cake_wallet/cw_bitcoin/lib/litecoin_wallet_addresses.dart
Matthew Fosse 35d7909a0e
Update litecoin_wallet_addresses.dart
Co-authored-by: Omar Hatem <omarh.ismail1@gmail.com>
2024-10-31 20:08:50 -07:00

211 lines
6.3 KiB
Dart

import 'dart:async';
import 'dart:io' show Platform;
import 'dart:typed_data';
import 'package:bitcoin_base/bitcoin_base.dart';
import 'package:blockchain_utils/blockchain_utils.dart';
import 'package:cw_bitcoin/bitcoin_address_record.dart';
import 'package:cw_bitcoin/bitcoin_unspent.dart';
import 'package:cw_bitcoin/electrum_wallet.dart';
import 'package:cw_bitcoin/utils.dart';
import 'package:cw_bitcoin/electrum_wallet_addresses.dart';
import 'package:cw_core/wallet_info.dart';
import 'package:cw_mweb/cw_mweb.dart';
import 'package:flutter/foundation.dart';
import 'package:mobx/mobx.dart';
part 'litecoin_wallet_addresses.g.dart';
class LitecoinWalletAddresses = LitecoinWalletAddressesBase with _$LitecoinWalletAddresses;
abstract class LitecoinWalletAddressesBase extends ElectrumWalletAddresses with Store {
LitecoinWalletAddressesBase(
WalletInfo walletInfo, {
required super.mainHd,
required super.sideHd,
required super.network,
required super.isHardwareWallet,
required this.mwebHd,
required this.mwebEnabled,
super.initialAddresses,
super.initialMwebAddresses,
super.initialRegularAddressIndex,
super.initialChangeAddressIndex,
}) : super(walletInfo) {
for (int i = 0; i < mwebAddresses.length; i++) {
mwebAddrs.add(mwebAddresses[i].address);
}
print("initialized with ${mwebAddrs.length} mweb addresses");
}
final Bip32Slip10Secp256k1? mwebHd;
bool mwebEnabled;
int mwebTopUpIndex = 1000;
List<String> mwebAddrs = [];
bool generating = false;
List<int> get scanSecret => mwebHd!.childKey(Bip32KeyIndex(0x80000000)).privateKey.privKey.raw;
List<int> get spendPubkey =>
mwebHd!.childKey(Bip32KeyIndex(0x80000001)).publicKey.pubKey.compressed;
@override
Future<void> init() async {
if (!isHardwareWallet) await initMwebAddresses();
await super.init();
}
@computed
@override
List<BitcoinAddressRecord> get allAddresses {
return List.from(super.allAddresses)..addAll(mwebAddresses);
}
Future<void> ensureMwebAddressUpToIndexExists(int index) async {
if (Platform.isLinux || Platform.isMacOS || Platform.isWindows) {
return null;
}
Uint8List scan = Uint8List.fromList(scanSecret);
Uint8List spend = Uint8List.fromList(spendPubkey);
if (index < mwebAddresses.length && index < mwebAddrs.length) {
return;
}
while (generating) {
print("generating.....");
// this function was called multiple times in multiple places:
await Future.delayed(const Duration(milliseconds: 100));
}
print("Generating MWEB addresses up to index $index");
generating = true;
try {
while (mwebAddrs.length <= (index + 1)) {
final addresses =
await CwMweb.addresses(scan, spend, mwebAddrs.length, mwebAddrs.length + 50);
print("generated up to index ${mwebAddrs.length}");
// sleep for a bit to avoid making the main thread unresponsive:
await Future.delayed(Duration(milliseconds: 200));
mwebAddrs.addAll(addresses!);
}
} catch (_) {}
generating = false;
print("Done generating MWEB addresses len: ${mwebAddrs.length}");
// ensure mweb addresses are up to date:
// This is the Case if the Litecoin Wallet is a hardware Wallet
if (mwebHd == null) return;
if (mwebAddresses.length < mwebAddrs.length) {
List<BitcoinAddressRecord> addressRecords = mwebAddrs
.asMap()
.entries
.map((e) => BitcoinAddressRecord(
e.value,
index: e.key,
type: SegwitAddresType.mweb,
network: network,
))
.toList();
addMwebAddresses(addressRecords);
print("set ${addressRecords.length} mweb addresses");
}
}
Future<void> initMwebAddresses() async {
if (mwebAddrs.length < 1000) {
await ensureMwebAddressUpToIndexExists(20);
return;
}
}
@override
String getAddress({
required int index,
required Bip32Slip10Secp256k1 hd,
BitcoinAddressType? addressType,
}) {
if (addressType == SegwitAddresType.mweb) {
return hd == sideHd ? mwebAddrs[0] : mwebAddrs[index + 1];
}
return generateP2WPKHAddress(hd: hd, index: index, network: network);
}
@override
Future<String> getAddressAsync({
required int index,
required Bip32Slip10Secp256k1 hd,
BitcoinAddressType? addressType,
}) async {
if (addressType == SegwitAddresType.mweb) {
await ensureMwebAddressUpToIndexExists(index);
}
return getAddress(index: index, hd: hd, addressType: addressType);
}
@action
@override
Future<BitcoinAddressRecord> getChangeAddress(
{List<BitcoinUnspent>? inputs, List<BitcoinOutput>? outputs, bool isPegIn = false}) async {
// use regular change address on peg in, otherwise use mweb for change address:
if (!mwebEnabled || isPegIn) {
return super.getChangeAddress();
}
if (inputs != null && outputs != null) {
// check if this is a PEGIN:
bool outputsToMweb = false;
bool comesFromMweb = false;
for (var i = 0; i < outputs.length; i++) {
// TODO: probably not the best way to tell if this is an mweb address
// (but it doesn't contain the "mweb" text at this stage)
if (outputs[i].address.toAddress(network).length > 110) {
outputsToMweb = true;
}
}
inputs.forEach((element) {
if (!element.isSending || element.isFrozen) {
return;
}
if (element.address.contains("mweb")) {
comesFromMweb = true;
}
});
bool isPegIn = !comesFromMweb && outputsToMweb;
if (isPegIn && mwebEnabled) {
return super.getChangeAddress();
}
// use regular change address if it's not an mweb tx:
if (!comesFromMweb && !outputsToMweb) {
return super.getChangeAddress();
}
}
if (mwebEnabled) {
await ensureMwebAddressUpToIndexExists(1);
return BitcoinAddressRecord(
mwebAddrs[0],
index: 0,
type: SegwitAddresType.mweb,
network: network,
);
}
return super.getChangeAddress();
}
@override
String get addressForExchange {
// don't use mweb addresses for exchange refund address:
final addresses = receiveAddresses
.where((element) => element.type == SegwitAddresType.p2wpkh && !element.isUsed);
return addresses.first.address;
}
}