/* * This file is part of Stack Wallet. * * Copyright (c) 2023 Cypher Stack * All Rights Reserved. * The code is distributed under GPLv3 license, see LICENSE file for details. * Generated by Cypher Stack on 2023-05-26 * */ import 'dart:convert'; import '../wallets/crypto_currency/crypto_currency.dart'; class AddressUtils { static final Set recognizedParams = { 'amount', 'label', 'message', 'tx_amount', // For Monero/Wownero. 'tx_payment_id', 'recipient_name', 'tx_description', // TODO [prio=med]: Add more recognized params for other coins. }; static String condenseAddress(String address) { return '${address.substring(0, 5)}...${address.substring(address.length - 5)}'; } // static bool validateAddress(String address, Coin coin) { // //This calls the validate address for each crypto coin, validateAddress is // //only used in 2 places, so I just replaced the old functionality here // switch (coin) { // case Coin.bitcoin: // return Bitcoin(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.bitcoinFrost: // return BitcoinFrost(CryptoCurrencyNetwork.main) // .validateAddress(address); // case Coin.litecoin: // return Litecoin(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.bitcoincash: // return Bitcoincash(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.dogecoin: // return Dogecoin(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.epicCash: // return Epiccash(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.ethereum: // return Ethereum(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.firo: // return Firo(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.eCash: // return Ecash(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.monero: // return Monero(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.wownero: // return Wownero(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.namecoin: // return Namecoin(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.particl: // return Particl(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.peercoin: // return Peercoin(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.solana: // return Solana(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.stellar: // return Stellar(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.nano: // return Nano(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.banano: // return Banano(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.tezos: // return Tezos(CryptoCurrencyNetwork.main).validateAddress(address); // case Coin.bitcoinTestNet: // return Bitcoin(CryptoCurrencyNetwork.test).validateAddress(address); // case Coin.bitcoinFrostTestNet: // return BitcoinFrost(CryptoCurrencyNetwork.test) // .validateAddress(address); // case Coin.litecoinTestNet: // return Litecoin(CryptoCurrencyNetwork.test).validateAddress(address); // case Coin.bitcoincashTestnet: // return Bitcoincash(CryptoCurrencyNetwork.test).validateAddress(address); // case Coin.firoTestNet: // return Firo(CryptoCurrencyNetwork.test).validateAddress(address); // case Coin.dogecoinTestNet: // return Dogecoin(CryptoCurrencyNetwork.test).validateAddress(address); // case Coin.peercoinTestNet: // return Peercoin(CryptoCurrencyNetwork.test).validateAddress(address); // case Coin.stellarTestnet: // return Stellar(CryptoCurrencyNetwork.test).validateAddress(address); // } // // throw Exception("moved"); // // switch (coin) { // // case Coin.bitcoin: // // return Address.validateAddress(address, bitcoin); // // case Coin.litecoin: // // return Address.validateAddress(address, litecoin); // // case Coin.bitcoincash: // // try { // // // 0 for bitcoincash: address scheme, 1 for legacy address // // final format = bitbox.Address.detectFormat(address); // // // // if (coin == Coin.bitcoincashTestnet) { // // return true; // // } // // // // if (format == bitbox.Address.formatCashAddr) { // // String addr = address; // // if (addr.contains(":")) { // // addr = addr.split(":").last; // // } // // // // return addr.startsWith("q"); // // } else { // // return address.startsWith("1"); // // } // // } catch (e) { // // return false; // // } // // case Coin.dogecoin: // // return Address.validateAddress(address, dogecoin); // // case Coin.epicCash: // // return validateSendAddress(address) == "1"; // // case Coin.ethereum: // // return true; //TODO - validate ETH address // // case Coin.firo: // // return Address.validateAddress(address, firoNetwork); // // case Coin.eCash: // // return Address.validateAddress(address, eCashNetwork); // // case Coin.monero: // // return RegExp("[a-zA-Z0-9]{95}").hasMatch(address) || // // RegExp("[a-zA-Z0-9]{106}").hasMatch(address); // // case Coin.wownero: // // return RegExp("[a-zA-Z0-9]{95}").hasMatch(address) || // // RegExp("[a-zA-Z0-9]{106}").hasMatch(address); // // case Coin.namecoin: // // return Address.validateAddress(address, namecoin, namecoin.bech32!); // // case Coin.particl: // // return Address.validateAddress(address, particl); // // case Coin.stellar: // // return RegExp(r"^[G][A-Z0-9]{55}$").hasMatch(address); // // case Coin.nano: // // return NanoAccounts.isValid(NanoAccountType.NANO, address); // // case Coin.banano: // // return NanoAccounts.isValid(NanoAccountType.BANANO, address); // // case Coin.tezos: // // return RegExp(r"^tz[1-9A-HJ-NP-Za-km-z]{34}$").hasMatch(address); // // case Coin.bitcoinTestNet: // // return Address.validateAddress(address, testnet); // // case Coin.litecoinTestNet: // // return Address.validateAddress(address, litecointestnet); // // case Coin.bitcoincashTestnet: // // try { // // // 0 for bitcoincash: address scheme, 1 for legacy address // // final format = bitbox.Address.detectFormat(address); // // // // if (coin == Coin.bitcoincashTestnet) { // // return true; // // } // // // // if (format == bitbox.Address.formatCashAddr) { // // String addr = address; // // if (addr.contains(":")) { // // addr = addr.split(":").last; // // } // // // // return addr.startsWith("q"); // // } else { // // return address.startsWith("1"); // // } // // } catch (e) { // // return false; // // } // // case Coin.firoTestNet: // // return Address.validateAddress(address, firoTestNetwork); // // case Coin.dogecoinTestNet: // // return Address.validateAddress(address, dogecointestnet); // // case Coin.stellarTestnet: // // return RegExp(r"^[G][A-Z0-9]{55}$").hasMatch(address); // // } // } /// Return only recognized parameters. static Map filterParams(Map params) { return Map.fromEntries(params.entries .where((entry) => recognizedParams.contains(entry.key.toLowerCase()))); } /// Parses a URI string and returns a map with parsed components. static Map parseUri(String uri) { final Map result = {}; try { final u = Uri.parse(uri); if (u.hasScheme) { result["scheme"] = u.scheme.toLowerCase(); // Handle different URI formats. if (result["scheme"] == "bitcoin" || result["scheme"] == "bitcoincash") { result["address"] = u.path; } else if (result["scheme"] == "monero") { // Monero addresses can contain '?' which Uri.parse interprets as query start. final addressEnd = uri.indexOf('?', 7); // 7 is the length of "monero:". if (addressEnd != -1) { result["address"] = uri.substring(7, addressEnd); } else { result["address"] = uri.substring(7); } } else { // Default case, treat path as address. result["address"] = u.path; } // Parse query parameters. result.addAll(_parseQueryParameters(u.queryParameters)); // Handle Monero-specific fragment (tx_description). if (u.fragment.isNotEmpty && result["scheme"] == "monero") { result["tx_description"] = Uri.decodeComponent(u.fragment); } } } catch (e) { print("Exception caught in parseUri($uri): $e"); } return result; } /// Helper method to parse and normalize query parameters. static Map _parseQueryParameters(Map params) { final Map result = {}; params.forEach((key, value) { final lowerKey = key.toLowerCase(); if (recognizedParams.contains(lowerKey)) { switch (lowerKey) { case 'amount': case 'tx_amount': result['amount'] = _normalizeAmount(value); break; case 'label': case 'recipient_name': result['label'] = Uri.decodeComponent(value); break; case 'message': case 'tx_description': result['message'] = Uri.decodeComponent(value); break; case 'tx_payment_id': result['tx_payment_id'] = Uri.decodeComponent(value); break; default: result[lowerKey] = Uri.decodeComponent(value); } } else { // Include unrecognized parameters as-is. result[key] = Uri.decodeComponent(value); } }); return result; } /// Normalizes amount value to a standard format. static String _normalizeAmount(String amount) { // Remove any non-numeric characters except for '.' final sanitized = amount.replaceAll(RegExp(r'[^\d.]'), ''); // Ensure only one decimal point final parts = sanitized.split('.'); if (parts.length > 2) { return '${parts[0]}.${parts.sublist(1).join()}'; } return sanitized; } /// Centralized method to handle various cryptocurrency URIs and return a common object. static PaymentUriData parsePaymentUri(String uri) { final Map parsedData = parseUri(uri); // Normalize the URI scheme. final String scheme = parsedData['scheme'] ?? ''; parsedData.remove('scheme'); // Determine the coin type based on the URI scheme. final CryptoCurrency coin = _getCryptoCurrencyByScheme(scheme); // Filter out unrecognized parameters. final filteredParams = filterParams(parsedData); return PaymentUriData( coin: coin, address: parsedData['address'] ?? '', amount: filteredParams['amount'] ?? filteredParams['tx_amount'], label: filteredParams['label'] ?? filteredParams['recipient_name'], message: filteredParams['message'] ?? filteredParams['tx_description'], paymentId: filteredParams['tx_payment_id'], // Specific to Monero additionalParams: filteredParams, ); } /// Builds a uri string with the given address and query parameters (if any) static String buildUriString( String scheme, String address, Map params, ) { // Filter unrecognized parameters. final filteredParams = filterParams(params); String uriString = "$scheme:$address"; if (scheme.toLowerCase() == "monero") { // Handle Monero-specific formatting. if (filteredParams.containsKey("tx_description")) { final description = filteredParams.remove("tx_description")!; if (filteredParams.isNotEmpty) { uriString += Uri(queryParameters: filteredParams).toString(); } uriString += "#${Uri.encodeComponent(description)}"; } else if (filteredParams.isNotEmpty) { uriString += Uri(queryParameters: filteredParams).toString(); } } else { // General case for other cryptocurrencies. if (filteredParams.isNotEmpty) { uriString += Uri(queryParameters: filteredParams).toString(); } } return uriString; } /// returns empty if bad data static Map decodeQRSeedData(String data) { Map result = {}; try { result = Map.from(jsonDecode(data) as Map); } catch (e) { print("Exception caught in parseQRSeedData($data): $e"); } return result; } /// encode mnemonic words to qrcode formatted string static String encodeQRSeedData(List words) { return jsonEncode({"mnemonic": words}); } /// Method to get CryptoCurrency based on URI scheme. static CryptoCurrency _getCryptoCurrencyByScheme(String scheme) { switch (scheme) { case 'bitcoin': return Bitcoin(CryptoCurrencyNetwork.main); case 'bitcoincash': return Bitcoincash(CryptoCurrencyNetwork.main); case 'ethereum': return Ethereum(CryptoCurrencyNetwork.main); case 'monero': return Monero(CryptoCurrencyNetwork.main); // Add more cases as needed for other coins default: throw UnsupportedError('Unsupported URI scheme: $scheme'); } } } class PaymentUriData { final CryptoCurrency coin; final String address; final String? amount; final String? label; final String? message; final String? paymentId; // Specific to Monero. final Map additionalParams; PaymentUriData({ required this.coin, required this.address, this.amount, this.label, this.message, this.paymentId, required this.additionalParams, }); }