/* * 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:async'; import 'dart:convert'; import 'dart:io'; import 'package:flutter/foundation.dart'; import 'package:mutex/mutex.dart'; import 'package:stackwallet/exceptions/json_rpc/json_rpc_exception.dart'; import 'package:stackwallet/utilities/logger.dart'; import 'package:stackwallet/utilities/prefs.dart'; import 'package:tor_ffi_plugin/socks_socket.dart'; // Json RPC class to handle connecting to electrumx servers class JsonRPC { JsonRPC({ required this.host, required this.port, this.useSSL = false, this.connectionTimeout = const Duration(seconds: 60), required ({InternetAddress host, int port})? proxyInfo, }); final bool useSSL; final String host; final int port; final Duration connectionTimeout; ({InternetAddress host, int port})? proxyInfo; final _requestMutex = Mutex(); final _JsonRPCRequestQueue _requestQueue = _JsonRPCRequestQueue(); Socket? _socket; SOCKSSocket? _socksSocket; StreamSubscription>? _subscription; void _dataHandler(List data) { _requestQueue.nextIncompleteReq.then((req) { if (req != null) { req.appendDataAndCheckIfComplete(data); if (req.isComplete) { _onReqCompleted(req); } } else { Logging.instance.log( "_dataHandler found a null req!", level: LogLevel.Warning, ); } }); } void _errorHandler(Object error, StackTrace trace) { _requestQueue.nextIncompleteReq.then((req) { if (req != null) { req.completer.completeError(error, trace); _onReqCompleted(req); } }); } void _doneHandler() { disconnect(reason: "JsonRPC _doneHandler() called"); } void _onReqCompleted(_JsonRPCRequest req) { _requestQueue.remove(req).then((_) { // attempt to send next request _sendNextAvailableRequest(); }); } void _sendNextAvailableRequest() { _requestQueue.nextIncompleteReq.then((req) { if (req != null) { // \r\n required by electrumx server if (_socket != null) { _socket!.write('${req.jsonRequest}\r\n'); } if (_socksSocket != null) { _socksSocket!.write('${req.jsonRequest}\r\n'); } // TODO different timeout length? req.initiateTimeout( onTimedOut: () { _requestQueue.remove(req); }, ); } }); } Future request( String jsonRpcRequest, Duration requestTimeout, ) async { await _requestMutex.protect(() async { if (!Prefs.instance.useTor) { if (_socket == null) { Logging.instance.log( "JsonRPC request: opening socket $host:$port", level: LogLevel.Info, ); await connect().timeout(requestTimeout, onTimeout: () { throw Exception("Request timeout: $jsonRpcRequest"); }); } } else { if (_socksSocket == null) { Logging.instance.log( "JsonRPC request: opening SOCKS socket to $host:$port", level: LogLevel.Info, ); await connect().timeout(requestTimeout, onTimeout: () { throw Exception("Request timeout: $jsonRpcRequest"); }); } } }); final req = _JsonRPCRequest( jsonRequest: jsonRpcRequest, requestTimeout: requestTimeout, completer: Completer(), ); final future = req.completer.future.onError( (error, stackTrace) async { await disconnect( reason: "return req.completer.future.onError: $error\n$stackTrace", ); return JsonRPCResponse( exception: error is JsonRpcException ? error : JsonRpcException( "req.completer.future.onError: $error\n$stackTrace", ), ); }, ); // if this is the only/first request then send it right away await _requestQueue.add( req, onInitialRequestAdded: _sendNextAvailableRequest, ); return future; } Future disconnect({required String reason}) async { await _requestMutex.protect(() async { await _subscription?.cancel(); _subscription = null; _socket?.destroy(); _socket = null; await _socksSocket?.close(); _socksSocket = null; // clean up remaining queue await _requestQueue.completeRemainingWithError( "JsonRPC disconnect() called with reason: \"$reason\"", ); }); } Future connect() async { if (!Prefs.instance.useTor) { if (useSSL) { _socket = await SecureSocket.connect( host, port, timeout: connectionTimeout, onBadCertificate: (_) => true, ); // TODO do not automatically trust bad certificates } else { _socket = await Socket.connect( host, port, timeout: connectionTimeout, ); } _subscription = _socket!.listen( _dataHandler, onError: _errorHandler, onDone: _doneHandler, cancelOnError: true, ); } else { if (proxyInfo == null) { throw JsonRpcException( "JsonRPC.connect failed with useTor=${Prefs.instance.useTor} and proxyInfo is null"); } // instantiate a socks socket at localhost and on the port selected by the tor service _socksSocket = await SOCKSSocket.create( proxyHost: proxyInfo!.host.address, proxyPort: proxyInfo!.port, sslEnabled: useSSL, ); try { Logging.instance.log( "JsonRPC.connect(): connecting to SOCKS socket at $proxyInfo (SSL $useSSL)...", level: LogLevel.Info); await _socksSocket?.connect(); Logging.instance.log( "JsonRPC.connect(): connected to SOCKS socket at $proxyInfo...", level: LogLevel.Info); } catch (e) { Logging.instance.log( "JsonRPC.connect(): failed to connect to SOCKS socket at $proxyInfo, $e", level: LogLevel.Error); throw JsonRpcException( "JsonRPC.connect(): failed to connect to SOCKS socket at $proxyInfo, $e"); } try { Logging.instance.log( "JsonRPC.connect(): connecting to $host:$port over SOCKS socket at $proxyInfo...", level: LogLevel.Info); await _socksSocket?.connectTo(host, port); Logging.instance.log( "JsonRPC.connect(): connected to $host:$port over SOCKS socket at $proxyInfo", level: LogLevel.Info); } catch (e) { Logging.instance.log( "JsonRPC.connect(): failed to connect to $host over tor proxy at $proxyInfo, $e", level: LogLevel.Error); throw JsonRpcException( "JsonRPC.connect(): failed to connect to tor proxy, $e"); } _subscription = _socksSocket!.listen( _dataHandler, onError: _errorHandler, onDone: _doneHandler, cancelOnError: true, ); } return; } } class _JsonRPCRequestQueue { final _lock = Mutex(); final List<_JsonRPCRequest> _rq = []; Future add( _JsonRPCRequest req, { VoidCallback? onInitialRequestAdded, }) async { return await _lock.protect(() async { _rq.add(req); if (_rq.length == 1) { onInitialRequestAdded?.call(); } }); } Future remove(_JsonRPCRequest req) async { return await _lock.protect(() async { final result = _rq.remove(req); return result; }); } Future<_JsonRPCRequest?> get nextIncompleteReq async { return await _lock.protect(() async { int removeCount = 0; _JsonRPCRequest? returnValue; for (final req in _rq) { if (req.isComplete) { removeCount++; } else { returnValue = req; break; } } _rq.removeRange(0, removeCount); return returnValue; }); } Future completeRemainingWithError( String error, { StackTrace? stackTrace, }) async { await _lock.protect(() async { for (final req in _rq) { if (!req.isComplete) { req.completer.completeError(Exception(error), stackTrace); } } _rq.clear(); }); } Future get isEmpty async { return await _lock.protect(() async { return _rq.isEmpty; }); } } class _JsonRPCRequest { // 0x0A is newline // https://electrumx-spesmilo.readthedocs.io/en/latest/protocol-basics.html static const int separatorByte = 0x0A; final String jsonRequest; final Completer completer; final Duration requestTimeout; final List _responseData = []; _JsonRPCRequest({ required this.jsonRequest, required this.completer, required this.requestTimeout, }); void appendDataAndCheckIfComplete(List data) { _responseData.addAll(data); if (data.last == separatorByte) { try { final response = json.decode(String.fromCharCodes(_responseData)); completer.complete(JsonRPCResponse(data: response)); } catch (e, s) { Logging.instance.log( "JsonRPC json.decode: $e\n$s", level: LogLevel.Error, ); completer.completeError(e, s); } } } void initiateTimeout({ VoidCallback? onTimedOut, }) { Future.delayed(requestTimeout).then((_) { if (!isComplete) { try { throw JsonRpcException("_JsonRPCRequest timed out: $jsonRequest"); } catch (e, s) { completer.completeError(e, s); onTimedOut?.call(); } } }); } bool get isComplete => completer.isCompleted; } class JsonRPCResponse { final dynamic data; final JsonRpcException? exception; JsonRPCResponse({this.data, this.exception}); } bool isIpAddress(String host) { try { // if the string can be parsed into an InternetAddress, it's an IP. InternetAddress(host); return true; } catch (e) { // if parsing fails, it's not an IP. return false; } }