import 'dart:async'; import 'dart:convert'; import 'dart:io'; import 'package:cw_core/cake_hive.dart'; import 'package:cw_core/crypto_currency.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_direction.dart'; import 'package:cw_core/transaction_priority.dart'; import 'package:cw_core/wallet_addresses.dart'; import 'package:cw_core/wallet_base.dart'; import 'package:cw_core/wallet_info.dart'; import 'package:cw_solana/default_spl_tokens.dart'; import 'package:cw_solana/file.dart'; import 'package:cw_solana/solana_balance.dart'; import 'package:cw_solana/solana_client.dart'; import 'package:cw_solana/solana_exceptions.dart'; import 'package:cw_solana/solana_transaction_credentials.dart'; import 'package:cw_solana/solana_transaction_history.dart'; import 'package:cw_solana/solana_transaction_info.dart'; import 'package:cw_solana/solana_transaction_model.dart'; import 'package:cw_solana/solana_wallet_addresses.dart'; import 'package:cw_solana/spl_token.dart'; import 'package:hex/hex.dart'; import 'package:hive/hive.dart'; import 'package:mobx/mobx.dart'; import 'package:shared_preferences/shared_preferences.dart'; import 'package:solana/base58.dart'; import 'package:solana/metaplex.dart' as metaplex; import 'package:solana/solana.dart'; import 'package:solana/src/crypto/ed25519_hd_keypair.dart'; import 'package:cryptography/cryptography.dart'; part 'solana_wallet.g.dart'; class SolanaWallet = SolanaWalletBase with _$SolanaWallet; abstract class SolanaWalletBase extends WalletBase with Store { SolanaWalletBase({ required WalletInfo walletInfo, String? mnemonic, String? privateKey, required String password, SolanaBalance? initialBalance, }) : syncStatus = const NotConnectedSyncStatus(), _password = password, _mnemonic = mnemonic, _hexPrivateKey = privateKey, _client = SolanaWalletClient(), walletAddresses = SolanaWalletAddresses(walletInfo), balance = ObservableMap.of( {CryptoCurrency.sol: initialBalance ?? SolanaBalance(BigInt.zero.toDouble())}), super(walletInfo) { this.walletInfo = walletInfo; transactionHistory = SolanaTransactionHistory(walletInfo: walletInfo, password: password); if (!CakeHive.isAdapterRegistered(SPLToken.typeId)) { CakeHive.registerAdapter(SPLTokenAdapter()); } _sharedPrefs.complete(SharedPreferences.getInstance()); } final String _password; final String? _mnemonic; final String? _hexPrivateKey; // The Solana WalletPair Ed25519HDKeyPair? _walletKeyPair; Ed25519HDKeyPair? get walletKeyPair => _walletKeyPair; // To access the privateKey bytes. Ed25519HDKeyPairData? _keyPairData; late SolanaWalletClient _client; @observable double? estimatedFee; Timer? _transactionsUpdateTimer; late final Box splTokensBox; @override WalletAddresses walletAddresses; @override @observable SyncStatus syncStatus; @override @observable late ObservableMap balance; Completer _sharedPrefs = Completer(); @override Ed25519HDKeyPairData get keys { if (_keyPairData == null) { return Ed25519HDKeyPairData([], publicKey: const Ed25519HDPublicKey([])); } return _keyPairData!; } @override String? get seed => _mnemonic; @override String get privateKey { final privateKeyBytes = _keyPairData!.bytes; final publicKeyBytes = _keyPairData!.publicKey.bytes; final encodedBytes = privateKeyBytes + publicKeyBytes; final privateKey = base58encode(encodedBytes); return privateKey; } Future init() async { final boxName = "${walletInfo.name.replaceAll(" ", "_")}_${SPLToken.boxName}"; splTokensBox = await CakeHive.openBox(boxName); // Create WalletPair using either the mnemonic or the privateKey _walletKeyPair = await getWalletPair( mnemonic: _mnemonic, privateKey: _hexPrivateKey, ); // Extract the keyPairData containing both the privateKey bytes and the publicKey hex. _keyPairData = await _walletKeyPair!.extract(); walletInfo.address = _walletKeyPair!.address; await walletAddresses.init(); await transactionHistory.init(); await save(); } Future getWalletPair({String? mnemonic, String? privateKey}) async { assert(mnemonic != null || privateKey != null); if (privateKey != null) { final privateKeyBytes = base58decode(privateKey); return await Wallet.fromPrivateKeyBytes(privateKey: privateKeyBytes.take(32).toList()); } return Wallet.fromMnemonic(mnemonic!, account: 0, change: 0); } @override int calculateEstimatedFee(TransactionPriority priority, int? amount) => 0; @override Future changePassword(String password) => throw UnimplementedError("changePassword"); @override void close() { _client.stop(); _transactionsUpdateTimer?.cancel(); } @action @override Future connectToNode({required Node node}) async { try { syncStatus = ConnectingSyncStatus(); final isConnected = _client.connect(node); if (!isConnected) { throw Exception("Solana Node connection failed"); } _setTransactionUpdateTimer(); syncStatus = ConnectedSyncStatus(); } catch (e) { syncStatus = FailedSyncStatus(); } } Future _getEstimatedFees() async { try { estimatedFee = await _client.getEstimatedFee(_walletKeyPair!); } catch (e) { estimatedFee = 0.0; } } @override Future createTransaction(Object credentials) async { final solCredentials = credentials as SolanaTransactionCredentials; final outputs = solCredentials.outputs; final hasMultiDestination = outputs.length > 1; await _updateBalance(); final CryptoCurrency transactionCurrency = balance.keys.firstWhere((element) => element.title == solCredentials.currency.title); final walletBalanceForCurrency = balance[transactionCurrency]!.balance; double totalAmount = 0.0; bool isSendAll = false; if (hasMultiDestination) { if (outputs.any((item) => item.sendAll || (item.formattedCryptoAmount ?? 0) <= 0)) { throw SolanaTransactionWrongBalanceException(transactionCurrency); } final totalAmountFromCredentials = outputs.fold(0, (acc, value) => acc + (value.formattedCryptoAmount ?? 0)); totalAmount = totalAmountFromCredentials.toDouble(); if (walletBalanceForCurrency < totalAmount) { throw SolanaTransactionWrongBalanceException(transactionCurrency); } } else { final output = outputs.first; isSendAll = output.sendAll; if (isSendAll) { totalAmount = walletBalanceForCurrency; } else { final totalOriginalAmount = double.parse(output.cryptoAmount ?? '0.0'); totalAmount = totalOriginalAmount; } if (walletBalanceForCurrency < totalAmount) { throw SolanaTransactionWrongBalanceException(transactionCurrency); } } String? tokenMint; // Token Mint is only needed for transactions that are not native tokens(non-SOL transactions) if (transactionCurrency.title != CryptoCurrency.sol.title) { tokenMint = (transactionCurrency as SPLToken).mintAddress; } final pendingSolanaTransaction = await _client.signSolanaTransaction( tokenMint: tokenMint, tokenTitle: transactionCurrency.title, inputAmount: totalAmount, ownerKeypair: _walletKeyPair!, tokenDecimals: transactionCurrency.decimals, destinationAddress: solCredentials.outputs.first.isParsedAddress ? solCredentials.outputs.first.extractedAddress! : solCredentials.outputs.first.address, isSendAll: isSendAll, ); return pendingSolanaTransaction; } @override Future> fetchTransactions() async => {}; /// Fetches the native SOL transactions linked to the wallet Public Key Future _updateNativeSOLTransactions() async { final address = Ed25519HDPublicKey.fromBase58(_walletKeyPair!.address); final transactions = await _client.fetchTransactions(address); await _addTransactionsToTransactionHistory(transactions); } /// Fetches the SPL Tokens transactions linked to the token account Public Key Future _updateSPLTokenTransactions() async { // List splTokenTransactions = []; // Make a copy of keys to avoid concurrent modification var tokenKeys = List.from(balance.keys); for (var token in tokenKeys) { if (token is SPLToken) { final tokenTxs = await _client.getSPLTokenTransfers( token.mintAddress, token.symbol, token.decimal, _walletKeyPair!, ); // splTokenTransactions.addAll(tokenTxs); await _addTransactionsToTransactionHistory(tokenTxs); } } // await _addTransactionsToTransactionHistory(splTokenTransactions); } Future _addTransactionsToTransactionHistory( List transactions, ) async { final Map result = {}; for (var transactionModel in transactions) { result[transactionModel.id] = SolanaTransactionInfo( id: transactionModel.id, to: transactionModel.to, from: transactionModel.from, blockTime: transactionModel.blockTime, direction: transactionModel.isOutgoingTx ? TransactionDirection.outgoing : TransactionDirection.incoming, solAmount: transactionModel.amount, isPending: false, txFee: transactionModel.fee, tokenSymbol: transactionModel.tokenSymbol, ); } transactionHistory.addMany(result); await transactionHistory.save(); } @override Future rescan({required int height}) => throw UnimplementedError("rescan"); @override Future save() async { await walletAddresses.updateAddressesInBox(); final path = await makePath(); await write(path: path, password: _password, data: toJSON()); await transactionHistory.save(); } @action @override Future startSync() async { try { syncStatus = AttemptingSyncStatus(); await Future.wait([ _updateBalance(), _updateNativeSOLTransactions(), _updateSPLTokenTransactions(), _getEstimatedFees(), ]); syncStatus = SyncedSyncStatus(); } catch (e) { syncStatus = FailedSyncStatus(); } } Future makePath() async => pathForWallet(name: walletInfo.name, type: walletInfo.type); String toJSON() => json.encode({ 'mnemonic': _mnemonic, 'private_key': privateKey, 'balance': balance[currency]!.toJSON(), }); static Future open({ required String name, required String password, required WalletInfo walletInfo, }) async { final path = await pathForWallet(name: name, type: walletInfo.type); final jsonSource = await read(path: path, password: password); final data = json.decode(jsonSource) as Map; final mnemonic = data['mnemonic'] as String?; final privateKey = data['private_key'] as String?; final balance = SolanaBalance.fromJSON(data['balance'] as String) ?? SolanaBalance(0.0); return SolanaWallet( walletInfo: walletInfo, password: password, mnemonic: mnemonic, privateKey: privateKey, initialBalance: balance, ); } Future _updateBalance() async { balance[currency] = await _fetchSOLBalance(); await _fetchSPLTokensBalances(); await save(); } Future _fetchSOLBalance() async { final balance = await _client.getBalance(_walletKeyPair!.address); return SolanaBalance(balance); } Future _fetchSPLTokensBalances() async { for (var token in splTokensBox.values) { if (token.enabled) { try { final tokenBalance = await _client.getSplTokenBalance(token.mintAddress, _walletKeyPair!.address) ?? balance[token] ?? SolanaBalance(0.0); balance[token] = tokenBalance; } catch (e) { print('Error fetching spl token (${token.symbol}) balance ${e.toString()}'); } } else { balance.remove(token); } } } @override Future? updateBalance() async => await _updateBalance(); List get splTokenCurrencies => splTokensBox.values.toList(); void addInitialTokens() { final initialSPLTokens = DefaultSPLTokens().initialSPLTokens; for (var token in initialSPLTokens) { splTokensBox.put(token.mintAddress, token); } } Future addSPLToken(SPLToken token) async { await splTokensBox.put(token.mintAddress, token); if (token.enabled) { final tokenBalance = await _client.getSplTokenBalance(token.mintAddress, _walletKeyPair!.address) ?? balance[token] ?? SolanaBalance(0.0); balance[token] = tokenBalance; } else { balance.remove(token); } } Future deleteSPLToken(SPLToken token) async { await token.delete(); balance.remove(token); await _removeTokenTransactionsInHistory(token); _updateBalance(); } Future _removeTokenTransactionsInHistory(SPLToken token) async { transactionHistory.transactions.removeWhere((key, value) => value.tokenSymbol == token.title); await transactionHistory.save(); } Future getSPLToken(String mintAddress) async { // Convert SPL token mint address to public key final Ed25519HDPublicKey mintPublicKey; try { mintPublicKey = Ed25519HDPublicKey.fromBase58(mintAddress); } catch (_) { return null; } // Fetch token's metadata account try { final token = await solanaClient!.rpcClient.getMetadata(mint: mintPublicKey); if (token == null) { return null; } String? iconPath; try { iconPath = await _client.getIconImageFromTokenUri(token.uri); } catch (_) {} String filteredTokenSymbol = token.symbol.replaceFirst(RegExp('^\\\$'), ''); return SPLToken.fromMetadata( name: token.name, mint: token.mint, symbol: filteredTokenSymbol, mintAddress: mintAddress, iconPath: iconPath, ); } catch (e) { return null; } } @override Future renameWalletFiles(String newWalletName) async { final currentWalletPath = await pathForWallet(name: walletInfo.name, type: type); final currentWalletFile = File(currentWalletPath); final currentDirPath = await pathForWalletDir(name: walletInfo.name, type: type); final currentTransactionsFile = File('$currentDirPath/$transactionsHistoryFileName'); // Copies current wallet files into new wallet name's dir and files if (currentWalletFile.existsSync()) { final newWalletPath = await pathForWallet(name: newWalletName, type: type); await currentWalletFile.copy(newWalletPath); } if (currentTransactionsFile.existsSync()) { final newDirPath = await pathForWalletDir(name: newWalletName, type: type); await currentTransactionsFile.copy('$newDirPath/$transactionsHistoryFileName'); } // Delete old name's dir and files await Directory(currentDirPath).delete(recursive: true); } void _setTransactionUpdateTimer() { if (_transactionsUpdateTimer?.isActive ?? false) { _transactionsUpdateTimer!.cancel(); } _transactionsUpdateTimer = Timer.periodic(const Duration(seconds: 20), (_) { _updateBalance(); _updateNativeSOLTransactions(); _updateSPLTokenTransactions(); }); } Future signSolanaMessage(String message) async { // Convert the message to bytes final messageBytes = utf8.encode(message); // Sign the message bytes with the wallet's private key final signature = await _walletKeyPair!.sign(messageBytes); return signature.toString(); } @override Future signMessage(String message, {String? address}) async { return HEX.encode(utf8.encode(await signSolanaMessage(message))).toUpperCase(); } List> bytesFromSigString(String signatureString) { final regex = RegExp(r'Signature\(\[(.+)\], publicKey: (.+)\)'); final match = regex.firstMatch(signatureString); if (match != null) { final bytesString = match.group(1)!; final base58EncodedPublicKeyString = match.group(2)!; final sigBytes = bytesString.split(', ').map(int.parse).toList(); List pubKeyBytes = base58decode(base58EncodedPublicKeyString); return [sigBytes, pubKeyBytes]; } else { throw const FormatException('Invalid Signature string format'); } } @override Future verifyMessage(String message, String signature, {String? address}) async { String signatureString = utf8.decode(HEX.decode(signature)); List> bytes = bytesFromSigString(signatureString); final messageBytes = utf8.encode(message); final sigBytes = bytes[0]; final pubKeyBytes = bytes[1]; return await verifySignature( message: messageBytes, signature: sigBytes, publicKey: Ed25519HDPublicKey(pubKeyBytes), ); } SolanaClient? get solanaClient => _client.getSolanaClient; }