stack_wallet/lib/services/mixins/fusion_wallet_interface.dart
2023-09-22 11:45:16 -05:00

548 lines
17 KiB
Dart

import 'dart:async';
import 'dart:convert';
import 'dart:io';
import 'package:decimal/decimal.dart';
import 'package:fusiondart/fusiondart.dart';
import 'package:fusiondart/src/models/address.dart' as fusion_address;
import 'package:fusiondart/src/models/input.dart' as fusion_input;
import 'package:fusiondart/src/models/output.dart' as fusion_output;
import 'package:fusiondart/src/models/transaction.dart' as fusion_tx;
import 'package:isar/isar.dart';
import 'package:stackwallet/db/isar/main_db.dart';
import 'package:stackwallet/electrumx_rpc/cached_electrumx.dart';
import 'package:stackwallet/models/isar/models/isar_models.dart';
import 'package:stackwallet/services/tor_service.dart';
import 'package:stackwallet/utilities/amount/amount.dart';
import 'package:stackwallet/utilities/enums/coin_enum.dart';
import 'package:stackwallet/utilities/enums/derive_path_type_enum.dart';
import 'package:stackwallet/utilities/stack_file_system.dart';
const String kReservedFusionAddress = "reserved_fusion_address";
/// A mixin for the BitcoinCashWallet class that adds CashFusion functionality.
mixin FusionWalletInterface {
// Passed in wallet data.
static late final String _walletId;
late final Coin _coin;
static late final MainDB _db;
late final CachedElectrumX _cachedElectrumX;
late final TorService _torService;
// Passed in wallet functions.
late final Future<Address> Function(
int chain,
int index,
DerivePathType derivePathType,
) _generateAddressForChain;
/// Initializes the FusionWalletInterface mixin.
///
/// This function must be called before any other functions in this mixin.
///
/// Returns a `Future<void>` that resolves when Tor has been started.
Future<void> initFusionInterface({
required String walletId,
required Coin coin,
required MainDB db,
required Future<Address> Function(
int,
int,
DerivePathType,
) generateAddressForChain,
required CachedElectrumX cachedElectrumX,
}) async {
// Set passed in wallet data.
_walletId = walletId;
_coin = coin;
_db = db;
_generateAddressForChain = generateAddressForChain;
_torService = TorService.sharedInstance;
_cachedElectrumX = cachedElectrumX;
// Try getting the proxy info.
//
// Start the Tor service if it's not already running. Returns if Tor is already
// connected or else after Tor returns from start().
try {
_torService.getProxyInfo();
// Proxy info successfully retrieved, Tor is connected.
return;
} catch (e) {
// Init the Tor service if it hasn't already been.
final torDir = await StackFileSystem.applicationTorDirectory();
_torService.init(torDataDirPath: torDir.path);
// Start the Tor service.
return await _torService.start();
}
}
/// Returns a list of all addresses in the wallet.
Future<List<fusion_address.Address>> getFusionAddresses() async {
List<Address> _addresses = await _db.getAddresses(_walletId).findAll();
return _addresses.map((address) => address.toFusionAddress()).toList();
}
/// Returns a list of all transactions in the wallet for the given address.
Future<Set<fusion_tx.Transaction>> getTransactionsByAddress(
String address) async {
var _txs = await _db.getTransactions(_walletId).findAll();
// Use Future.wait to await all the futures in the set and then convert it to a set.
var resultSet = await Future.wait(
_txs.map((tx) => tx.toFusionTransaction(_cachedElectrumX)));
return resultSet.toSet();
}
/// Returns a list of all UTXOs in the wallet for the given address.
Future<List<fusion_input.Input>> getInputsByAddress(String address) async {
var _utxos = await _db.getUTXOsByAddress(_walletId, address).findAll();
List<Future<fusion_input.Input>> futureInputs =
_utxos.map((utxo) => utxo.toFusionInput()).toList();
return await Future.wait(futureInputs);
}
/// Creates a new reserved change address.
Future<fusion_address.Address> createNewReservedChangeAddress() async {
int? highestChangeIndex = await _db
.getAddresses(_walletId)
.filter()
.typeEqualTo(AddressType.p2pkh)
.subTypeEqualTo(AddressSubType.change)
.derivationPath((q) => q.not().valueStartsWith("m/44'/0'"))
.sortByDerivationIndexDesc()
.derivationIndexProperty()
.findFirst();
Address address = await _generateAddressForChain(
1, // change chain
highestChangeIndex ?? 0,
DerivePathTypeExt.primaryFor(_coin),
);
address = address.copyWith(otherData: kReservedFusionAddress);
// TODO if we really want to be sure it's not used, call electrumx and check it
Address? _address = await _db.getAddress(_walletId, address.value);
if (_address != null) {
// throw Exception("Address already exists");
await _db.updateAddress(_address, address);
} else {
await _db.putAddress(address);
}
return address.toFusionAddress();
}
/// Returns a list of unused reserved change addresses.
///
/// If there are not enough unused reserved change addresses, new ones are created.
Future<List<fusion_address.Address>> getUnusedReservedChangeAddresses(
int numberOfAddresses,
) async {
// Fetch all transactions that have been sent to a reserved change address.
final txns = await _db
.getTransactions(_walletId)
.filter()
.address((q) => q.otherDataEqualTo(kReservedFusionAddress))
.findAll();
// Fetch all addresses that have been used in a transaction.
final List<String> usedAddresses = txns
.where((e) => e.address.value != null)
.map((e) => e.address.value!.value)
.toList(growable: false);
// Fetch all reserved change addresses.
final List<Address> addresses = await _db
.getAddresses(_walletId)
.filter()
.otherDataEqualTo(kReservedFusionAddress)
.findAll();
// Initialize a list of unused reserved change addresses.
final List<fusion_address.Address> unusedAddresses = [];
// Add any unused reserved change addresses to the list.
for (final address in addresses) {
if (!usedAddresses.contains(address.value)) {
unusedAddresses.add(address.toFusionAddress());
}
}
// If there are not enough unused reserved change addresses, create new ones.
if (unusedAddresses.length < numberOfAddresses) {
for (int i = unusedAddresses.length; i < numberOfAddresses; i++) {
unusedAddresses.add(await createNewReservedChangeAddress());
}
}
// Return the list of unused reserved change addresses.
return unusedAddresses;
}
/// Get an address.
static Future<Address> getAddress(String addr) async {
Address? address = await _db.getAddress(_walletId, addr);
if (address == null) {
throw Exception("Address not found");
}
return address;
}
/// Returns the current Tor proxy address.
Future<({InternetAddress host, int port})> getSocksProxyAddress() async {
/*
// Start the Tor service if it's not already running.
if (_torService.proxyInfo.port == -1) { // -1 indicates that the proxy is not running.
await _torService.start(); // We already unawaited this in initFusionInterface...
}
*/
// TODO make sure we've properly awaited the Tor service starting before
// returning the proxy address.
// Return the proxy address.
return _torService.getProxyInfo();
}
// Initial attempt for CashFusion integration goes here.
/// Fuse the wallet's UTXOs.
///
/// This function is called when the user taps the "Fuse" button in the UI.
///
/// Returns:
/// A `Future<void>` that resolves when the fusion operation is finished.
Future<void> fuse() async {
// Initial attempt for CashFusion integration goes here.
Fusion mainFusionObject = Fusion(
getAddresses: () => getFusionAddresses(),
getTransactionsByAddress: (String address) =>
getTransactionsByAddress(address),
getInputsByAddress: (String address) => getInputsByAddress(address),
// createNewReservedChangeAddress: () => createNewReservedChangeAddress(),
getUnusedReservedChangeAddresses: (int numberOfAddresses) =>
getUnusedReservedChangeAddresses(numberOfAddresses),
getSocksProxyAddress: () => getSocksProxyAddress(),
);
// Pass wallet functions to the Fusion object
mainFusionObject.initFusion(
getAddresses: getFusionAddresses,
getTransactionsByAddress: getTransactionsByAddress,
getInputsByAddress: getInputsByAddress,
/*createNewReservedChangeAddress: createNewReservedChangeAddress,*/
getUnusedReservedChangeAddresses: getUnusedReservedChangeAddresses,
getSocksProxyAddress: getSocksProxyAddress);
// Add stack UTXOs.
List<UTXO> utxos = await _db.getUTXOs(_walletId).findAll();
List<(String, int, int, List<int>)> coinList = [];
// Loop through UTXOs, checking and adding valid ones.
for (var e in utxos) {
// Check if address is available.
if (e.address == null) {
// TODO we could continue here (and below during scriptPubKey validation) instead of throwing.
throw Exception("UTXO ${e.txid}:${e.vout} address is null");
}
// Find public key.
print("1 getting tx ${e.txid}");
Map<String, dynamic> tx = await _cachedElectrumX.getTransaction(
coin: _coin,
txHash: e.txid,
verbose: true); // TODO is verbose needed?
// Check if scriptPubKey is available.
if (tx["vout"] == null) {
throw Exception("Vout in transaction ${e.txid} is null");
}
if (tx["vout"][e.vout] == null) {
throw Exception("Vout index ${e.vout} in transaction is null");
}
if (tx["vout"][e.vout]["scriptPubKey"] == null) {
throw Exception("scriptPubKey at vout index ${e.vout} is null");
}
if (tx["vout"][e.vout]["scriptPubKey"]["hex"] == null) {
throw Exception("hex in scriptPubKey at vout index ${e.vout} is null");
}
// Assign scriptPubKey to pubKey. TODO verify this is correct.
List<int> pubKey =
utf8.encode("${tx["vout"][e.vout]["scriptPubKey"]["hex"]}");
// Add UTXO to coinList.
coinList.add((e.txid, e.vout, e.value, pubKey));
}
// Add Stack UTXOs.
await mainFusionObject.addCoinsFromWallet(coinList);
// Fuse UTXOs.
return await mainFusionObject.fuse();
//print ("DEBUG FUSION bitcoincash_wallet.dart 1202");
// TODO remove or fix code below.
/*
print("DEBUG: Waiting for any potential incoming data...");
try {
await Future.delayed(Duration(seconds: 5)); // wait for 5 seconds
}
catch (e) {
print (e);
}
print("DEBUG: Done waiting.");
bool mydebug1 = false;
if (mydebug1 == true) {
var serverIp = '167.114.119.46';
var serverPort = 8787;
List<int> frame = [
118,
91,
232,
180,
228,
57,
109,
207,
0,
0,
0,
45,
10,
43,
10,
7,
97,
108,
112,
104,
97,
49,
51,
18,
32,
111,
226,
140,
10,
182,
241,
179,
114,
193,
166,
162,
70,
174,
99,
247,
79,
147,
30,
131,
101,
225,
90,
8,
156,
104,
214,
25,
0,
0,
0,
0,
0
];
print("lets try to connect to a socket again");
var socket = await Socket.connect(serverIp, serverPort);
print('Connected to the server.');
socket.add(frame);
print('Sent frame: $frame');
socket.listen((data) {
print('Received from server: $data');
}, onDone: () {
print('Server closed connection.');
socket.destroy();
}, onError: (error) {
print('Error: $error');
socket.destroy();
});
}
// await _checkCurrentChangeAddressesForTransactions();
// await _checkCurrentReceivingAddressesForTransactions();
*/
}
Future<void> refreshFusion() {
// TODO
throw UnimplementedError(
"TODO refreshFusion eg look up number of fusion participants connected/coordinating");
}
}
/// An extension of Stack Wallet's Address class that adds CashFusion functionality.
extension FusionAddress on Address {
fusion_address.Address toFusionAddress() {
return fusion_address.Address(
addr: value,
publicKey: publicKey,
derivationPath:
fusion_address.DerivationPath(derivationPath?.value ?? ""));
// TODO fix default derivation path.
}
}
/// An extension of Stack Wallet's UTXO class that adds CashFusion functionality.
///
/// This class is used to convert Stack Wallet's UTXO class to FusionDart's
/// Input and Output classes.
extension FusionUTXO on UTXO {
/// Converts a Stack Wallet UTXO to a FusionDart Input.
Future<fusion_input.Input> toFusionInput() async {
if (address == null) {
throw Exception("toFutionInput Address is null");
}
// Search isar for address to get pubKey.
Address addr = await FusionWalletInterface.getAddress(address!);
return fusion_input.Input(
prevTxid: utf8.encode(txid),
prevIndex: vout,
pubKey: addr.publicKey,
amount: value,
);
}
/// Converts a Stack Wallet UTXO to a FusionDart Output.
Future<fusion_output.Output> toFusionOutput() async {
if (address == null) {
throw Exception("toFutionOutput Address is null");
}
// Search isar for address to get pubKey.
Address addr = await FusionWalletInterface.getAddress(address!);
return fusion_output.Output(
addr: fusion_address.Address(
addr: address!,
publicKey: addr.publicKey,
derivationPath:
fusion_address.DerivationPath(addr.derivationPath?.value ?? ""),
),
value: value,
);
}
}
/// An extension of Stack Wallet's Transaction class that adds CashFusion functionality.
extension FusionTransaction on Transaction {
// WIP.
Future<fusion_tx.Transaction> toFusionTransaction(
CachedElectrumX cachedElectrumX) async {
// Initialize Fusion Dart's Transaction object.
fusion_tx.Transaction fusionTransaction = fusion_tx.Transaction();
// WIP.
fusionTransaction.Inputs = await Future.wait(inputs.map((e) async {
// Find input amount.
Map<String, dynamic> _tx = await cachedElectrumX.getTransaction(
coin: Coin.bitcoincash,
txHash: e.txid,
verbose: true); // TODO is verbose needed?
// Check if output amount is available.
if (_tx.isEmpty) {
throw Exception("Transaction not found for input: ${e.txid}");
}
if (_tx["vout"] == null) {
throw Exception("Vout in transaction ${e.txid} is null");
}
if (_tx["vout"][e.vout] == null) {
throw Exception("Vout index ${e.vout} in transaction is null");
}
if (_tx["vout"][e.vout]["value"] == null) {
throw Exception("Value of vout index ${e.vout} in transaction is null");
}
// TODO replace with conditional chaining?
// Assign vout value to amount.
final value = Amount.fromDecimal(
Decimal.parse(_tx["vout"][e.vout]["value"].toString()),
fractionDigits: Coin.bitcoincash.decimals,
);
return fusion_input.Input(
prevTxid: utf8.encode(e.txid), // TODO verify this is what we want.
prevIndex: e.vout, // TODO verify this is what we want.
pubKey: utf8.encode('0000'), // TODO fix public key.
amount: value.raw.toInt(),
);
}).toList());
fusionTransaction.Outputs = outputs.map((e) {
/*
if (e.scriptPubKey == null) {
// TODO calculate scriptPubKey if it is null.
}
*/
fusion_address.DerivationPath? derivationPath;
List<int>? pubKey;
// Validate that we have all the required data.
if (address.value == null) {
// TODO calculate address if it is null.
throw Exception(
"address value is null for input: ${e.scriptPubKeyAddress}");
} else {
if (address.value!.publicKey.isEmpty || e.scriptPubKey != null) {
pubKey = utf8.encode(e.scriptPubKey!);
// TODO is this valid?
} else {
pubKey = address.value!
.publicKey; // TODO IMPORTANT: this address may not be *the* address in question :)
}
if (address.value!.derivationPath != null) {
derivationPath = fusion_address.DerivationPath(
address.value!.derivationPath!.toString());
} else {
// TODO calculate derivation path if it is null.
/*
throw Exception(
"derivationPath is null for input: ${e.scriptPubKeyAddress}");
*/
}
}
// TODO handle case where address.value.publicKey is empty and e.scriptPubKey is null
return fusion_output.Output(
addr: fusion_address.Address(
addr: e.scriptPubKeyAddress,
publicKey: pubKey,
derivationPath: derivationPath,
),
value: e.value,
);
}).toList();
return fusionTransaction;
}
}