stack_wallet/lib/electrumx_rpc/electrumx.dart
2023-08-15 22:10:41 -05:00

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/*
* 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 'dart:io';
import 'package:connectivity_plus/connectivity_plus.dart';
import 'package:decimal/decimal.dart';
import 'package:stackwallet/electrumx_rpc/rpc.dart';
import 'package:stackwallet/exceptions/electrumx/no_such_transaction.dart';
import 'package:stackwallet/utilities/logger.dart';
import 'package:stackwallet/utilities/prefs.dart';
import 'package:uuid/uuid.dart';
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: $useSSL}";
}
}
class ElectrumX {
String get host => _host;
late String _host;
int get port => _port;
late int _port;
bool get useSSL => _useSSL;
late bool _useSSL;
JsonRPC? get rpcClient => _rpcClient;
JsonRPC? _rpcClient;
late Prefs _prefs;
List<ElectrumXNode>? failovers;
int currentFailoverIndex = -1;
final Duration connectionTimeoutForSpecialCaseJsonRPCClients;
ElectrumX({
required String host,
required int port,
required bool useSSL,
required Prefs prefs,
required List<ElectrumXNode> failovers,
JsonRPC? client,
this.connectionTimeoutForSpecialCaseJsonRPCClients =
const Duration(seconds: 60),
}) {
_prefs = prefs;
_host = host;
_port = port;
_useSSL = useSSL;
_rpcClient = client;
}
factory ElectrumX.from({
required ElectrumXNode node,
required Prefs prefs,
required List<ElectrumXNode> failovers,
}) =>
ElectrumX(
host: node.address,
port: node.port,
useSSL: node.useSSL,
prefs: prefs,
failovers: failovers,
);
Future<bool> _allow() async {
if (_prefs.wifiOnly) {
return (await Connectivity().checkConnectivity()) ==
ConnectivityResult.wifi;
}
return true;
}
/// Send raw rpc command
Future<dynamic> request({
required String command,
List<dynamic> args = const [],
String? requestID,
int retries = 2,
Duration requestTimeout = const Duration(seconds: 60),
}) async {
if (!(await _allow())) {
throw WifiOnlyException();
}
if (currentFailoverIndex == -1) {
_rpcClient ??= JsonRPC(
host: host,
port: port,
useSSL: useSSL,
connectionTimeout: connectionTimeoutForSpecialCaseJsonRPCClients,
);
} else {
_rpcClient = JsonRPC(
host: failovers![currentFailoverIndex].address,
port: failovers![currentFailoverIndex].port,
useSSL: failovers![currentFailoverIndex].useSSL,
connectionTimeout: connectionTimeoutForSpecialCaseJsonRPCClients,
);
}
try {
final requestId = requestID ?? const Uuid().v1();
final jsonArgs = json.encode(args);
final jsonRequestString = '{"jsonrpc": "2.0", '
'"id": "$requestId",'
'"method": "$command",'
'"params": $jsonArgs}';
// Logging.instance.log("ElectrumX jsonRequestString: $jsonRequestString");
final response = await _rpcClient!.request(
jsonRequestString,
requestTimeout,
);
if (response.exception != null) {
throw response.exception!;
}
if (response.data is Map && response.data["error"] != null) {
if (response.data["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.data}"
" args: $args\n",
);
}
currentFailoverIndex = -1;
return response.data;
} on WifiOnlyException {
rethrow;
} on SocketException {
// likely timed out so then retry
if (retries > 0) {
return request(
command: command,
args: args,
requestTimeout: requestTimeout,
requestID: requestID,
retries: retries - 1,
);
} else {
rethrow;
}
} catch (e) {
if (failovers != null && currentFailoverIndex < failovers!.length - 1) {
currentFailoverIndex++;
return request(
command: command,
args: args,
requestTimeout: requestTimeout,
requestID: requestID,
);
} else {
currentFailoverIndex = -1;
rethrow;
}
}
}
/// send a batch request with [command] where [args] is a
/// map of <request id string : arguments list>
///
/// returns a list of json response objects if no errors were found
Future<List<Map<String, dynamic>>> batchRequest({
required String command,
required Map<String, List<dynamic>> args,
Duration requestTimeout = const Duration(seconds: 60),
int retries = 2,
}) async {
if (!(await _allow())) {
throw WifiOnlyException();
}
if (currentFailoverIndex == -1) {
_rpcClient ??= JsonRPC(
host: host,
port: port,
useSSL: useSSL,
connectionTimeout: connectionTimeoutForSpecialCaseJsonRPCClients,
);
} else {
_rpcClient = JsonRPC(
host: failovers![currentFailoverIndex].address,
port: failovers![currentFailoverIndex].port,
useSSL: failovers![currentFailoverIndex].useSSL,
connectionTimeout: connectionTimeoutForSpecialCaseJsonRPCClients,
);
}
try {
final List<String> requestStrings = [];
for (final entry in args.entries) {
final jsonArgs = json.encode(entry.value);
requestStrings.add(
'{"jsonrpc": "2.0", "id": "${entry.key}","method": "$command","params": $jsonArgs}');
}
// combine request strings into json array
String request = "[";
for (int i = 0; i < requestStrings.length - 1; i++) {
request += "${requestStrings[i]},";
}
request += "${requestStrings.last}]";
// Logging.instance.log("batch request: $request");
// send batch request
final jsonRpcResponse =
(await _rpcClient!.request(request, requestTimeout));
if (jsonRpcResponse.exception != null) {
throw jsonRpcResponse.exception!;
}
final response = jsonRpcResponse.data as List;
// check for errors, format and throw if there are any
final List<String> errors = [];
for (int i = 0; i < response.length; i++) {
final result = response[i];
if (result["error"] != null || result["result"] == null) {
errors.add(result.toString());
}
}
if (errors.isNotEmpty) {
String error = "[\n";
for (int i = 0; i < errors.length; i++) {
error += "${errors[i]}\n";
}
error += "]";
throw Exception("JSONRPC response error: $error");
}
currentFailoverIndex = -1;
return List<Map<String, dynamic>>.from(response, growable: false);
} 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 {
final response = await request(
requestID: requestID,
command: 'server.ping',
requestTimeout: const Duration(seconds: 2),
retries: retryCount,
).timeout(const Duration(seconds: 2)) as Map<String, dynamic>;
return response.keys.contains("result") && response["result"] == null;
} 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["result"] == null) {
Logging.instance.log(
"getBlockHeadTip returned null response",
level: LogLevel.Error,
);
throw 'getBlockHeadTip returned null response';
}
return Map<String, dynamic>.from(response["result"] 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["result"] 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["result"] 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["result"] 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 {
final response = await request(
requestID: requestID,
command: 'blockchain.scripthash.get_history',
requestTimeout: const Duration(minutes: 5),
args: [
scripthash,
],
);
return List<Map<String, dynamic>>.from(response["result"] as List);
} catch (e) {
rethrow;
}
}
Future<Map<String, List<Map<String, dynamic>>>> getBatchHistory(
{required Map<String, List<dynamic>> args}) async {
try {
final response = await batchRequest(
command: 'blockchain.scripthash.get_history',
args: args,
);
final Map<String, List<Map<String, dynamic>>> result = {};
for (int i = 0; i < response.length; i++) {
result[response[i]["id"] as String] =
List<Map<String, dynamic>>.from(response[i]["result"] 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["result"] as List);
} catch (e) {
rethrow;
}
}
Future<Map<String, List<Map<String, dynamic>>>> getBatchUTXOs(
{required Map<String, List<dynamic>> args}) async {
try {
final response = await batchRequest(
command: 'blockchain.scripthash.listunspent',
args: args,
);
final Map<String, List<Map<String, dynamic>>> result = {};
for (int i = 0; i < response.length; i++) {
result[response[i]["id"] as String] =
List<Map<String, dynamic>>.from(response[i]["result"] as List);
}
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 {
dynamic response;
try {
response = await request(
requestID: requestID,
command: 'blockchain.transaction.get',
args: [
txHash,
verbose,
],
);
if (!verbose) {
return {"rawtx": response["result"] as String};
}
return Map<String, dynamic>.from(response["result"] as Map);
} catch (e) {
Logging.instance.log(
"getTransaction($txHash) response: $response",
level: LogLevel.Error,
);
rethrow;
}
}
/// Returns the whole anonymity set for denomination in the groupId.
///
/// ex:
/// {
/// "blockHash": "37effb57352693f4efcb1710bf68e3a0d79ff6b8f1605529de3e0706d9ca21da",
/// "setHash": "aae1a64f19f5ccce1c242dfe331d8db2883a9508d998efa3def8a64844170fe4",
/// "coins": [
/// [dynamic list of length 4],
/// [dynamic list of length 4],
/// ....
/// [dynamic list of length 4],
/// [dynamic list of length 4],
/// ]
/// }
Future<Map<String, dynamic>> getAnonymitySet({
String groupId = "1",
String blockhash = "",
String? requestID,
}) async {
try {
Logging.instance.log("attempting to fetch lelantus.getanonymityset...",
level: LogLevel.Info);
final response = await request(
requestID: requestID,
command: 'lelantus.getanonymityset',
args: [
groupId,
blockhash,
],
);
Logging.instance.log("Fetching lelantus.getanonymityset finished",
level: LogLevel.Info);
return Map<String, dynamic>.from(response["result"] as Map);
} catch (e) {
rethrow;
}
}
//TODO add example to docs
///
///
/// Returns the block height and groupId of pubcoin.
Future<dynamic> getMintData({dynamic mints, String? requestID}) async {
try {
final response = await request(
requestID: requestID,
command: 'lelantus.getmintmetadata',
args: [
mints,
],
);
return response["result"];
} catch (e) {
rethrow;
}
}
//TODO add example to docs
/// Returns the whole set of the used coin serials.
Future<Map<String, dynamic>> getUsedCoinSerials({
String? requestID,
required int startNumber,
}) async {
try {
final response = await request(
requestID: requestID,
command: 'lelantus.getusedcoinserials',
args: [
"$startNumber",
],
requestTimeout: const Duration(minutes: 2),
);
return Map<String, dynamic>.from(response["result"] as Map);
} catch (e) {
Logging.instance.log(e, level: LogLevel.Error);
rethrow;
}
}
/// Returns the latest set id
///
/// ex: 1
Future<int> getLatestCoinId({String? requestID}) async {
try {
final response = await request(
requestID: requestID,
command: 'lelantus.getlatestcoinid',
);
return response["result"] as int;
} catch (e) {
Logging.instance.log(e, level: LogLevel.Error);
rethrow;
}
}
// /// Returns about 13 megabytes of json data as of march 2, 2022
// Future<Map<String, dynamic>> getCoinsForRecovery(
// {dynamic setId, String requestID}) async {
// try {
// final response = await request(
// requestID: requestID,
// command: 'lelantus.getcoinsforrecovery',
// args: [
// setId ?? 1,
// ],
// );
// return response["result"];
// } catch (e) {
// Logging.instance.log(e);
// throw e;
// }
// }
/// 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 {
try {
final response = await request(
requestID: requestID,
command: 'blockchain.getfeerate',
);
return Map<String, dynamic>.from(response["result"] as Map);
} catch (e) {
rethrow;
}
}
/// 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,
],
);
return Decimal.parse(response["result"].toString());
} catch (e) {
rethrow;
}
}
/// Return the minimum fee a low-priority transaction must pay in order to be accepted to the daemons 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["result"].toString());
} catch (e) {
rethrow;
}
}
}