cake_wallet/cw_bitcoin/lib/electrum_wallet_addresses.dart
Omar Hatem 5a7a0e01a7
Litcoin bitcoin cash fix (#1339)
* Make address to output script a single entry point
Fix network type for bitcoin cash

* Add MoonPay to sell polygon

* Normalize currency for moonpay widget

* Minor fix

* fix: litecoin & bch address types

* fix: remove print

* fix: network decode location

* fix: missing place additional network type

* fix: wrong initial address page type

* fix: initial address generation

* fix: btc exchange sending all, bch without change addresses

* Minor fixes

* Update app versions [skip ci]

---------

Co-authored-by: Rafael Saes <git@rafael.saes.dev>
2024-03-21 04:51:57 +02:00

366 lines
12 KiB
Dart

import 'package:bitcoin_base/bitcoin_base.dart';
import 'package:bitcoin_flutter/bitcoin_flutter.dart' as bitcoin;
import 'package:cw_bitcoin/bitcoin_address_record.dart';
import 'package:cw_bitcoin/electrum.dart';
import 'package:cw_core/wallet_addresses.dart';
import 'package:cw_core/wallet_info.dart';
import 'package:cw_core/wallet_type.dart';
import 'package:mobx/mobx.dart';
part 'electrum_wallet_addresses.g.dart';
class ElectrumWalletAddresses = ElectrumWalletAddressesBase with _$ElectrumWalletAddresses;
const List<BitcoinAddressType> ADDRESS_TYPES = [
SegwitAddresType.p2wpkh,
P2pkhAddressType.p2pkh,
SegwitAddresType.p2tr,
SegwitAddresType.p2wsh,
P2shAddressType.p2wpkhInP2sh,
];
abstract class ElectrumWalletAddressesBase extends WalletAddresses with Store {
ElectrumWalletAddressesBase(
WalletInfo walletInfo, {
required this.mainHd,
required this.sideHd,
required this.electrumClient,
required this.network,
List<BitcoinAddressRecord>? initialAddresses,
Map<String, int>? initialRegularAddressIndex,
Map<String, int>? initialChangeAddressIndex,
BitcoinAddressType? initialAddressPageType,
}) : _addresses = ObservableList<BitcoinAddressRecord>.of((initialAddresses ?? []).toSet()),
addressesByReceiveType =
ObservableList<BitcoinAddressRecord>.of((<BitcoinAddressRecord>[]).toSet()),
receiveAddresses = ObservableList<BitcoinAddressRecord>.of((initialAddresses ?? [])
.where((addressRecord) => !addressRecord.isHidden && !addressRecord.isUsed)
.toSet()),
changeAddresses = ObservableList<BitcoinAddressRecord>.of((initialAddresses ?? [])
.where((addressRecord) => addressRecord.isHidden && !addressRecord.isUsed)
.toSet()),
currentReceiveAddressIndexByType = initialRegularAddressIndex ?? {},
currentChangeAddressIndexByType = initialChangeAddressIndex ?? {},
_addressPageType = initialAddressPageType ??
(walletInfo.addressPageType != null
? BitcoinAddressType.fromValue(walletInfo.addressPageType!)
: SegwitAddresType.p2wpkh),
super(walletInfo) {
updateAddressesByMatch();
}
static const defaultReceiveAddressesCount = 22;
static const defaultChangeAddressesCount = 17;
static const gap = 20;
final ObservableList<BitcoinAddressRecord> _addresses;
// Matched by addressPageType
late ObservableList<BitcoinAddressRecord> addressesByReceiveType;
final ObservableList<BitcoinAddressRecord> receiveAddresses;
final ObservableList<BitcoinAddressRecord> changeAddresses;
final ElectrumClient electrumClient;
final BasedUtxoNetwork network;
final bitcoin.HDWallet mainHd;
final bitcoin.HDWallet sideHd;
@observable
late BitcoinAddressType _addressPageType;
@computed
BitcoinAddressType get addressPageType => _addressPageType;
@computed
List<BitcoinAddressRecord> get allAddresses => _addresses;
@override
@computed
String get address {
String receiveAddress;
final typeMatchingReceiveAddresses = receiveAddresses.where(_isAddressPageTypeMatch);
if ((isEnabledAutoGenerateSubaddress && receiveAddresses.isEmpty) ||
typeMatchingReceiveAddresses.isEmpty) {
receiveAddress = generateNewAddress().address;
} else {
final previousAddressMatchesType =
previousAddressRecord != null && previousAddressRecord!.type == addressPageType;
if (previousAddressMatchesType &&
typeMatchingReceiveAddresses.first.address != addressesByReceiveType.first.address) {
receiveAddress = previousAddressRecord!.address;
} else {
receiveAddress = typeMatchingReceiveAddresses.first.address;
}
}
return receiveAddress;
}
@observable
bool isEnabledAutoGenerateSubaddress = true;
@override
set address(String addr) {
final addressRecord = _addresses.firstWhere((addressRecord) => addressRecord.address == addr);
previousAddressRecord = addressRecord;
receiveAddresses.remove(addressRecord);
receiveAddresses.insert(0, addressRecord);
}
@override
String get primaryAddress => getAddress(index: 0, hd: mainHd, addressType: addressPageType);
Map<String, int> currentReceiveAddressIndexByType;
int get currentReceiveAddressIndex =>
currentReceiveAddressIndexByType[_addressPageType.toString()] ?? 0;
void set currentReceiveAddressIndex(int index) =>
currentReceiveAddressIndexByType[_addressPageType.toString()] = index;
Map<String, int> currentChangeAddressIndexByType;
int get currentChangeAddressIndex =>
currentChangeAddressIndexByType[_addressPageType.toString()] ?? 0;
void set currentChangeAddressIndex(int index) =>
currentChangeAddressIndexByType[_addressPageType.toString()] = index;
@observable
BitcoinAddressRecord? previousAddressRecord;
@computed
int get totalCountOfReceiveAddresses => addressesByReceiveType.fold(0, (acc, addressRecord) {
if (!addressRecord.isHidden) {
return acc + 1;
}
return acc;
});
@computed
int get totalCountOfChangeAddresses => addressesByReceiveType.fold(0, (acc, addressRecord) {
if (addressRecord.isHidden) {
return acc + 1;
}
return acc;
});
@override
Future<void> init() async {
if (walletInfo.type == WalletType.bitcoinCash) {
await _generateInitialAddresses(type: P2pkhAddressType.p2pkh);
} else if (walletInfo.type == WalletType.litecoin) {
await _generateInitialAddresses();
} else if (walletInfo.type == WalletType.bitcoin) {
await _generateInitialAddresses();
await _generateInitialAddresses(type: P2pkhAddressType.p2pkh);
await _generateInitialAddresses(type: P2shAddressType.p2wpkhInP2sh);
await _generateInitialAddresses(type: SegwitAddresType.p2tr);
await _generateInitialAddresses(type: SegwitAddresType.p2wsh);
}
updateAddressesByMatch();
updateReceiveAddresses();
updateChangeAddresses();
await updateAddressesInBox();
if (currentReceiveAddressIndex >= receiveAddresses.length) {
currentReceiveAddressIndex = 0;
}
if (currentChangeAddressIndex >= changeAddresses.length) {
currentChangeAddressIndex = 0;
}
}
@action
Future<String> getChangeAddress() async {
updateChangeAddresses();
if (changeAddresses.isEmpty) {
final newAddresses = await _createNewAddresses(gap,
startIndex: totalCountOfChangeAddresses > 0 ? totalCountOfChangeAddresses - 1 : 0,
isHidden: true);
addAddresses(newAddresses);
}
if (currentChangeAddressIndex >= changeAddresses.length) {
currentChangeAddressIndex = 0;
}
updateChangeAddresses();
final address = changeAddresses[currentChangeAddressIndex].address;
currentChangeAddressIndex += 1;
return address;
}
BitcoinAddressRecord generateNewAddress({String label = ''}) {
final newAddressIndex = addressesByReceiveType.fold(
0, (int acc, addressRecord) => addressRecord.isHidden == false ? acc + 1 : acc);
final address = BitcoinAddressRecord(
getAddress(index: newAddressIndex, hd: mainHd, addressType: addressPageType),
index: newAddressIndex,
isHidden: false,
name: label,
type: addressPageType,
network: network,
);
_addresses.add(address);
updateAddressesByMatch();
return address;
}
String getAddress(
{required int index, required bitcoin.HDWallet hd, BitcoinAddressType? addressType}) =>
'';
@override
Future<void> updateAddressesInBox() async {
try {
addressesMap.clear();
addressesMap[address] = '';
await saveAddressesInBox();
} catch (e) {
print(e.toString());
}
}
@action
void updateAddress(String address, String label) {
final addressRecord =
_addresses.firstWhere((addressRecord) => addressRecord.address == address);
addressRecord.setNewName(label);
final index = _addresses.indexOf(addressRecord);
_addresses.remove(addressRecord);
_addresses.insert(index, addressRecord);
}
@action
void updateAddressesByMatch() {
addressesByReceiveType.clear();
addressesByReceiveType.addAll(_addresses.where(_isAddressPageTypeMatch).toList());
}
@action
void updateReceiveAddresses() {
receiveAddresses.removeRange(0, receiveAddresses.length);
final newAddresses =
_addresses.where((addressRecord) => !addressRecord.isHidden && !addressRecord.isUsed);
receiveAddresses.addAll(newAddresses);
}
@action
void updateChangeAddresses() {
changeAddresses.removeRange(0, changeAddresses.length);
final newAddresses = _addresses.where((addressRecord) =>
addressRecord.isHidden &&
!addressRecord.isUsed &&
// TODO: feature to change change address type. For now fixed to p2wpkh, the cheapest type
(walletInfo.type != WalletType.bitcoin || addressRecord.type == SegwitAddresType.p2wpkh));
changeAddresses.addAll(newAddresses);
}
@action
Future<void> discoverAddresses(List<BitcoinAddressRecord> addressList, bool isHidden,
Future<String?> Function(BitcoinAddressRecord, Set<String>) getAddressHistory,
{BitcoinAddressType type = SegwitAddresType.p2wpkh}) async {
if (!isHidden) {
_validateSideHdAddresses(addressList.toList());
}
final newAddresses = await _createNewAddresses(gap,
startIndex: addressList.length, isHidden: isHidden, type: type);
addAddresses(newAddresses);
final addressesWithHistory = await Future.wait(newAddresses
.map((addr) => getAddressHistory(addr, _addresses.map((e) => e.address).toSet())));
final isLastAddressUsed = addressesWithHistory.last == addressList.last.address;
if (isLastAddressUsed) {
discoverAddresses(addressList, isHidden, getAddressHistory, type: type);
}
}
Future<void> _generateInitialAddresses(
{BitcoinAddressType type = SegwitAddresType.p2wpkh}) async {
var countOfReceiveAddresses = 0;
var countOfHiddenAddresses = 0;
_addresses.forEach((addr) {
if (addr.type == type) {
if (addr.isHidden) {
countOfHiddenAddresses += 1;
return;
}
countOfReceiveAddresses += 1;
}
});
if (countOfReceiveAddresses < defaultReceiveAddressesCount) {
final addressesCount = defaultReceiveAddressesCount - countOfReceiveAddresses;
final newAddresses = await _createNewAddresses(addressesCount,
startIndex: countOfReceiveAddresses, isHidden: false, type: type);
addAddresses(newAddresses);
}
if (countOfHiddenAddresses < defaultChangeAddressesCount) {
final addressesCount = defaultChangeAddressesCount - countOfHiddenAddresses;
final newAddresses = await _createNewAddresses(addressesCount,
startIndex: countOfHiddenAddresses, isHidden: true, type: type);
addAddresses(newAddresses);
}
}
Future<List<BitcoinAddressRecord>> _createNewAddresses(int count,
{int startIndex = 0, bool isHidden = false, BitcoinAddressType? type}) async {
final list = <BitcoinAddressRecord>[];
for (var i = startIndex; i < count + startIndex; i++) {
final address = BitcoinAddressRecord(
getAddress(index: i, hd: _getHd(isHidden), addressType: type ?? addressPageType),
index: i,
isHidden: isHidden,
type: type ?? addressPageType,
network: network,
);
list.add(address);
}
return list;
}
@action
void addAddresses(Iterable<BitcoinAddressRecord> addresses) {
final addressesSet = this._addresses.toSet();
addressesSet.addAll(addresses);
this._addresses.clear();
this._addresses.addAll(addressesSet);
updateAddressesByMatch();
}
void _validateSideHdAddresses(List<BitcoinAddressRecord> addrWithTransactions) {
addrWithTransactions.forEach((element) {
if (element.address !=
getAddress(index: element.index, hd: mainHd, addressType: element.type))
element.isHidden = true;
});
}
@action
Future<void> setAddressType(BitcoinAddressType type) async {
_addressPageType = type;
updateAddressesByMatch();
walletInfo.addressPageType = addressPageType.toString();
await walletInfo.save();
}
bool _isAddressPageTypeMatch(BitcoinAddressRecord addressRecord) {
return _isAddressByType(addressRecord, addressPageType);
}
bitcoin.HDWallet _getHd(bool isHidden) => isHidden ? sideHd : mainHd;
bool _isAddressByType(BitcoinAddressRecord addr, BitcoinAddressType type) => addr.type == type;
}