cake_wallet/cw_core/lib/node.dart

269 lines
6.7 KiB
Dart

import 'dart:io';
import 'package:cw_core/keyable.dart';
import 'dart:convert';
import 'package:http/http.dart' as http;
import 'package:hive/hive.dart';
import 'package:cw_core/hive_type_ids.dart';
import 'package:cw_core/wallet_type.dart';
import 'package:http/io_client.dart' as ioc;
// import 'package:tor/tor.dart';
part 'node.g.dart';
Uri createUriFromElectrumAddress(String address) => Uri.tryParse('tcp://$address')!;
@HiveType(typeId: Node.typeId)
class Node extends HiveObject with Keyable {
Node({
this.login,
this.password,
this.useSSL,
this.trusted = false,
this.socksProxyAddress,
String? uri,
String? path,
WalletType? type,
}) {
if (uri != null) {
uriRaw = uri;
}
if (type != null) {
this.type = type;
}
if (path != null) {
this.path = path;
}
}
Node.fromMap(Map<String, Object?> map)
: uriRaw = map['uri'] as String? ?? '',
path = map['path'] as String? ?? '',
login = map['login'] as String?,
password = map['password'] as String?,
useSSL = map['useSSL'] as bool?,
trusted = map['trusted'] as bool? ?? false,
socksProxyAddress = map['socksProxyPort'] as String?;
static const typeId = NODE_TYPE_ID;
static const boxName = 'Nodes';
@HiveField(0, defaultValue: '')
late String uriRaw;
@HiveField(1)
String? login;
@HiveField(2)
String? password;
@HiveField(3, defaultValue: 0)
late int typeRaw;
@HiveField(4)
bool? useSSL;
@HiveField(5, defaultValue: false)
bool trusted;
@HiveField(6)
String? socksProxyAddress;
@HiveField(7, defaultValue: '')
String? path;
bool get isSSL => useSSL ?? false;
bool get useSocksProxy => socksProxyAddress == null ? false : socksProxyAddress!.isNotEmpty;
Uri get uri {
switch (type) {
case WalletType.monero:
case WalletType.haven:
return Uri.http(uriRaw, '');
case WalletType.bitcoin:
case WalletType.litecoin:
case WalletType.bitcoinCash:
return createUriFromElectrumAddress(uriRaw);
case WalletType.nano:
case WalletType.banano:
if (isSSL) {
return Uri.https(uriRaw, path ?? '');
} else {
return Uri.http(uriRaw, path ?? '');
}
case WalletType.ethereum:
case WalletType.polygon:
case WalletType.solana:
return Uri.https(uriRaw, '');
default:
throw Exception('Unexpected type ${type.toString()} for Node uri');
}
}
bool get isValidProxyAddress => socksProxyAddress?.contains(':') ?? false;
@override
bool operator ==(other) =>
other is Node &&
(other.uriRaw == uriRaw &&
other.login == login &&
other.password == password &&
other.typeRaw == typeRaw &&
other.useSSL == useSSL &&
other.trusted == trusted &&
other.socksProxyAddress == socksProxyAddress &&
other.path == path);
@override
int get hashCode =>
uriRaw.hashCode ^
login.hashCode ^
password.hashCode ^
typeRaw.hashCode ^
useSSL.hashCode ^
trusted.hashCode ^
socksProxyAddress.hashCode ^
path.hashCode;
@override
dynamic get keyIndex {
_keyIndex ??= key;
return _keyIndex;
}
WalletType get type => deserializeFromInt(typeRaw);
set type(WalletType type) => typeRaw = serializeToInt(type);
dynamic _keyIndex;
Future<bool> requestNode() async {
try {
switch (type) {
case WalletType.monero:
case WalletType.haven:
return requestMoneroNode();
case WalletType.nano:
case WalletType.banano:
return requestNanoNode();
case WalletType.bitcoin:
case WalletType.litecoin:
case WalletType.bitcoinCash:
case WalletType.ethereum:
case WalletType.polygon:
case WalletType.solana:
return requestElectrumServer();
default:
return false;
}
} catch (_) {
return false;
}
}
Future<bool> requestMoneroNode() async {
if (uri.toString().contains(".onion") || useSocksProxy) {
return await requestNodeWithProxy();
}
final path = '/json_rpc';
final rpcUri = isSSL ? Uri.https(uri.authority, path) : Uri.http(uri.authority, path);
final realm = 'monero-rpc';
final body = {'jsonrpc': '2.0', 'id': '0', 'method': 'get_info'};
try {
final authenticatingClient = HttpClient();
authenticatingClient.badCertificateCallback =
((X509Certificate cert, String host, int port) => true);
authenticatingClient.addCredentials(
rpcUri,
realm,
HttpClientDigestCredentials(login ?? '', password ?? ''),
);
final http.Client client = ioc.IOClient(authenticatingClient);
final response = await client.post(
rpcUri,
headers: {'Content-Type': 'application/json'},
body: json.encode(body),
);
client.close();
final resBody = json.decode(response.body) as Map<String, dynamic>;
return !(resBody['result']['offline'] as bool);
} catch (_) {
return false;
}
}
Future<bool> requestNanoNode() async {
http.Response response = await http.post(
uri,
headers: {'Content-type': 'application/json'},
body: json.encode(
{
"action": "block_count",
},
),
);
if (response.statusCode == 200) {
return true;
} else {
return false;
}
}
Future<bool> requestNodeWithProxy() async {
if (!isValidProxyAddress /* && !Tor.instance.enabled*/) {
return false;
}
String? proxy = socksProxyAddress;
// if ((proxy?.isEmpty ?? true) && Tor.instance.enabled) {
// proxy = "${InternetAddress.loopbackIPv4.address}:${Tor.instance.port}";
// }
if (proxy == null) {
return false;
}
final proxyAddress = proxy!.split(':')[0];
final proxyPort = int.parse(proxy.split(':')[1]);
try {
final socket = await Socket.connect(proxyAddress, proxyPort, timeout: Duration(seconds: 5));
socket.destroy();
return true;
} catch (_) {
return false;
}
}
Future<bool> requestElectrumServer() async {
try {
if (useSSL == true) {
await SecureSocket.connect(uri.host, uri.port,
timeout: Duration(seconds: 5), onBadCertificate: (_) => true);
} else {
await Socket.connect(uri.host, uri.port, timeout: Duration(seconds: 5));
}
return true;
} catch (_) {
return false;
}
}
Future<bool> requestEthereumServer() async {
try {
final response = await http.get(
uri,
headers: {'Content-Type': 'application/json'},
);
return response.statusCode >= 200 && response.statusCode < 300;
} catch (_) {
return false;
}
}
}