cake_wallet/lib/bitcoin/cw_bitcoin.dart
2024-04-12 20:02:46 -03:00

389 lines
13 KiB
Dart

part of 'bitcoin.dart';
class CWBitcoin extends Bitcoin {
@override
TransactionPriority getMediumTransactionPriority() => BitcoinTransactionPriority.medium;
@override
WalletCredentials createBitcoinRestoreWalletFromSeedCredentials(
{required String name, required String mnemonic, required String password}) =>
BitcoinRestoreWalletFromSeedCredentials(name: name, mnemonic: mnemonic, password: password);
@override
WalletCredentials createBitcoinRestoreWalletFromWIFCredentials(
{required String name,
required String password,
required String wif,
WalletInfo? walletInfo}) =>
BitcoinRestoreWalletFromWIFCredentials(
name: name, password: password, wif: wif, walletInfo: walletInfo);
@override
WalletCredentials createBitcoinNewWalletCredentials(
{required String name, WalletInfo? walletInfo}) =>
BitcoinNewWalletCredentials(name: name, walletInfo: walletInfo);
@override
List<String> getWordList() => wordlist;
@override
Map<String, String> getWalletKeys(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
final keys = bitcoinWallet.keys;
return <String, String>{
'wif': keys.wif,
'privateKey': keys.privateKey,
'publicKey': keys.publicKey
};
}
@override
List<TransactionPriority> getTransactionPriorities() => BitcoinTransactionPriority.all;
@override
List<TransactionPriority> getLitecoinTransactionPriorities() => LitecoinTransactionPriority.all;
@override
TransactionPriority deserializeBitcoinTransactionPriority(int raw) =>
BitcoinTransactionPriority.deserialize(raw: raw);
@override
TransactionPriority deserializeLitecoinTransactionPriority(int raw) =>
LitecoinTransactionPriority.deserialize(raw: raw);
@override
int getFeeRate(Object wallet, TransactionPriority priority) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.feeRate(priority);
}
@override
Future<void> generateNewAddress(Object wallet, String label) async {
final bitcoinWallet = wallet as ElectrumWallet;
await bitcoinWallet.walletAddresses.generateNewAddress(label: label);
await wallet.save();
}
@override
Future<void> updateAddress(Object wallet, String address, String label) async {
final bitcoinWallet = wallet as ElectrumWallet;
bitcoinWallet.walletAddresses.updateAddress(address, label);
await wallet.save();
}
@override
Object createBitcoinTransactionCredentials(List<Output> outputs,
{required TransactionPriority priority, int? feeRate}) {
final bitcoinFeeRate =
priority == BitcoinTransactionPriority.custom && feeRate != null ? feeRate : null;
return BitcoinTransactionCredentials(
outputs
.map((out) => OutputInfo(
fiatAmount: out.fiatAmount,
cryptoAmount: out.cryptoAmount,
address: out.address,
note: out.note,
sendAll: out.sendAll,
extractedAddress: out.extractedAddress,
isParsedAddress: out.isParsedAddress,
formattedCryptoAmount: out.formattedCryptoAmount,
memo: out.memo))
.toList(),
priority: priority as BitcoinTransactionPriority,
feeRate: bitcoinFeeRate);
}
@override
Object createBitcoinTransactionCredentialsRaw(List<OutputInfo> outputs,
{TransactionPriority? priority, required int feeRate}) =>
BitcoinTransactionCredentials(outputs,
priority: priority != null ? priority as BitcoinTransactionPriority : null,
feeRate: feeRate);
@override
List<String> getAddresses(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.walletAddresses.addressesByReceiveType
.map((BaseBitcoinAddressRecord addr) => addr.address)
.toList();
}
@override
@computed
List<ElectrumSubAddress> getSubAddresses(Object wallet) {
final electrumWallet = wallet as ElectrumWallet;
return electrumWallet.walletAddresses.addressesByReceiveType
.map((BaseBitcoinAddressRecord addr) => ElectrumSubAddress(
id: addr.index,
name: addr.name,
address: addr.address,
txCount: addr.txCount,
balance: addr.balance,
isChange: addr.isHidden))
.toList();
}
@override
Future<int> estimateFakeSendAllTxAmount(Object wallet, TransactionPriority priority) async {
try {
final sk = ECPrivate.random();
final electrumWallet = wallet as ElectrumWallet;
if (wallet.type == WalletType.bitcoinCash) {
final p2pkhAddr = sk.getPublic().toP2pkhAddress();
final estimatedTx = await electrumWallet.estimateSendAllTx(
[BitcoinOutput(address: p2pkhAddr, value: BigInt.zero)],
getFeeRate(wallet, priority as BitcoinCashTransactionPriority),
);
return estimatedTx.amount;
}
final p2shAddr = sk.getPublic().toP2pkhInP2sh();
final estimatedTx = await electrumWallet.estimateSendAllTx(
[BitcoinOutput(address: p2shAddr, value: BigInt.zero)],
getFeeRate(
wallet,
wallet.type == WalletType.litecoin
? priority as LitecoinTransactionPriority
: priority as BitcoinTransactionPriority,
),
);
return estimatedTx.amount;
} catch (_) {
return 0;
}
}
@override
String getAddress(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.walletAddresses.address;
}
@override
String formatterBitcoinAmountToString({required int amount}) =>
bitcoinAmountToString(amount: amount);
@override
double formatterBitcoinAmountToDouble({required int amount}) =>
bitcoinAmountToDouble(amount: amount);
@override
int formatterStringDoubleToBitcoinAmount(String amount) => stringDoubleToBitcoinAmount(amount);
@override
String bitcoinTransactionPriorityWithLabel(TransactionPriority priority, int rate,
{int? customRate}) =>
(priority as BitcoinTransactionPriority).labelWithRate(rate, customRate);
@override
List<BitcoinUnspent> getUnspents(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.unspentCoins;
}
Future<void> updateUnspents(Object wallet) async {
final bitcoinWallet = wallet as ElectrumWallet;
await bitcoinWallet.updateUnspent();
}
WalletService createBitcoinWalletService(
Box<WalletInfo> walletInfoSource, Box<UnspentCoinsInfo> unspentCoinSource) {
return BitcoinWalletService(walletInfoSource, unspentCoinSource);
}
WalletService createLitecoinWalletService(
Box<WalletInfo> walletInfoSource, Box<UnspentCoinsInfo> unspentCoinSource) {
return LitecoinWalletService(walletInfoSource, unspentCoinSource);
}
@override
TransactionPriority getBitcoinTransactionPriorityMedium() => BitcoinTransactionPriority.medium;
@override
TransactionPriority getBitcoinTransactionPriorityCustom() => BitcoinTransactionPriority.custom;
@override
TransactionPriority getLitecoinTransactionPriorityMedium() => LitecoinTransactionPriority.medium;
@override
TransactionPriority getBitcoinTransactionPrioritySlow() => BitcoinTransactionPriority.slow;
@override
TransactionPriority getLitecoinTransactionPrioritySlow() => LitecoinTransactionPriority.slow;
@override
Future<void> setAddressType(Object wallet, dynamic option) async {
final bitcoinWallet = wallet as ElectrumWallet;
await bitcoinWallet.walletAddresses.setAddressType(option as BitcoinAddressType);
}
@override
BitcoinReceivePageOption getSelectedAddressType(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return BitcoinReceivePageOption.fromType(bitcoinWallet.walletAddresses.addressPageType);
}
@override
bool hasSelectedSilentPayments(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.walletAddresses.addressPageType == SilentPaymentsAddresType.p2sp;
}
@override
List<BitcoinReceivePageOption> getBitcoinReceivePageOptions() => BitcoinReceivePageOption.all;
@override
BitcoinAddressType getBitcoinAddressType(ReceivePageOption option) {
switch (option) {
case BitcoinReceivePageOption.p2pkh:
return P2pkhAddressType.p2pkh;
case BitcoinReceivePageOption.p2sh:
return P2shAddressType.p2wpkhInP2sh;
case BitcoinReceivePageOption.p2tr:
return SegwitAddresType.p2tr;
case BitcoinReceivePageOption.p2wsh:
return SegwitAddresType.p2wsh;
case BitcoinReceivePageOption.p2wpkh:
default:
return SegwitAddresType.p2wpkh;
}
}
@override
bool hasTaprootInput(PendingTransaction pendingTransaction) {
return (pendingTransaction as PendingBitcoinTransaction).hasTaprootInputs;
}
@override
Future<PendingBitcoinTransaction> replaceByFee(
Object wallet, String transactionHash, String fee) async {
final bitcoinWallet = wallet as ElectrumWallet;
return await bitcoinWallet.replaceByFee(transactionHash, int.parse(fee));
}
@override
Future<bool> canReplaceByFee(Object wallet, String transactionHash) async {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.canReplaceByFee(transactionHash);
}
@override
Future<bool> isChangeSufficientForFee(Object wallet, String txId, String newFee) async {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.isChangeSufficientForFee(txId, int.parse(newFee));
}
@override
int getFeeAmountForPriority(
Object wallet, TransactionPriority priority, int inputsCount, int outputsCount,
{int? size}) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.feeAmountForPriority(
priority as BitcoinTransactionPriority, inputsCount, outputsCount);
}
@override
int getFeeAmountWithFeeRate(Object wallet, int feeRate, int inputsCount, int outputsCount,
{int? size}) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.feeAmountWithFeeRate(
feeRate,
inputsCount,
outputsCount,
);
}
@override
List<BitcoinSilentPaymentAddressRecord> getSilentPaymentAddresses(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.walletAddresses.silentAddresses
.where((addr) => addr.type != SegwitAddresType.p2tr)
.toList();
}
@override
List<BitcoinSilentPaymentAddressRecord> getSilentPaymentReceivedAddresses(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.walletAddresses.silentAddresses
.where((addr) => addr.type == SegwitAddresType.p2tr)
.toList();
}
@override
bool isBitcoinReceivePageOption(ReceivePageOption option) {
return option is BitcoinReceivePageOption;
}
@override
BitcoinAddressType getOptionToType(ReceivePageOption option) {
return (option as BitcoinReceivePageOption).toType();
}
@override
@computed
bool getScanningActive(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.silentPaymentsScanningActive;
}
@override
Future<void> setScanningActive(Object wallet, bool active) async {
final bitcoinWallet = wallet as ElectrumWallet;
// TODO: always when setting to scanning active, will force switch nodes. Remove when not needed anymore
if (!getNodeIsCakeElectrs(wallet)) {
final node = Node(
useSSL: false,
uri: '198.58.111.154:${(wallet.network == BitcoinNetwork.testnet ? 50002 : 50001)}',
);
node.type = WalletType.bitcoin;
await bitcoinWallet.connectToNode(node: node);
}
bitcoinWallet.setSilentPaymentsScanning(active);
}
@override
bool isTestnet(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
return bitcoinWallet.isTestnet ?? false;
}
@override
int getHeightByDate({required DateTime date}) => getBitcoinHeightByDate(date: date);
@override
Future<void> rescan(Object wallet, {required int height, bool? doSingleScan}) async {
final bitcoinWallet = wallet as ElectrumWallet;
// TODO: always when setting to scanning active, will force switch nodes. Remove when not needed anymore
if (!getNodeIsCakeElectrs(wallet)) {
final node = Node(
useSSL: false,
uri: '198.58.111.154:${(wallet.network == BitcoinNetwork.testnet ? 50002 : 50001)}',
);
node.type = WalletType.bitcoin;
await bitcoinWallet.connectToNode(node: node);
}
bitcoinWallet.rescan(height: height, doSingleScan: doSingleScan);
}
@override
bool getNodeIsCakeElectrs(Object wallet) {
final bitcoinWallet = wallet as ElectrumWallet;
final node = bitcoinWallet.node;
return node?.uri.host == '198.58.111.154' &&
node?.uri.port == (wallet.network == BitcoinNetwork.testnet ? 50002 : 50001);
}
@override
void deleteSilentPaymentAddress(Object wallet, String address) {
final bitcoinWallet = wallet as ElectrumWallet;
bitcoinWallet.walletAddresses.deleteSilentPaymentAddress(address);
}
}