import 'dart:convert'; import 'package:cake_wallet/.secrets.g.dart' as secrets; import 'package:cake_wallet/exchange/exchange_provider_description.dart'; import 'package:cake_wallet/exchange/limits.dart'; import 'package:cake_wallet/exchange/provider/exchange_provider.dart'; import 'package:cake_wallet/exchange/trade.dart'; import 'package:cake_wallet/exchange/trade_not_found_exception.dart'; import 'package:cake_wallet/exchange/trade_request.dart'; import 'package:cake_wallet/exchange/trade_state.dart'; import 'package:cake_wallet/exchange/utils/currency_pairs_utils.dart'; import 'package:cw_core/crypto_currency.dart'; import 'package:http/http.dart'; class ExolixExchangeProvider extends ExchangeProvider { ExolixExchangeProvider() : super(pairList: supportedPairs(_notSupported)); static final apiKey = secrets.exolixApiKey; static const apiBaseUrl = 'exolix.com'; static const transactionsPath = '/api/v2/transactions'; static const ratePath = '/api/v2/rate'; static const List _notSupported = [ CryptoCurrency.usdt, CryptoCurrency.xhv, CryptoCurrency.btt, CryptoCurrency.firo, CryptoCurrency.zaddr, CryptoCurrency.xvg, CryptoCurrency.kmd, CryptoCurrency.paxg, CryptoCurrency.rune, CryptoCurrency.scrt, CryptoCurrency.btcln, CryptoCurrency.cro, CryptoCurrency.ftm, CryptoCurrency.frax, CryptoCurrency.gusd, CryptoCurrency.gtc, CryptoCurrency.weth, ]; @override String get title => 'Exolix'; @override bool get isAvailable => true; @override bool get isEnabled => true; @override bool get supportsFixedRate => true; @override ExchangeProviderDescription get description => ExchangeProviderDescription.exolix; @override Future checkIsAvailable() async => true; @override Future fetchLimits( {required CryptoCurrency from, required CryptoCurrency to, required bool isFixedRateMode}) async { final params = { 'rateType': _getRateType(isFixedRateMode), 'amount': '1', 'apiToken': apiKey, }; if (isFixedRateMode) { params['coinFrom'] = _normalizeCurrency(to); params['coinTo'] = _normalizeCurrency(from); params['networkFrom'] = _networkFor(to); params['networkTo'] = _networkFor(from); } else { params['coinFrom'] = _normalizeCurrency(from); params['coinTo'] = _normalizeCurrency(to); params['networkFrom'] = _networkFor(from); params['networkTo'] = _networkFor(to); } final uri = Uri.https(apiBaseUrl, ratePath, params); final response = await get(uri); if (response.statusCode != 200) throw Exception('Unexpected http status: ${response.statusCode}'); final responseJSON = json.decode(response.body) as Map; return Limits(min: responseJSON['minAmount'] as double?); } @override Future fetchRate( {required CryptoCurrency from, required CryptoCurrency to, required double amount, required bool isFixedRateMode, required bool isReceiveAmount}) async { try { if (amount == 0) return 0.0; final params = { 'coinFrom': _normalizeCurrency(from), 'coinTo': _normalizeCurrency(to), 'networkFrom': _networkFor(from), 'networkTo': _networkFor(to), 'rateType': _getRateType(isFixedRateMode), 'apiToken': apiKey, }; if (isReceiveAmount) params['withdrawalAmount'] = amount.toString(); else params['amount'] = amount.toString(); final uri = Uri.https(apiBaseUrl, ratePath, params); final response = await get(uri); final responseJSON = json.decode(response.body) as Map; if (response.statusCode != 200) { final message = responseJSON['message'] as String?; throw Exception(message); } return responseJSON['rate'] as double; } catch (e) { print(e.toString()); return 0.0; } } @override Future createTrade({ required TradeRequest request, required bool isFixedRateMode, required bool isSendAll, }) async { final headers = {'Content-Type': 'application/json'}; final body = { 'coinFrom': _normalizeCurrency(request.fromCurrency), 'coinTo': _normalizeCurrency(request.toCurrency), 'networkFrom': _networkFor(request.fromCurrency), 'networkTo': _networkFor(request.toCurrency), 'withdrawalAddress': _normalizeAddress(request.toAddress), 'refundAddress': _normalizeAddress(request.refundAddress), 'rateType': _getRateType(isFixedRateMode), 'apiToken': apiKey, }; if (isFixedRateMode) body['withdrawalAmount'] = request.toAmount; else body['amount'] = request.fromAmount; final uri = Uri.https(apiBaseUrl, transactionsPath); final response = await post(uri, headers: headers, body: json.encode(body)); if (response.statusCode == 400) { final responseJSON = json.decode(response.body) as Map; final errors = responseJSON['errors'] as Map; final errorMessage = errors.values.join(', '); throw Exception(errorMessage); } if (response.statusCode != 200 && response.statusCode != 201) throw Exception('Unexpected http status: ${response.statusCode}'); final responseJSON = json.decode(response.body) as Map; final id = responseJSON['id'] as String; final inputAddress = responseJSON['depositAddress'] as String; final refundAddress = responseJSON['refundAddress'] as String?; final extraId = responseJSON['depositExtraId'] as String?; final payoutAddress = responseJSON['withdrawalAddress'] as String; final amount = responseJSON['amount'].toString(); final receiveAmount = responseJSON['amountTo']?.toString(); return Trade( id: id, from: request.fromCurrency, to: request.toCurrency, provider: description, inputAddress: inputAddress, refundAddress: refundAddress, extraId: extraId, createdAt: DateTime.now(), amount: amount, receiveAmount:receiveAmount ?? request.toAmount, state: TradeState.created, payoutAddress: payoutAddress, isSendAll: isSendAll, ); } @override Future findTradeById({required String id}) async { final findTradeByIdPath = '$transactionsPath/$id'; final uri = Uri.https(apiBaseUrl, findTradeByIdPath); final response = await get(uri); if (response.statusCode == 404) throw TradeNotFoundException(id, provider: description); if (response.statusCode == 400) { final responseJSON = json.decode(response.body) as Map; final errors = responseJSON['errors'] as Map; final errorMessage = errors.values.join(', '); throw TradeNotFoundException(id, provider: description, description: errorMessage); } if (response.statusCode != 200) throw Exception('Unexpected http status: ${response.statusCode}'); final responseJSON = json.decode(response.body) as Map; final coinFrom = responseJSON['coinFrom']['coinCode'] as String; final coinTo = responseJSON['coinTo']['coinCode'] as String; final inputAddress = responseJSON['depositAddress'] as String; final amount = responseJSON['amount'].toString(); final status = responseJSON['status'] as String; final extraId = responseJSON['depositExtraId'] as String?; final outputTransaction = responseJSON['hashOut']['hash'] as String?; final payoutAddress = responseJSON['withdrawalAddress'] as String; return Trade( id: id, from: CryptoCurrency.fromString(coinFrom), to: CryptoCurrency.fromString(coinTo), provider: description, inputAddress: inputAddress, amount: amount, state: TradeState.deserialize(raw: _prepareStatus(status)), extraId: extraId, outputTransaction: outputTransaction, payoutAddress: payoutAddress); } String _getRateType(bool isFixedRate) => isFixedRate ? 'fixed' : 'float'; String _prepareStatus(String status) { switch (status) { case 'deleted': case 'error': return 'overdue'; default: return status; } } String _networkFor(CryptoCurrency currency) { switch (currency) { case CryptoCurrency.arb: return 'ARBITRUM'; default: return currency.tag != null ? _normalizeTag(currency.tag!) : currency.title; } } String _normalizeCurrency(CryptoCurrency currency) { switch (currency) { case CryptoCurrency.nano: return 'XNO'; case CryptoCurrency.bttc: return 'BTT'; case CryptoCurrency.zec: return 'ZEC'; default: return currency.title; } } String _normalizeTag(String tag) { switch (tag) { case 'POLY': return 'Polygon'; default: return tag; } } String _normalizeAddress(String address) => address.startsWith('bitcoincash:') ? address.replaceFirst('bitcoincash:', '') : address; }