stack_wallet/lib/electrumx_rpc/electrumx_client.dart

/* 
 * 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:io';

import 'package:connectivity_plus/connectivity_plus.dart';
import 'package:decimal/decimal.dart';
import 'package:electrum_adapter/electrum_adapter.dart' as electrum_adapter;
import 'package:electrum_adapter/electrum_adapter.dart';
import 'package:electrum_adapter/methods/specific/firo.dart';
import 'package:event_bus/event_bus.dart';
import 'package:mutex/mutex.dart';
import 'package:stream_channel/stream_channel.dart';

import '../exceptions/electrumx/no_such_transaction.dart';
import '../services/event_bus/events/global/tor_connection_status_changed_event.dart';
import '../services/event_bus/events/global/tor_status_changed_event.dart';
import '../services/event_bus/global_event_bus.dart';
import '../services/tor_service.dart';
import '../utilities/amount/amount.dart';
import '../utilities/extensions/impl/string.dart';
import '../utilities/logger.dart';
import '../utilities/prefs.dart';
import '../wallets/crypto_currency/crypto_currency.dart';
import '../wallets/crypto_currency/interfaces/electrumx_currency_interface.dart';
import 'client_manager.dart';

typedef SparkMempoolData = ({
  String txid,
  List<String> serialContext,
  List<String> lTags,
  List<String> coins,
});

class WifiOnlyException implements Exception {}

class ElectrumXNode {
  ElectrumXNode({
    required this.address,
    required this.port,
    required this.name,
    required this.id,
    required this.useSSL,
  });
  final String address;
  final int port;
  final String name;
  final String id;
  final bool useSSL;

  factory ElectrumXNode.from(ElectrumXNode node) {
    return ElectrumXNode(
      address: node.address,
      port: node.port,
      name: node.name,
      id: node.id,
      useSSL: node.useSSL,
    );
  }

  @override
  String toString() {
    return "ElectrumXNode: {address: $address, port: $port, name: $name, useSSL: $useSSL}";
  }
}

class ElectrumXClient {
  final CryptoCurrency cryptoCurrency;

  String get host => _host;
  late String _host;

  int get port => _port;
  late int _port;

  bool get useSSL => _useSSL;
  late bool _useSSL;

  // StreamChannel<dynamic>? get electrumAdapterChannel => _electrumAdapterChannel;
  StreamChannel<dynamic>? _electrumAdapterChannel;

  ElectrumClient? getElectrumAdapter() =>
      ClientManager.sharedInstance.getClient(
        cryptoCurrency: cryptoCurrency,
      );

  late Prefs _prefs;
  late TorService _torService;

  List<ElectrumXNode>? failovers;
  int currentFailoverIndex = -1;

  final Duration connectionTimeoutForSpecialCaseJsonRPCClients;

  // add finalizer to cancel stream subscription when all references to an
  // instance of ElectrumX becomes inaccessible
  static final Finalizer<ElectrumXClient> _finalizer = Finalizer(
    (p0) {
      p0._torPreferenceListener?.cancel();
      p0._torStatusListener?.cancel();
    },
  );
  StreamSubscription<TorPreferenceChangedEvent>? _torPreferenceListener;
  StreamSubscription<TorConnectionStatusChangedEvent>? _torStatusListener;

  final Mutex _torConnectingLock = Mutex();
  bool _requireMutex = false;

  ElectrumXClient({
    required String host,
    required int port,
    required bool useSSL,
    required Prefs prefs,
    required List<ElectrumXNode> failovers,
    required this.cryptoCurrency,
    this.connectionTimeoutForSpecialCaseJsonRPCClients =
        const Duration(seconds: 60),
    TorService? torService,
    EventBus? globalEventBusForTesting,
  }) {
    _prefs = prefs;
    _torService = torService ?? TorService.sharedInstance;
    _host = host;
    _port = port;
    _useSSL = useSSL;

    final bus = globalEventBusForTesting ?? GlobalEventBus.instance;

    // Listen for tor status changes.
    _torStatusListener = bus.on<TorConnectionStatusChangedEvent>().listen(
      (event) async {
        switch (event.newStatus) {
          case TorConnectionStatus.connecting:
            await _torConnectingLock.acquire();
            _requireMutex = true;
            break;

          case TorConnectionStatus.connected:
          case TorConnectionStatus.disconnected:
            if (_torConnectingLock.isLocked) {
              _torConnectingLock.release();
            }
            _requireMutex = false;
            break;
        }
      },
    );

    // Listen for tor preference changes.
    _torPreferenceListener = bus.on<TorPreferenceChangedEvent>().listen(
      (event) async {
        // not sure if we need to do anything specific here
        // switch (event.status) {
        //   case TorStatus.enabled:
        //   case TorStatus.disabled:
        // }

        // setting to null should force the creation of a new json rpc client
        // on the next request sent through this electrumx instance
        _electrumAdapterChannel = null;
        await (await ClientManager.sharedInstance
                .remove(cryptoCurrency: cryptoCurrency))
            ?.close();

        // Also close any chain height services that are currently open.
        // await ChainHeightServiceManager.dispose();
      },
    );
  }

  factory ElectrumXClient.from({
    required ElectrumXNode node,
    required Prefs prefs,
    required List<ElectrumXNode> failovers,
    required CryptoCurrency cryptoCurrency,
    TorService? torService,
    EventBus? globalEventBusForTesting,
  }) {
    return ElectrumXClient(
      host: node.address,
      port: node.port,
      useSSL: node.useSSL,
      prefs: prefs,
      torService: torService,
      failovers: failovers,
      globalEventBusForTesting: globalEventBusForTesting,
      cryptoCurrency: cryptoCurrency,
    );
  }

  Future<bool> _allow() async {
    if (_prefs.wifiOnly) {
      return (await Connectivity().checkConnectivity()) ==
          ConnectivityResult.wifi;
    }
    return true;
  }

  Future<void> closeAdapter() async {
    await getElectrumAdapter()?.close();
  }

  Future<void> _checkElectrumAdapter() async {
    ({InternetAddress host, int port})? proxyInfo;

    // If we're supposed to use Tor...
    if (_prefs.useTor) {
      // But Tor isn't running...
      if (_torService.status != TorConnectionStatus.connected) {
        // And the killswitch isn't set...
        if (!_prefs.torKillSwitch) {
          // Then we'll just proceed and connect to ElectrumX through
          // clearnet at the bottom of this function.
          Logging.instance.log(
            "Tor preference set but Tor is not enabled, killswitch not set,"
            " connecting to Electrum adapter through clearnet",
            level: LogLevel.Warning,
          );
        } else {
          // ... But if the killswitch is set, then we throw an exception.
          throw Exception(
            "Tor preference and killswitch set but Tor is not enabled, "
            "not connecting to Electrum adapter",
          );
          // TODO [prio=low]: Try to start Tor.
        }
      } else {
        // Get the proxy info from the TorService.
        proxyInfo = _torService.getProxyInfo();
      }
    }

    // If the current ElectrumAdapterClient is closed, create a new one.
    if (getElectrumAdapter() != null && getElectrumAdapter()!.peer.isClosed) {
      _electrumAdapterChannel = null;
      await ClientManager.sharedInstance.remove(cryptoCurrency: cryptoCurrency);
    }

    final String useHost;
    final int usePort;
    final bool useUseSSL;

    if (currentFailoverIndex == -1) {
      useHost = host;
      usePort = port;
      useUseSSL = useSSL;
    } else {
      useHost = failovers![currentFailoverIndex].address;
      usePort = failovers![currentFailoverIndex].port;
      useUseSSL = failovers![currentFailoverIndex].useSSL;
    }

    _electrumAdapterChannel ??= await electrum_adapter.connect(
      useHost,
      port: usePort,
      connectionTimeout: connectionTimeoutForSpecialCaseJsonRPCClients,
      aliveTimerDuration: connectionTimeoutForSpecialCaseJsonRPCClients,
      acceptUnverified: true,
      useSSL: useUseSSL,
      proxyInfo: proxyInfo,
    );

    if (getElectrumAdapter() == null) {
      final ElectrumClient newClient;
      if (cryptoCurrency is Firo) {
        newClient = FiroElectrumClient(
          _electrumAdapterChannel!,
          useHost,
          usePort,
          useUseSSL,
          proxyInfo,
        );
      } else {
        newClient = ElectrumClient(
          _electrumAdapterChannel!,
          useHost,
          usePort,
          useUseSSL,
          proxyInfo,
        );
      }

      ClientManager.sharedInstance.addClient(
        newClient,
        cryptoCurrency: cryptoCurrency,
      );
    }

    return;
  }

  /// Send raw rpc command
  Future<dynamic> request({
    required String command,
    List<dynamic> args = const [],
    String? requestID,
    int retries = 2,
    Duration requestTimeout = const Duration(seconds: 60),
  }) async {
    if (!(await _allow())) {
      throw WifiOnlyException();
    }

    if (_requireMutex) {
      await _torConnectingLock
          .protect(() async => await _checkElectrumAdapter());
    } else {
      await _checkElectrumAdapter();
    }

    try {
      final response = await getElectrumAdapter()!.request(
        command,
        args,
      );

      if (response is Map &&
          response.keys.contains("error") &&
          response["error"] != null) {
        if (response["error"]
            .toString()
            .contains("No such mempool or blockchain transaction")) {
          throw NoSuchTransactionException(
            "No such mempool or blockchain transaction",
            args.first.toString(),
          );
        }

        throw Exception(
          "JSONRPC response\n"
          "     command: $command\n"
          "     error: ${response["error"]}\n"
          "     args: $args\n",
        );
      }

      currentFailoverIndex = -1;

      // If the command is a ping, a good return should always be null.
      if (command.contains("ping")) {
        return true;
      }

      return response;
    } on WifiOnlyException {
      rethrow;
    } on SocketException {
      // likely timed out so then retry
      if (retries > 0) {
        return request(
          command: command,
          args: args,
          requestTimeout: requestTimeout,
          requestID: requestID,
          retries: retries - 1,
        );
      } else {
        rethrow;
      }
    } catch (e) {
      if (failovers != null && currentFailoverIndex < failovers!.length - 1) {
        currentFailoverIndex++;
        return request(
          command: command,
          args: args,
          requestTimeout: requestTimeout,
          requestID: requestID,
        );
      } else {
        currentFailoverIndex = -1;
        rethrow;
      }
    }
  }

  /// send a batch request with [command] where [args] is a
  /// map of <request id string : arguments list>
  ///
  /// returns a list of json response objects if no errors were found
  Future<List<dynamic>> batchRequest({
    required String command,
    required List<dynamic> args,
    Duration requestTimeout = const Duration(seconds: 60),
    int retries = 2,
  }) async {
    if (!(await _allow())) {
      throw WifiOnlyException();
    }

    if (_requireMutex) {
      await _torConnectingLock
          .protect(() async => await _checkElectrumAdapter());
    } else {
      await _checkElectrumAdapter();
    }

    try {
      final futures = <Future<dynamic>>[];
      getElectrumAdapter()!.peer.withBatch(() {
        for (final arg in args) {
          futures.add(getElectrumAdapter()!.request(command, arg));
        }
      });
      final response = await Future.wait(futures);

      // We cannot modify the response list as the order and length are related
      // to the order and length of the batched requests!
      //
      // // check for errors, format and throw if there are any
      // final List<String> errors = [];
      // for (int i = 0; i < response.length; i++) {
      //   var result = response[i];
      //
      //   if (result == null || (result is List && result.isEmpty)) {
      //     continue;
      //     // TODO [prio=extreme]: Figure out if this is actually an issue.
      //   }
      //   result = result[0]; // Unwrap the list.
      //   if ((result is Map && result.keys.contains("error")) ||
      //       result == null) {
      //     errors.add(result.toString());
      //   }
      // }
      // if (errors.isNotEmpty) {
      //   String error = "[\n";
      //   for (int i = 0; i < errors.length; i++) {
      //     error += "${errors[i]}\n";
      //   }
      //   error += "]";
      //   throw Exception("JSONRPC response error: $error");
      // }

      currentFailoverIndex = -1;
      return response;
    } on WifiOnlyException {
      rethrow;
    } on SocketException {
      // likely timed out so then retry
      if (retries > 0) {
        return batchRequest(
          command: command,
          args: args,
          requestTimeout: requestTimeout,
          retries: retries - 1,
        );
      } else {
        rethrow;
      }
    } catch (e) {
      if (failovers != null && currentFailoverIndex < failovers!.length - 1) {
        currentFailoverIndex++;
        return batchRequest(
          command: command,
          args: args,
          requestTimeout: requestTimeout,
        );
      } else {
        currentFailoverIndex = -1;
        rethrow;
      }
    }
  }

  /// Ping the server to ensure it is responding
  ///
  /// Returns true if ping succeeded
  Future<bool> ping({String? requestID, int retryCount = 1}) async {
    try {
      // This doesn't work because electrum_adapter only returns the result:
      // (which is always `null`).
      // await checkElectrumAdapter();
      // final response = await electrumAdapterClient!
      //     .ping()
      //     .timeout(const Duration(seconds: 2));
      // return (response as Map<String, dynamic>).isNotEmpty;

      // Because request() has been updated to use electrum_adapter, and because
      // electrum_adapter returns the result of the request, request() has been
      // updated to return a bool on a server.ping command as a special case.
      return await request(
        requestID: requestID,
        command: 'server.ping',
        requestTimeout: const Duration(seconds: 2),
        retries: retryCount,
      ).timeout(const Duration(seconds: 2)) as bool;
    } catch (e) {
      rethrow;
    }
  }

  /// Get most recent block header.
  ///
  /// Returns a map with keys 'height' and 'hex' corresponding to the block height
  /// and the binary header as a hexadecimal string.
  /// Ex:
  /// {
  ///   "height": 520481,
  ///   "hex": "00000020890208a0ae3a3892aa047c5468725846577cfcd9b512b50000000000000000005dc2b02f2d297a9064ee103036c14d678f9afc7e3d9409cf53fd58b82e938e8ecbeca05a2d2103188ce804c4"
  /// }
  Future<Map<String, dynamic>> getBlockHeadTip({String? requestID}) async {
    try {
      final response = await request(
        requestID: requestID,
        command: 'blockchain.headers.subscribe',
      );
      if (response == null) {
        Logging.instance.log(
          "getBlockHeadTip returned null response",
          level: LogLevel.Error,
        );
        throw 'getBlockHeadTip returned null response';
      }
      return Map<String, dynamic>.from(response as Map);
    } catch (e) {
      rethrow;
    }
  }

  /// Get server info
  ///
  /// Returns a map with server information
  /// Ex:
  /// {
  /// "genesis_hash": "000000000933ea01ad0ee984209779baaec3ced90fa3f408719526f8d77f4943",
  /// "hosts": {"14.3.140.101": {"tcp_port": 51001, "ssl_port": 51002}},
  /// "protocol_max": "1.0",
  /// "protocol_min": "1.0",
  /// "pruning": null,
  /// "server_version": "ElectrumX 1.0.17",
  /// "hash_function": "sha256"
  /// }
  Future<Map<String, dynamic>> getServerFeatures({String? requestID}) async {
    try {
      final response = await request(
        requestID: requestID,
        command: 'server.features',
      );
      return Map<String, dynamic>.from(response as Map);
    } catch (e) {
      rethrow;
    }
  }

  /// Broadcast a transaction to the network.
  ///
  /// The transaction hash as a hexadecimal string.
  Future<String> broadcastTransaction({
    required String rawTx,
    String? requestID,
  }) async {
    try {
      final response = await request(
        requestID: requestID,
        command: 'blockchain.transaction.broadcast',
        args: [
          rawTx,
        ],
      );
      return response as String;
    } catch (e) {
      rethrow;
    }
  }

  /// Return the confirmed and unconfirmed balances for the scripthash of a given scripthash
  ///
  /// Returns a map with keys confirmed and unconfirmed. The value of each is
  /// the appropriate balance in minimum coin units (satoshis).
  /// Ex:
  /// {
  ///   "confirmed": 103873966,
  ///   "unconfirmed": 23684400
  /// }
  Future<Map<String, dynamic>> getBalance({
    required String scripthash,
    String? requestID,
  }) async {
    try {
      final response = await request(
        requestID: requestID,
        command: 'blockchain.scripthash.get_balance',
        args: [
          scripthash,
        ],
      );
      return Map<String, dynamic>.from(response as Map);
    } catch (e) {
      rethrow;
    }
  }

  /// Return the confirmed and unconfirmed history for the given scripthash.
  ///
  /// Returns a list of maps that contain the tx_hash and height of the tx.
  /// Ex:
  /// [
  ///   {
  ///     "height": 200004,
  ///     "tx_hash": "acc3758bd2a26f869fcc67d48ff30b96464d476bca82c1cd6656e7d506816412"
  ///   },
  ///   {
  ///     "height": 215008,
  ///     "tx_hash": "f3e1bf48975b8d6060a9de8884296abb80be618dc00ae3cb2f6cee3085e09403"
  ///   }
  /// ]
  Future<List<Map<String, dynamic>>> getHistory({
    required String scripthash,
    String? requestID,
  }) async {
    try {
      int retryCount = 3;
      dynamic result;

      while (retryCount > 0 && result is! List) {
        final response = await request(
          requestID: requestID,
          command: 'blockchain.scripthash.get_history',
          requestTimeout: const Duration(minutes: 5),
          args: [
            scripthash,
          ],
        );
        result = response;
        retryCount--;
      }

      return List<Map<String, dynamic>>.from(result as List);
    } catch (e) {
      rethrow;
    }
  }

  Future<List<List<Map<String, dynamic>>>> getBatchHistory({
    required List<dynamic> args,
  }) async {
    try {
      final response = await batchRequest(
        command: 'blockchain.scripthash.get_history',
        args: args,
      );
      final List<List<Map<String, dynamic>>> result = [];
      for (int i = 0; i < response.length; i++) {
        result.add(List<Map<String, dynamic>>.from(response[i] as List));
      }
      return result;
    } catch (e) {
      rethrow;
    }
  }

  /// Return an ordered list of UTXOs sent to a script hash of the given scripthash.
  ///
  /// Returns a list of maps.
  /// Ex:
  /// [
  ///   {
  ///     "tx_pos": 0,
  ///     "value": 45318048,
  ///     "tx_hash": "9f2c45a12db0144909b5db269415f7319179105982ac70ed80d76ea79d923ebf",
  ///     "height": 437146
  ///   },
  ///   {
  ///     "tx_pos": 0,
  ///     "value": 919195,
  ///     "tx_hash": "3d2290c93436a3e964cfc2f0950174d8847b1fbe3946432c4784e168da0f019f",
  ///     "height": 441696
  ///   }
  /// ]
  Future<List<Map<String, dynamic>>> getUTXOs({
    required String scripthash,
    String? requestID,
  }) async {
    try {
      final response = await request(
        requestID: requestID,
        command: 'blockchain.scripthash.listunspent',
        args: [
          scripthash,
        ],
      );
      return List<Map<String, dynamic>>.from(response as List);
    } catch (e) {
      rethrow;
    }
  }

  Future<List<List<Map<String, dynamic>>>> getBatchUTXOs({
    required List<dynamic> args,
  }) async {
    try {
      final response = await batchRequest(
        command: 'blockchain.scripthash.listunspent',
        args: args,
      );
      final List<List<Map<String, dynamic>>> result = [];
      for (int i = 0; i < response.length; i++) {
        if ((response[i] as List).isNotEmpty) {
          try {
            final data = List<Map<String, dynamic>>.from(response[i] as List);
            result.add(data);
          } catch (e) {
            // to ensure we keep same length of responses as requests/args
            // add empty list on error
            result.add([]);

            Logging.instance.log(
              "getBatchUTXOs failed to parse response=${response[i]}: $e",
              level: LogLevel.Error,
            );
          }
        }
      }
      return result;
    } catch (e) {
      rethrow;
    }
  }

  /// Returns a raw transaction given the tx_hash.
  ///
  /// Returns a list of maps.
  /// Ex when verbose=false:
  /// "01000000015bb9142c960a838329694d3fe9ba08c2a6421c5158d8f7044cb7c48006c1b48"
  /// "4000000006a4730440220229ea5359a63c2b83a713fcc20d8c41b20d48fe639a639d2a824"
  /// "6a137f29d0fc02201de12de9c056912a4e581a62d12fb5f43ee6c08ed0238c32a1ee76921"
  /// "3ca8b8b412103bcf9a004f1f7a9a8d8acce7b51c983233d107329ff7c4fb53e44c855dbe1"
  /// "f6a4feffffff02c6b68200000000001976a9141041fb024bd7a1338ef1959026bbba86006"
  /// "4fe5f88ac50a8cf00000000001976a91445dac110239a7a3814535c15858b939211f85298"
  /// "88ac61ee0700"
  ///
  ///
  /// Ex when verbose=true:
  /// {
  ///   "blockhash": "0000000000000000015a4f37ece911e5e3549f988e855548ce7494a0a08b2ad6",
  ///   "blocktime": 1520074861,
  ///   "confirmations": 679,
  ///   "hash": "36a3692a41a8ac60b73f7f41ee23f5c917413e5b2fad9e44b34865bd0d601a3d",
  ///   "hex": "01000000015bb9142c960a838329694d3fe9ba08c2a6421c5158d8f7044cb7c48006c1b484000000006a4730440220229ea5359a63c2b83a713fcc20d8c41b20d48fe639a639d2a8246a137f29d0fc02201de12de9c056912a4e581a62d12fb5f43ee6c08ed0238c32a1ee769213ca8b8b412103bcf9a004f1f7a9a8d8acce7b51c983233d107329ff7c4fb53e44c855dbe1f6a4feffffff02c6b68200000000001976a9141041fb024bd7a1338ef1959026bbba860064fe5f88ac50a8cf00000000001976a91445dac110239a7a3814535c15858b939211f8529888ac61ee0700",
  ///   "locktime": 519777,
  ///   "size": 225,
  ///   "time": 1520074861,
  ///   "txid": "36a3692a41a8ac60b73f7f41ee23f5c917413e5b2fad9e44b34865bd0d601a3d",
  ///   "version": 1,
  ///   "vin": [ {
  ///     "scriptSig": {
  ///       "asm": "30440220229ea5359a63c2b83a713fcc20d8c41b20d48fe639a639d2a8246a137f29d0fc02201de12de9c056912a4e581a62d12fb5f43ee6c08ed0238c32a1ee769213ca8b8b[ALL|FORKID] 03bcf9a004f1f7a9a8d8acce7b51c983233d107329ff7c4fb53e44c855dbe1f6a4",
  ///       "hex": "4730440220229ea5359a63c2b83a713fcc20d8c41b20d48fe639a639d2a8246a137f29d0fc02201de12de9c056912a4e581a62d12fb5f43ee6c08ed0238c32a1ee769213ca8b8b412103bcf9a004f1f7a9a8d8acce7b51c983233d107329ff7c4fb53e44c855dbe1f6a4"
  ///     },
  ///     "sequence": 4294967294,
  ///     "txid": "84b4c10680c4b74c04f7d858511c42a6c208bae93f4d692983830a962c14b95b",
  ///     "vout": 0}],
  ///   "vout": [ { "n": 0,
  ///              "scriptPubKey": { "addresses": [ "12UxrUZ6tyTLoR1rT1N4nuCgS9DDURTJgP"],
  ///                                "asm": "OP_DUP OP_HASH160 1041fb024bd7a1338ef1959026bbba860064fe5f OP_EQUALVERIFY OP_CHECKSIG",
  ///                                "hex": "76a9141041fb024bd7a1338ef1959026bbba860064fe5f88ac",
  ///                                "reqSigs": 1,
  ///                                "type": "pubkeyhash"},
  ///              "value": 0.0856647},
  ///            { "n": 1,
  ///              "scriptPubKey": { "addresses": [ "17NMgYPrguizvpJmB1Sz62ZHeeFydBYbZJ"],
  ///                                "asm": "OP_DUP OP_HASH160 45dac110239a7a3814535c15858b939211f85298 OP_EQUALVERIFY OP_CHECKSIG",
  ///                                "hex": "76a91445dac110239a7a3814535c15858b939211f8529888ac",
  ///                                "reqSigs": 1,
  ///                                "type": "pubkeyhash"},
  ///              "value": 0.1360904}]}
  Future<Map<String, dynamic>> getTransaction({
    required String txHash,
    bool verbose = true,
    String? requestID,
  }) async {
    Logging.instance.log(
      "attempting to fetch blockchain.transaction.get...",
      level: LogLevel.Info,
    );
    await _checkElectrumAdapter();
    final dynamic response = await getElectrumAdapter()!.getTransaction(txHash);
    Logging.instance.log(
      "Fetching blockchain.transaction.get finished",
      level: LogLevel.Info,
    );

    if (!verbose) {
      return {"rawtx": response as String};
    }

    return Map<String, dynamic>.from(response as Map);
  }

  /// Returns the whole Lelantus anonymity set for denomination in the groupId.
  ///
  /// ex:
  ///  {
  ///     "blockHash": "37effb57352693f4efcb1710bf68e3a0d79ff6b8f1605529de3e0706d9ca21da",
  ///     "setHash": "aae1a64f19f5ccce1c242dfe331d8db2883a9508d998efa3def8a64844170fe4",
  ///     "coins": [
  ///               [dynamic list of length 4],
  ///               [dynamic list of length 4],
  ///               ....
  ///               [dynamic list of length 4],
  ///               [dynamic list of length 4],
  ///         ]
  ///   }
  Future<Map<String, dynamic>> getLelantusAnonymitySet({
    String groupId = "1",
    String blockhash = "",
    String? requestID,
  }) async {
    Logging.instance.log(
      "attempting to fetch lelantus.getanonymityset...",
      level: LogLevel.Info,
    );
    await _checkElectrumAdapter();
    final Map<String, dynamic> response =
        await (getElectrumAdapter() as FiroElectrumClient)
            .getLelantusAnonymitySet(groupId: groupId, blockHash: blockhash);
    Logging.instance.log(
      "Fetching lelantus.getanonymityset finished",
      level: LogLevel.Info,
    );
    return response;
  }

  //TODO add example to docs
  ///
  ///
  /// Returns the block height and groupId of a Lelantus pubcoin.
  Future<dynamic> getLelantusMintData({
    dynamic mints,
    String? requestID,
  }) async {
    Logging.instance.log(
      "attempting to fetch lelantus.getmintmetadata...",
      level: LogLevel.Info,
    );
    await _checkElectrumAdapter();
    final dynamic response = await (getElectrumAdapter() as FiroElectrumClient)
        .getLelantusMintData(mints: mints);
    Logging.instance.log(
      "Fetching lelantus.getmintmetadata finished",
      level: LogLevel.Info,
    );
    return response;
  }

  //TODO add example to docs
  /// Returns the whole set of the used Lelantus coin serials.
  Future<Map<String, dynamic>> getLelantusUsedCoinSerials({
    String? requestID,
    required int startNumber,
  }) async {
    Logging.instance.log(
      "attempting to fetch lelantus.getusedcoinserials...",
      level: LogLevel.Info,
    );
    await _checkElectrumAdapter();

    int retryCount = 3;
    dynamic response;

    while (retryCount > 0 && response is! List) {
      response = await (getElectrumAdapter() as FiroElectrumClient)
          .getLelantusUsedCoinSerials(startNumber: startNumber);
      // TODO add 2 minute timeout.
      Logging.instance.log(
        "Fetching lelantus.getusedcoinserials finished",
        level: LogLevel.Info,
      );

      retryCount--;
    }

    return Map<String, dynamic>.from(response as Map);
  }

  /// Returns the latest Lelantus set id
  ///
  /// ex: 1
  Future<int> getLelantusLatestCoinId({String? requestID}) async {
    Logging.instance.log(
      "attempting to fetch lelantus.getlatestcoinid...",
      level: LogLevel.Info,
    );
    await _checkElectrumAdapter();
    final int response =
        await (getElectrumAdapter() as FiroElectrumClient).getLatestCoinId();
    Logging.instance.log(
      "Fetching lelantus.getlatestcoinid finished",
      level: LogLevel.Info,
    );
    return response;
  }

  // ============== Spark ======================================================

  // New Spark ElectrumX methods:
  // > Functions provided by ElectrumX servers
  // >   // >

  /// Returns the whole Spark anonymity set for denomination in the groupId.
  ///
  /// Takes [coinGroupId] and [startBlockHash], if the last is empty it returns full set,
  /// otherwise returns mint after that block, we need to call this to keep our
  /// anonymity set data up to date.
  ///
  /// Returns blockHash (last block hash),
  /// setHash (hash of current set)
  /// and coins (the list of pairs serialized coin and tx hash)
  Future<Map<String, dynamic>> getSparkAnonymitySet({
    String coinGroupId = "1",
    String startBlockHash = "",
    String? requestID,
  }) async {
    try {
      final start = DateTime.now();
      await _checkElectrumAdapter();
      final Map<String, dynamic> response =
          await (getElectrumAdapter() as FiroElectrumClient)
              .getSparkAnonymitySet(
        coinGroupId: coinGroupId,
        startBlockHash: startBlockHash,
      );
      Logging.instance.log(
        "Finished ElectrumXClient.getSparkAnonymitySet(coinGroupId"
        "=$coinGroupId, startBlockHash=$startBlockHash). "
        "coins.length: ${(response["coins"] as List?)?.length}"
        "Duration=${DateTime.now().difference(start)}",
        level: LogLevel.Info,
      );
      return response;
    } catch (e) {
      rethrow;
    }
  }

  /// NOT USED. See [getSparkUnhashedUsedCoinsTagsWithTxHashes]
  /// Takes [startNumber], if it is 0, we get the full set,
  /// otherwise the used tags after that number
  // Future<List<String>> getSparkUnhashedUsedCoinsTags({
  //   String? requestID,
  //   required int startNumber,
  // }) async {
  //   try {
  //     final start = DateTime.now();
  //     await _checkElectrumAdapter();
  //     final Map<String, dynamic> response =
  //         await (getElectrumAdapter() as FiroElectrumClient)
  //             .getUsedCoinsTags(startNumber: startNumber);
  //     // TODO: Add 2 minute timeout.
  //     // Why 2 minutes?
  //     Logging.instance.log(
  //       "Fetching spark.getusedcoinstags finished",
  //       level: LogLevel.Info,
  //     );
  //     final map = Map<String, dynamic>.from(response);
  //     final tags = List<String>.from(map["tags"] as List);
  //
  //     Logging.instance.log(
  //       "Finished ElectrumXClient.getSparkUnhashedUsedCoinsTags(startNumber"
  //       "=$startNumber). # of tags fetched=${tags.length}, "
  //       "Duration=${DateTime.now().difference(start)}",
  //       level: LogLevel.Info,
  //     );
  //
  //     return tags;
  //   } catch (e) {
  //     Logging.instance.log(e, level: LogLevel.Error);
  //     rethrow;
  //   }
  // }

  /// Takes a list of [sparkCoinHashes] and returns the set id and block height
  /// for each coin
  ///
  /// arg:
  /// {
  ///   "coinHashes": [
  ///       "b476ed2b374bb081ea51d111f68f0136252521214e213d119b8dc67b92f5a390",
  ///       "b476ed2b374bb081ea51d111f68f0136252521214e213d119b8dc67b92f5a390",
  ///   ]
  /// }
  Future<List<Map<String, dynamic>>> getSparkMintMetaData({
    String? requestID,
    required List<String> sparkCoinHashes,
  }) async {
    try {
      Logging.instance.log(
        "attempting to fetch spark.getsparkmintmetadata...",
        level: LogLevel.Info,
      );
      await _checkElectrumAdapter();
      final List<dynamic> response =
          await (getElectrumAdapter() as FiroElectrumClient)
              .getSparkMintMetaData(sparkCoinHashes: sparkCoinHashes);
      Logging.instance.log(
        "Fetching spark.getsparkmintmetadata finished",
        level: LogLevel.Info,
      );
      return List<Map<String, dynamic>>.from(response);
    } catch (e) {
      Logging.instance.log(e, level: LogLevel.Error);
      rethrow;
    }
  }

  /// Returns the latest Spark set id
  ///
  /// ex: 1
  Future<int> getSparkLatestCoinId({
    String? requestID,
  }) async {
    try {
      Logging.instance.log(
        "attempting to fetch spark.getsparklatestcoinid...",
        level: LogLevel.Info,
      );
      await _checkElectrumAdapter();
      final int response = await (getElectrumAdapter() as FiroElectrumClient)
          .getSparkLatestCoinId();
      Logging.instance.log(
        "Fetching spark.getsparklatestcoinid finished",
        level: LogLevel.Info,
      );
      return response;
    } catch (e) {
      Logging.instance.log(e, level: LogLevel.Error);
      rethrow;
    }
  }

  /// Returns the txids of the current transactions found in the mempool
  Future<Set<String>> getMempoolTxids({
    String? requestID,
  }) async {
    try {
      final start = DateTime.now();
      final response = await request(
        requestID: requestID,
        command: "spark.getmempooltxids",
      );

      final txids = List<String>.from(response as List)
          .map((e) => e.toHexReversedFromBase64)
          .toSet();

      Logging.instance.log(
        "Finished ElectrumXClient.getMempoolTxids(). "
        "Duration=${DateTime.now().difference(start)}",
        level: LogLevel.Info,
      );

      return txids;
    } catch (e) {
      Logging.instance.log(e, level: LogLevel.Error);
      rethrow;
    }
  }

  /// Returns the txids of the current transactions found in the mempool
  Future<List<SparkMempoolData>> getMempoolSparkData({
    String? requestID,
    required List<String> txids,
  }) async {
    try {
      final start = DateTime.now();
      final response = await request(
        requestID: requestID,
        command: "spark.getmempooltxs",
        args: [
          {
            "txids": txids,
          },
        ],
      );

      final map = Map<String, dynamic>.from(response as Map);
      final List<SparkMempoolData> result = [];
      for (final entry in map.entries) {
        result.add(
          (
            txid: entry.key,
            serialContext:
                List<String>.from(entry.value["Serial_context"] as List),
            // the space after lTags is required lol
            lTags: List<String>.from(entry.value["lTags "] as List),
            coins: List<String>.from(entry.value["Coins"] as List),
          ),
        );
      }

      Logging.instance.log(
        "Finished ElectrumXClient.getMempoolSparkData(txids: $txids). "
        "Duration=${DateTime.now().difference(start)}",
        level: LogLevel.Info,
      );

      return result;
    } catch (e, s) {
      Logging.instance.log("$e\n$s", level: LogLevel.Error);
      rethrow;
    }
  }

  /// Takes [startNumber], if it is 0, we get the full set,
  /// otherwise the used tags and txids after that number
  Future<List<List<dynamic>>> getSparkUnhashedUsedCoinsTagsWithTxHashes({
    String? requestID,
    required int startNumber,
  }) async {
    try {
      final start = DateTime.now();
      final response = await request(
        requestID: requestID,
        command: "spark.getusedcoinstagstxhashes",
        args: [
          "$startNumber",
        ],
      );

      final map = Map<String, dynamic>.from(response as Map);
      final tags = List<List<dynamic>>.from(map["tagsandtxids"] as List);

      Logging.instance.log(
        "Finished ElectrumXClient.getSparkUnhashedUsedCoinsTagsWithTxHashes("
        "startNumber=$startNumber). # of tags fetched=${tags.length}, "
        "Duration=${DateTime.now().difference(start)}",
        level: LogLevel.Info,
      );

      return tags;
    } catch (e) {
      Logging.instance.log(e, level: LogLevel.Error);
      rethrow;
    }
  }
  // ===========================================================================

  /// Get the current fee rate.
  ///
  /// Returns a map with the kay "rate" that corresponds to the free rate in satoshis
  /// Ex:
  /// {
  ///   "rate": 1000,
  /// }
  Future<Map<String, dynamic>> getFeeRate({String? requestID}) async {
    await _checkElectrumAdapter();
    return await getElectrumAdapter()!.getFeeRate();
  }

  /// Return the estimated transaction fee per kilobyte for a transaction to be
  /// confirmed within a certain number of [blocks].
  ///
  /// Returns a Decimal fee rate
  /// Ex:
  /// 0.00001000
  Future<Decimal> estimateFee({String? requestID, required int blocks}) async {
    try {
      final response = await request(
        requestID: requestID,
        command: 'blockchain.estimatefee',
        args: [
          blocks,
        ],
      );
      try {
        if (response == null ||
            response == -1 ||
            Decimal.parse(response.toString()) == Decimal.parse("-1")) {
          if (cryptoCurrency is BitcoinFrost) {
            final rate = Amount(
              rawValue: (cryptoCurrency as BitcoinFrost).defaultFeeRate,
              fractionDigits: cryptoCurrency.fractionDigits,
            );
            return rate.decimal;
          } else if (cryptoCurrency is ElectrumXCurrencyInterface) {
            final rate = Amount(
              rawValue:
                  (cryptoCurrency as ElectrumXCurrencyInterface).defaultFeeRate,
              fractionDigits: cryptoCurrency.fractionDigits,
            );
            return rate.decimal;
          } else {
            throw Exception("Unexpected cryptoCurrency found!");
          }
        }
        return Decimal.parse(response.toString());
      } catch (e, s) {
        final String msg = "Error parsing fee rate.  Response: $response"
            "\nResult: $response\nError: $e\nStack trace: $s";
        Logging.instance.log(msg, level: LogLevel.Fatal);
        throw Exception(msg);
      }
    } catch (e) {
      rethrow;
    }
  }

  /// Return the minimum fee a low-priority transaction must pay in order to be accepted to the daemon’s memory pool.
  ///
  /// Returns a Decimal fee rate
  /// Ex:
  /// 0.00001000
  Future<Decimal> relayFee({String? requestID}) async {
    try {
      final response = await request(
        requestID: requestID,
        command: 'blockchain.relayfee',
      );
      return Decimal.parse(response.toString());
    } catch (e) {
      rethrow;
    }
  }
}