountReceivedInWallet = 0; int changeAmount = 0; // parse inputs for (final input in txData["vin"] as List) { final prevTxid = input["txid"] as String; final prevOut = input["vout"] as int; // fetch input tx to get address final inputTx = await cachedElectrumXClient.getTransaction( txHash: prevTxid, coin: coin, ); for (final output in inputTx["vout"] as List) { // check matching output if (prevOut == output["n"]) { // get value final value = Format.decimalAmountToSatoshis( Decimal.parse(output["value"].toString()), coin, ); // add value to total totalInputValue += value; // get input(prevOut) address final address = output["scriptPubKey"]?["addresses"]?[0] as String? ?? output["scriptPubKey"]?["address"] as String?; if (address != null) { inputAddresses.add(address); // if input was from my wallet, add value to amount sent if (receivingAddresses.contains(address) || changeAddresses.contains(address)) { amountSentFromWallet += value; } } } } } // parse outputs for (final output in txData["vout"] as List) { // get value final value = Format.decimalAmountToSatoshis( Decimal.parse(output["value"].toString()), coin, ); // add value to total totalOutputValue += value; // get output address final address = output["scriptPubKey"]?["addresses"]?[0] as String? ?? output["scriptPubKey"]?["address"] as String?; if (address != null) { outputAddresses.add(address); // if output was to my wallet, add value to amount received if (receivingAddresses.contains(address)) { amountReceivedInWallet += value; } else if (changeAddresses.contains(address)) { changeAmount += value; } } } final mySentFromAddresses = [ ...receivingAddresses.intersection(inputAddresses), ...changeAddresses.intersection(inputAddresses) ]; final myReceivedOnAddresses = receivingAddresses.intersection(outputAddresses); final myChangeReceivedOnAddresses = changeAddresses.intersection(outputAddresses); final fee = totalInputValue - totalOutputValue; final tx = isar_models.Transaction(); tx.txid = txData["txid"] as String; tx.timestamp = txData["blocktime"] as int? ?? (DateTime.now().millisecondsSinceEpoch ~/ 1000); if (mySentFromAddresses.isNotEmpty && myReceivedOnAddresses.isNotEmpty) { // tx is sent to self tx.type = isar_models.TransactionType.sentToSelf; tx.amount = amountSentFromWallet - amountReceivedInWallet - fee - changeAmount; } else if (mySentFromAddresses.isNotEmpty) { // outgoing tx tx.type = isar_models.TransactionType.outgoing; tx.amount = amountSentFromWallet - changeAmount - fee; } else { // incoming tx tx.type = isar_models.TransactionType.incoming; tx.amount = amountReceivedInWallet; } // TODO: other subtypes tx.subType = isar_models.TransactionSubType.none; tx.fee = fee; tx.address = txData["address"] as String; for (final json in txData["vin"] as List) { bool isCoinBase = json['coinbase'] != null; final input = isar_models.Input(); input.txid = json['txid'] as String; input.vout = json['vout'] as int? ?? -1; input.scriptSig = json['scriptSig']?['hex'] as String?; input.scriptSigAsm = json['scriptSig']?['asm'] as String?; input.isCoinbase = isCoinBase ? isCoinBase : json['is_coinbase'] as bool?; input.sequence = json['sequence'] as int?; input.innerRedeemScriptAsm = json['innerRedeemscriptAsm'] as String?; tx.inputs.add(input); } for (final json in txData["vout"] as List) { final output = isar_models.Output(); output.scriptPubKey = json['scriptPubKey']?['hex'] as String?; output.scriptPubKeyAsm = json['scriptPubKey']?['asm'] as String?; output.scriptPubKeyType = json['scriptPubKey']?['type'] as String?; output.scriptPubKeyAddress = json["scriptPubKey"]?["addresses"]?[0] as String? ?? json['scriptPubKey']['type'] as String; output.value = Format.decimalAmountToSatoshis( Decimal.parse(json["value"].toString()), coin, ); tx.outputs.add(output); } tx.height = txData["height"] as int?; tx.isCancelled = false; tx.slateId = null; tx.otherData = null; txns.add(tx); } await isar.writeTxn(() async { await isar.transactions.putAll(txns); }); } int estimateTxFee({required int vSize, required int feeRatePerKB}) { return vSize * (feeRatePerKB / 1000).ceil(); } /// The coinselection algorithm decides whether or not the user is eligible to make the transaction /// with [satoshiAmountToSend] and [selectedTxFeeRate]. If so, it will call buildTrasaction() and return /// a map containing the tx hex along with other important information. If not, then it will return /// an integer (1 or 2) dynamic coinSelection( int satoshiAmountToSend, int selectedTxFeeRate, String _recipientAddress, bool isSendAll, { int additionalOutputs = 0, List? utxos, }) async { Logging.instance .log("Starting coinSelection ----------", level: LogLevel.Info); final List availableOutputs = utxos ?? await this.utxos; final currentChainHeight = await chainHeight; 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(currentChainHeight, MINIMUM_CONFIRMATIONS) == true) { spendableOutputs.add(availableOutputs[i]); spendableSatoshiValue += availableOutputs[i].value; } } // sort spendable by age (oldest first) spendableOutputs.sort((a, b) => b.blockTime!.compareTo(a.blockTime!)); Logging.instance.log("spendableOutputs.length: ${spendableOutputs.length}", level: LogLevel.Info); Logging.instance .log("spendableOutputs: $spendableOutputs", level: LogLevel.Info); Logging.instance.log("spendableSatoshiValue: $spendableSatoshiValue", level: LogLevel.Info); Logging.instance .log("satoshiAmountToSend: $satoshiAmountToSend", level: LogLevel.Info); // If the amount the user is trying to send is smaller than the amount that they have spendable, // then return 1, which indicates that they have an insufficient balance. if (spendableSatoshiValue < satoshiAmountToSend) { return 1; // If the amount the user wants to send is exactly equal to the amount they can spend, then return // 2, which indicates that they are not leaving enough over to pay the transaction fee } else if (spendableSatoshiValue == satoshiAmountToSend && !isSendAll) { return 2; } // If neither of these statements pass, we assume that the user has a spendable balance greater // than the amount they're attempting to send. Note that this value still does not account for // the added transaction fee, which may require an extra input and will need to be checked for // later on. // Possible situation right here int satoshisBeingUsed = 0; int inputsBeingConsumed = 0; List utxoObjectsToUse = []; for (var i = 0; satoshisBeingUsed < satoshiAmountToSend && i < spendableOutputs.length; i++) { utxoObjectsToUse.add(spendableOutputs[i]); satoshisBeingUsed += spendableOutputs[i].value; inputsBeingConsumed += 1; } for (int i = 0; i < additionalOutputs && inputsBeingConsumed < spendableOutputs.length; i++) { utxoObjectsToUse.add(spendableOutputs[inputsBeingConsumed]); satoshisBeingUsed += spendableOutputs[inputsBeingConsumed].value; inputsBeingConsumed += 1; } Logging.instance .log("satoshisBeingUsed: $satoshisBeingUsed", level: LogLevel.Info); Logging.instance .log("inputsBeingConsumed: $inputsBeingConsumed", level: LogLevel.Info); Logging.instance .log('utxoObjectsToUse: $utxoObjectsToUse', level: LogLevel.Info); Logging.instance .log('satoshiAmountToSend $satoshiAmountToSend', level: LogLevel.Info); // numberOfOutputs' length must always be equal to that of recipientsArray and recipientsAmtArray List recipientsArray = [_recipientAddress]; List recipientsAmtArray = [satoshiAmountToSend]; // gather required signing data final utxoSigningData = await fetchBuildTxData(utxoObjectsToUse); if (isSendAll) { Logging.instance .log("Attempting to send all $coin", level: LogLevel.Info); final int vSizeForOneOutput = (await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: [_recipientAddress], satoshiAmounts: [satoshisBeingUsed - 1], ))["vSize"] as int; int feeForOneOutput = estimateTxFee( vSize: vSizeForOneOutput, feeRatePerKB: selectedTxFeeRate, ); if (feeForOneOutput < (vSizeForOneOutput + 1)) { feeForOneOutput = (vSizeForOneOutput + 1); } final int amount = satoshiAmountToSend - feeForOneOutput; dynamic txn = await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: recipientsArray, satoshiAmounts: [amount], ); Map transactionObject = { "hex": txn["hex"], "recipient": recipientsArray[0], "recipientAmt": amount, "fee": feeForOneOutput, "vSize": txn["vSize"], }; return transactionObject; } final int vSizeForOneOutput = (await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: [_recipientAddress], satoshiAmounts: [satoshisBeingUsed - 1], ))["vSize"] as int; final int vSizeForTwoOutPuts = (await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: [ _recipientAddress, await _getCurrentAddressForChain(1, DerivePathType.bip44), ], satoshiAmounts: [ satoshiAmountToSend, satoshisBeingUsed - satoshiAmountToSend - 1, ], // dust limit is the minimum amount a change output should be ))["vSize"] as int; //todo: check if print needed // debugPrint("vSizeForOneOutput $vSizeForOneOutput"); // debugPrint("vSizeForTwoOutPuts $vSizeForTwoOutPuts"); // Assume 1 output, only for recipient and no change var feeForOneOutput = estimateTxFee( vSize: vSizeForOneOutput, feeRatePerKB: selectedTxFeeRate, ); // Assume 2 outputs, one for recipient and one for change var feeForTwoOutputs = estimateTxFee( vSize: vSizeForTwoOutPuts, feeRatePerKB: selectedTxFeeRate, ); Logging.instance .log("feeForTwoOutputs: $feeForTwoOutputs", level: LogLevel.Info); Logging.instance .log("feeForOneOutput: $feeForOneOutput", level: LogLevel.Info); if (feeForOneOutput < (vSizeForOneOutput + 1)) { feeForOneOutput = (vSizeForOneOutput + 1); } if (feeForTwoOutputs < ((vSizeForTwoOutPuts + 1))) { feeForTwoOutputs = ((vSizeForTwoOutPuts + 1)); } Logging.instance .log("feeForTwoOutputs: $feeForTwoOutputs", level: LogLevel.Info); Logging.instance .log("feeForOneOutput: $feeForOneOutput", level: LogLevel.Info); if (satoshisBeingUsed - satoshiAmountToSend > feeForOneOutput) { if (satoshisBeingUsed - satoshiAmountToSend > feeForOneOutput + DUST_LIMIT) { // Here, we know that theoretically, we may be able to include another output(change) but we first need to // factor in the value of this output in satoshis. int changeOutputSize = satoshisBeingUsed - satoshiAmountToSend - feeForTwoOutputs; // We check to see if the user can pay for the new transaction with 2 outputs instead of one. If they can and // the second output's size > 546 satoshis, we perform the mechanics required to properly generate and use a new // change address. if (changeOutputSize > DUST_LIMIT && satoshisBeingUsed - satoshiAmountToSend - changeOutputSize == feeForTwoOutputs) { // generate new change address if current change address has been used await _checkChangeAddressForTransactions(); final String newChangeAddress = await _getCurrentAddressForChain(1, DerivePathType.bip44); int feeBeingPaid = satoshisBeingUsed - satoshiAmountToSend - changeOutputSize; recipientsArray.add(newChangeAddress); recipientsAmtArray.add(changeOutputSize); // At this point, we have the outputs we're going to use, the amounts to send along with which addresses // we intend to send these amounts to. We have enough to send instructions to build the transaction. Logging.instance.log('2 outputs in tx', level: LogLevel.Info); Logging.instance .log('Input size: $satoshisBeingUsed', level: LogLevel.Info); Logging.instance.log('Recipient output size: $satoshiAmountToSend', level: LogLevel.Info); Logging.instance.log('Change Output Size: $changeOutputSize', level: LogLevel.Info); Logging.instance.log( 'Difference (fee being paid): $feeBeingPaid sats', level: LogLevel.Info); Logging.instance .log('Estimated fee: $feeForTwoOutputs', level: LogLevel.Info); dynamic txn = await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: recipientsArray, satoshiAmounts: recipientsAmtArray, ); // make sure minimum fee is accurate if that is being used if (txn["vSize"] - feeBeingPaid == 1) { int changeOutputSize = satoshisBeingUsed - satoshiAmountToSend - (txn["vSize"] as int); feeBeingPaid = satoshisBeingUsed - satoshiAmountToSend - changeOutputSize; recipientsAmtArray.removeLast(); recipientsAmtArray.add(changeOutputSize); Logging.instance.log('Adjusted Input size: $satoshisBeingUsed', level: LogLevel.Info); Logging.instance.log( 'Adjusted Recipient output size: $satoshiAmountToSend', level: LogLevel.Info); Logging.instance.log( 'Adjusted Change Output Size: $changeOutputSize', level: LogLevel.Info); Logging.instance.log( 'Adjusted Difference (fee being paid): $feeBeingPaid sats', level: LogLevel.Info); Logging.instance.log('Adjusted Estimated fee: $feeForTwoOutputs', level: LogLevel.Info); txn = await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: recipientsArray, satoshiAmounts: recipientsAmtArray, ); } Map transactionObject = { "hex": txn["hex"], "recipient": recipientsArray[0], "recipientAmt": recipientsAmtArray[0], "fee": feeBeingPaid, "vSize": txn["vSize"], }; return transactionObject; } else { // Something went wrong here. It either overshot or undershot the estimated fee amount or the changeOutputSize // is smaller than or equal to [DUST_LIMIT]. Revert to single output transaction. Logging.instance.log('1 output in tx', level: LogLevel.Info); Logging.instance .log('Input size: $satoshisBeingUsed', level: LogLevel.Info); Logging.instance.log('Recipient output size: $satoshiAmountToSend', level: LogLevel.Info); Logging.instance.log( 'Difference (fee being paid): ${satoshisBeingUsed - satoshiAmountToSend} sats', level: LogLevel.Info); Logging.instance .log('Estimated fee: $feeForOneOutput', level: LogLevel.Info); dynamic txn = await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: recipientsArray, satoshiAmounts: recipientsAmtArray, ); Map transactionObject = { "hex": txn["hex"], "recipient": recipientsArray[0], "recipientAmt": recipientsAmtArray[0], "fee": satoshisBeingUsed - satoshiAmountToSend, "vSize": txn["vSize"], }; return transactionObject; } } else { // No additional outputs needed since adding one would mean that it'd be smaller than 546 sats // which makes it uneconomical to add to the transaction. Here, we pass data directly to instruct // the wallet to begin crafting the transaction that the user requested. Logging.instance.log('1 output in tx', level: LogLevel.Info); Logging.instance .log('Input size: $satoshisBeingUsed', level: LogLevel.Info); Logging.instance.log('Recipient output size: $satoshiAmountToSend', level: LogLevel.Info); Logging.instance.log( 'Difference (fee being paid): ${satoshisBeingUsed - satoshiAmountToSend} sats', level: LogLevel.Info); Logging.instance .log('Estimated fee: $feeForOneOutput', level: LogLevel.Info); dynamic txn = await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: recipientsArray, satoshiAmounts: recipientsAmtArray, ); Map transactionObject = { "hex": txn["hex"], "recipient": recipientsArray[0], "recipientAmt": recipientsAmtArray[0], "fee": satoshisBeingUsed - satoshiAmountToSend, "vSize": txn["vSize"], }; return transactionObject; } } else if (satoshisBeingUsed - satoshiAmountToSend == feeForOneOutput) { // In this scenario, no additional change output is needed since inputs - outputs equal exactly // what we need to pay for fees. Here, we pass data directly to instruct the wallet to begin // crafting the transaction that the user requested. Logging.instance.log('1 output in tx', level: LogLevel.Info); Logging.instance .log('Input size: $satoshisBeingUsed', level: LogLevel.Info); Logging.instance.log('Recipient output size: $satoshiAmountToSend', level: LogLevel.Info); Logging.instance.log( 'Fee being paid: ${satoshisBeingUsed - satoshiAmountToSend} sats', level: LogLevel.Info); Logging.instance .log('Estimated fee: $feeForOneOutput', level: LogLevel.Info); dynamic txn = await buildTransaction( utxosToUse: utxoObjectsToUse, utxoSigningData: utxoSigningData, recipients: recipientsArray, satoshiAmounts: recipientsAmtArray, ); Map transactionObject = { "hex": txn["hex"], "recipient": recipientsArray[0], "recipientAmt": recipientsAmtArray[0], "fee": feeForOneOutput, "vSize": txn["vSize"], }; return transactionObject; } else { // Remember that returning 2 indicates that the user does not have a sufficient balance to // pay for the transaction fee. Ideally, at this stage, we should check if the user has any // additional outputs they're able to spend and then recalculate fees. Logging.instance.log( 'Cannot pay tx fee - checking for more outputs and trying again', level: LogLevel.Warning); // try adding more outputs if (spendableOutputs.length > inputsBeingConsumed) { return coinSelection(satoshiAmountToSend, selectedTxFeeRate, _recipientAddress, isSendAll, additionalOutputs: additionalOutputs + 1, utxos: utxos); } return 2; } } Future> fetchBuildTxData( List utxosToUse, ) async { // return data Map results = {}; Map> addressTxid = {}; // addresses to check List addressesP2PKH = []; List addressesP2SH = []; try { // Populating the addresses to check for (var i = 0; i < utxosToUse.length; i++) { final txid = utxosToUse[i].txid; final tx = await _cachedElectrumXClient.getTransaction( txHash: txid, coin: coin, ); for (final output in tx["vout"] as List) { final n = output["n"]; if (n != null && n == utxosToUse[i].vout) { String address = output["scriptPubKey"]["addresses"][0] as String; if (bitbox.Address.detectFormat(address) == bitbox.Address.formatCashAddr) { if (validateCashAddr(address)) { address = bitbox.Address.toLegacyAddress(address); } else { throw Exception( "Unsupported address found during fetchBuildTxData(): $address"); } } if (!addressTxid.containsKey(address)) { addressTxid[address] = []; } (addressTxid[address] as List).add(txid); switch (addressType(address: address)) { case DerivePathType.bip44: addressesP2PKH.add(address); break; case DerivePathType.bip49: addressesP2SH.add(address); break; } } } } // p2pkh / bip44 final p2pkhLength = addressesP2PKH.length; if (p2pkhLength > 0) { final receiveDerivations = await _fetchDerivations( chain: 0, derivePathType: DerivePathType.bip44, ); final changeDerivations = await _fetchDerivations( chain: 1, derivePathType: DerivePathType.bip44, ); for (int i = 0; i < p2pkhLength; i++) { String address = addressesP2PKH[i]; // receives final receiveDerivation = receiveDerivations[address]; // if a match exists it will not be null if (receiveDerivation != null) { final data = P2PKH( data: PaymentData( pubkey: Format.stringToUint8List( receiveDerivation["pubKey"] as String)), network: _network, ).data; for (String tx in addressTxid[address]!) { results[tx] = { "output": data.output, "keyPair": ECPair.fromWIF( receiveDerivation["wif"] as String, network: _network, ), }; } } else { // if its not a receive, check change final changeDerivation = changeDerivations[address]; // if a match exists it will not be null if (changeDerivation != null) { final data = P2PKH( data: PaymentData( pubkey: Format.stringToUint8List( changeDerivation["pubKey"] as String)), network: _network, ).data; for (String tx in addressTxid[address]!) { results[tx] = { "output": data.output, "keyPair": ECPair.fromWIF( changeDerivation["wif"] as String, network: _network, ), }; } } } } } // p2sh / bip49 final p2shLength = addressesP2SH.length; if (p2shLength > 0) { final receiveDerivations = await _fetchDerivations( chain: 0, derivePathType: DerivePathType.bip49, ); final changeDerivations = await _fetchDerivations( chain: 1, derivePathType: DerivePathType.bip49, ); for (int i = 0; i < p2shLength; i++) { // receives final receiveDerivation = receiveDerivations[addressesP2SH[i]]; // if a match exists it will not be null if (receiveDerivation != null) { final p2wpkh = P2WPKH( data: PaymentData( pubkey: Format.stringToUint8List( receiveDerivation["pubKey"] as String)), network: _network) .data; final redeemScript = p2wpkh.output; final data = P2SH(data: PaymentData(redeem: p2wpkh), network: _network).data; for (String tx in addressTxid[addressesP2SH[i]]!) { results[tx] = { "output": data.output, "keyPair": ECPair.fromWIF( receiveDerivation["wif"] as String, network: _network, ), "redeemScript": redeemScript, }; } } else { // if its not a receive, check change final changeDerivation = changeDerivations[addressesP2SH[i]]; // if a match exists it will not be null if (changeDerivation != null) { final p2wpkh = P2WPKH( data: PaymentData( pubkey: Format.stringToUint8List( changeDerivation["pubKey"] as String)), network: _network) .data; final redeemScript = p2wpkh.output; final data = P2SH(data: PaymentData(redeem: p2wpkh), network: _network) .data; for (String tx in addressTxid[addressesP2SH[i]]!) { results[tx] = { "output": data.output, "keyPair": ECPair.fromWIF( changeDerivation["wif"] as String, network: _network, ), "redeemScript": redeemScript, }; } } } } } return results; } catch (e, s) { Logging.instance .log("fetchBuildTxData() threw: $e,\n$s", level: LogLevel.Error); rethrow; } } /// Builds and signs a transaction Future> buildTransaction({ required List utxosToUse, required Map utxoSigningData, required List recipients, required List satoshiAmounts, }) async { final builder = bitbox.Bitbox.transactionBuilder(); // retrieve address' utxos from the rest api List _utxos = []; // await Bitbox.Address.utxo(address) as List; for (var element in utxosToUse) { _utxos.add(bitbox.Utxo( element.txid, element.vout, bitbox.BitcoinCash.fromSatoshi(element.value), element.value, 0, MINIMUM_CONFIRMATIONS + 1)); } Logger.print("bch utxos: $_utxos"); // placeholder for input signatures final List> signatures = []; // placeholder for total input balance // int totalBalance = 0; // iterate through the list of address _utxos and use them as inputs for the // withdrawal transaction for (var utxo in _utxos) { // add the utxo as an input for the transaction builder.addInput(utxo.txid, utxo.vout); final ec = utxoSigningData[utxo.txid]["keyPair"] as ECPair; final bitboxEC = bitbox.ECPair.fromWIF(ec.toWIF()); // add a signature to the list to be used later signatures.add({ "vin": signatures.length, "key_pair": bitboxEC, "original_amount": utxo.satoshis }); // totalBalance += utxo.satoshis; } // calculate the fee based on number of inputs and one expected output // final fee = // bitbox.BitcoinCash.getByteCount(signatures.length, recipients.length); // calculate how much balance will be left over to spend after the fee // final sendAmount = totalBalance - fee; // add the output based on the address provided in the testing data for (int i = 0; i < recipients.length; i++) { String recipient = recipients[i]; int satoshiAmount = satoshiAmounts[i]; builder.addOutput(recipient, satoshiAmount); } // sign all inputs for (var signature in signatures) { builder.sign( signature["vin"] as int, signature["key_pair"] as bitbox.ECPair, signature["original_amount"] as int); } // build the transaction final tx = builder.build(); final txHex = tx.toHex(); final vSize = tx.virtualSize(); //todo: check if print needed Logger.print("bch raw hex: $txHex"); return {"hex": txHex, "vSize": vSize}; } @override Future fullRescan( int maxUnusedAddressGap, int maxNumberOfIndexesToCheck, ) async { Logging.instance.log("Starting full rescan!", level: LogLevel.Info); longMutex = true; GlobalEventBus.instance.fire( WalletSyncStatusChangedEvent( WalletSyncStatus.syncing, walletId, coin, ), ); // clear cache await _cachedElectrumXClient.clearSharedTransactionCache(coin: coin); // clear blockchain info await isar.writeTxn(() async { await isar.addresses.clear(); await isar.transactions.clear(); await isar.utxos.clear(); }); try { final mnemonic = await _secureStore.read(key: '${_walletId}_mnemonic'); await _recoverWalletFromBIP32SeedPhrase( mnemonic: mnemonic!, maxUnusedAddressGap: maxUnusedAddressGap, maxNumberOfIndexesToCheck: maxNumberOfIndexesToCheck, ); longMutex = false; Logging.instance.log("Full rescan complete!", level: LogLevel.Info); GlobalEventBus.instance.fire( WalletSyncStatusChangedEvent( WalletSyncStatus.synced, walletId, coin, ), ); } catch (e, s) { GlobalEventBus.instance.fire( WalletSyncStatusChangedEvent( WalletSyncStatus.unableToSync, walletId, coin, ), ); longMutex = false; Logging.instance.log("Exception rethrown from fullRescan(): $e\n$s", level: LogLevel.Error); rethrow; } } @override set isFavorite(bool markFavorite) { DB.instance.put( boxName: walletId, key: DBKeys.isFavorite, value: markFavorite); } @override bool get isFavorite { try { return DB.instance.get(boxName: walletId, key: DBKeys.isFavorite) as bool; } catch (e, s) { Logging.instance.log( "isFavorite fetch failed (returning false by default): $e\n$s", level: LogLevel.Error); return false; } } @override bool get isRefreshing => refreshMutex; bool isActive = false; @override void Function(bool)? get onIsActiveWalletChanged => (isActive) => this.isActive = isActive; @override Future estimateFeeFor(int satoshiAmount, int feeRate) async { final available = balance.spendable; if (available == satoshiAmount) { return satoshiAmount - (await sweepAllEstimate(feeRate)); } else if (satoshiAmount <= 0 || satoshiAmount > available) { return roughFeeEstimate(1, 2, feeRate); } int runningBalance = 0; int inputCount = 0; for (final output in (await utxos)) { if (!output.isBlocked) { runningBalance += output.value; inputCount++; if (runningBalance > satoshiAmount) { break; } } } final oneOutPutFee = roughFeeEstimate(inputCount, 1, feeRate); final twoOutPutFee = roughFeeEstimate(inputCount, 2, feeRate); if (runningBalance - satoshiAmount > oneOutPutFee) { if (runningBalance - satoshiAmount > oneOutPutFee + DUST_LIMIT) { final change = runningBalance - satoshiAmount - twoOutPutFee; if (change > DUST_LIMIT && runningBalance - satoshiAmount - change == twoOutPutFee) { return runningBalance - satoshiAmount - change; } else { return runningBalance - satoshiAmount; } } else { return runningBalance - satoshiAmount; } } else if (runningBalance - satoshiAmount == oneOutPutFee) { return oneOutPutFee; } else { return twoOutPutFee; } } // TODO: correct formula for bch? int roughFeeEstimate(int inputCount, int outputCount, int feeRatePerKB) { return ((181 * inputCount) + (34 * outputCount) + 10) * (feeRatePerKB / 1000).ceil(); } Future sweepAllEstimate(int feeRate) async { int available = 0; int inputCount = 0; for (final output in (await utxos)) { if (!output.isBlocked && output.isConfirmed(storedChainHeight, MINIMUM_CONFIRMATIONS)) { available += output.value; inputCount++; } } // transaction will only have 1 output minus the fee final estimatedFee = roughFeeEstimate(inputCount, 1, feeRate); return available - estimatedFee; } @override Future generateNewAddress() async { try { final currentReceiving = await _currentReceivingAddress; final newReceivingIndex = currentReceiving.derivationIndex + 1; // Use new index to derive a new receiving address final newReceivingAddress = await _generateAddressForChain( 0, newReceivingIndex, DerivePathType.bip44); // Add that new receiving address await isar.writeTxn(() async { await isar.addresses.put(newReceivingAddress); }); return true; } catch (e, s) { Logging.instance.log( "Exception rethrown from generateNewAddress(): $e\n$s", level: LogLevel.Error); return false; } } @override Isar get isarInstance => isar; } // Bitcoincash Network final bitcoincash = NetworkType( messagePrefix: '\x18Bitcoin Signed Message:\n', bech32: 'bc', bip32: Bip32Type(public: 0x0488b21e, private: 0x0488ade4), pubKeyHash: 0x00, scriptHash: 0x05, wif: 0x80); final bitcoincashtestnet = NetworkType( messagePrefix: '\x18Bitcoin Signed Message:\n', bech32: 'tb', bip32: Bip32Type(public: 0x043587cf, private: 0x04358394), pubKeyHash: 0x6f, scriptHash: 0xc4, wif: 0xef);