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cake_wallet/cw_bitcoin/lib/bitcoin_wallet.dart
Konstantin Ullrich a30c0bec55
Merge remote-tracking branch 'origin/CW-679-Add-Ledger-Litecoin-Support' into CW-679-Add-Ledger-Litecoin-Support 
# Conflicts:
#	cw_bitcoin/lib/electrum_wallet.dart
#	cw_bitcoin/lib/litecoin_wallet.dart
#	cw_bitcoin/pubspec.lock
#	pubspec_base.yaml
2024-09-16 14:18:36 +02:00

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import 'dart:convert';
import 'package:bip39/bip39.dart' as bip39;
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_mnemonic.dart';
import 'package:cw_bitcoin/psbt_transaction_builder.dart';
import 'package:cw_core/encryption_file_utils.dart';
import 'package:cw_bitcoin/electrum_derivations.dart';
import 'package:cw_bitcoin/bitcoin_wallet_addresses.dart';
import 'package:cw_bitcoin/electrum_balance.dart';
import 'package:cw_bitcoin/electrum_wallet.dart';
import 'package:cw_bitcoin/electrum_wallet_snapshot.dart';
import 'package:cw_core/crypto_currency.dart';
import 'package:cw_core/unspent_coins_info.dart';
import 'package:cw_core/wallet_info.dart';
import 'package:cw_core/wallet_keys_file.dart';
import 'package:flutter/foundation.dart';
import 'package:hive/hive.dart';
import 'package:ledger_bitcoin/ledger_bitcoin.dart';
import 'package:ledger_flutter_plus/ledger_flutter_plus.dart';
import 'package:mobx/mobx.dart';
part 'bitcoin_wallet.g.dart';
class BitcoinWallet = BitcoinWalletBase with _$BitcoinWallet;
abstract class BitcoinWalletBase extends ElectrumWallet with Store {
BitcoinWalletBase({
required String password,
required WalletInfo walletInfo,
required Box<UnspentCoinsInfo> unspentCoinsInfo,
required EncryptionFileUtils encryptionFileUtils,
Uint8List? seedBytes,
String? mnemonic,
String? xpub,
String? addressPageType,
BasedUtxoNetwork? networkParam,
List<BitcoinAddressRecord>? initialAddresses,
ElectrumBalance? initialBalance,
Map<String, int>? initialRegularAddressIndex,
Map<String, int>? initialChangeAddressIndex,
String? passphrase,
List<BitcoinSilentPaymentAddressRecord>? initialSilentAddresses,
int initialSilentAddressIndex = 0,
bool? alwaysScan,
}) : super(
mnemonic: mnemonic,
passphrase: passphrase,
xpub: xpub,
password: password,
walletInfo: walletInfo,
unspentCoinsInfo: unspentCoinsInfo,
network: networkParam == null
? BitcoinNetwork.mainnet
: networkParam == BitcoinNetwork.mainnet
? BitcoinNetwork.mainnet
: BitcoinNetwork.testnet,
initialAddresses: initialAddresses,
initialBalance: initialBalance,
seedBytes: seedBytes,
encryptionFileUtils: encryptionFileUtils,
currency: networkParam == BitcoinNetwork.testnet
? CryptoCurrency.tbtc
: CryptoCurrency.btc,
alwaysScan: alwaysScan,
) {
// in a standard BIP44 wallet, mainHd derivation path = m/84'/0'/0'/0 (account 0, index unspecified here)
// the sideHd derivation path = m/84'/0'/0'/1 (account 1, index unspecified here)
// String derivationPath = walletInfo.derivationInfo!.derivationPath!;
// String sideDerivationPath = derivationPath.substring(0, derivationPath.length - 1) + "1";
// final hd = bitcoin.HDWallet.fromSeed(seedBytes, network: networkType);
walletAddresses = BitcoinWalletAddresses(
walletInfo,
initialAddresses: initialAddresses,
initialRegularAddressIndex: initialRegularAddressIndex,
initialChangeAddressIndex: initialChangeAddressIndex,
initialSilentAddresses: initialSilentAddresses,
initialSilentAddressIndex: initialSilentAddressIndex,
mainHd: hd,
sideHd: accountHD.childKey(Bip32KeyIndex(1)),
network: networkParam ?? network,
masterHd:
seedBytes != null ? Bip32Slip10Secp256k1.fromSeed(seedBytes) : null,
);
autorun((_) {
this.walletAddresses.isEnabledAutoGenerateSubaddress =
this.isEnabledAutoGenerateSubaddress;
});
}
static Future<BitcoinWallet> create({
required String mnemonic,
required String password,
required WalletInfo walletInfo,
required Box<UnspentCoinsInfo> unspentCoinsInfo,
required EncryptionFileUtils encryptionFileUtils,
String? passphrase,
String? addressPageType,
BasedUtxoNetwork? network,
List<BitcoinAddressRecord>? initialAddresses,
List<BitcoinSilentPaymentAddressRecord>? initialSilentAddresses,
ElectrumBalance? initialBalance,
Map<String, int>? initialRegularAddressIndex,
Map<String, int>? initialChangeAddressIndex,
int initialSilentAddressIndex = 0,
}) async {
late Uint8List seedBytes;
switch (walletInfo.derivationInfo?.derivationType) {
case DerivationType.bip39:
seedBytes = await bip39.mnemonicToSeed(
mnemonic,
passphrase: passphrase ?? "",
);
break;
case DerivationType.electrum:
default:
seedBytes = await mnemonicToSeedBytes(mnemonic, passphrase: passphrase ?? "");
break;
}
return BitcoinWallet(
mnemonic: mnemonic,
passphrase: passphrase ?? "",
password: password,
walletInfo: walletInfo,
unspentCoinsInfo: unspentCoinsInfo,
initialAddresses: initialAddresses,
initialSilentAddresses: initialSilentAddresses,
initialSilentAddressIndex: initialSilentAddressIndex,
initialBalance: initialBalance,
encryptionFileUtils: encryptionFileUtils,
seedBytes: seedBytes,
initialRegularAddressIndex: initialRegularAddressIndex,
initialChangeAddressIndex: initialChangeAddressIndex,
addressPageType: addressPageType,
networkParam: network,
);
}
static Future<BitcoinWallet> open({
required String name,
required WalletInfo walletInfo,
required Box<UnspentCoinsInfo> unspentCoinsInfo,
required String password,
required EncryptionFileUtils encryptionFileUtils,
required bool alwaysScan,
}) async {
final network = walletInfo.network != null
? BasedUtxoNetwork.fromName(walletInfo.network!)
: BitcoinNetwork.mainnet;
final hasKeysFile = await WalletKeysFile.hasKeysFile(name, walletInfo.type);
ElectrumWalletSnapshot? snp = null;
try {
snp = await ElectrumWalletSnapshot.load(
encryptionFileUtils,
name,
walletInfo.type,
password,
network,
);
} catch (e) {
if (!hasKeysFile) rethrow;
}
final WalletKeysData keysData;
// Migrate wallet from the old scheme to then new .keys file scheme
if (!hasKeysFile) {
keysData = WalletKeysData(
mnemonic: snp!.mnemonic,
xPub: snp.xpub,
passphrase: snp.passphrase,
);
} else {
keysData = await WalletKeysFile.readKeysFile(
name,
walletInfo.type,
password,
encryptionFileUtils,
);
}
walletInfo.derivationInfo ??= DerivationInfo();
// set the default if not present:
walletInfo.derivationInfo!.derivationPath ??=
snp?.derivationPath ?? electrum_path;
walletInfo.derivationInfo!.derivationType ??=
snp?.derivationType ?? DerivationType.electrum;
Uint8List? seedBytes = null;
final mnemonic = keysData.mnemonic;
final passphrase = keysData.passphrase;
if (mnemonic != null) {
switch (walletInfo.derivationInfo!.derivationType) {
case DerivationType.electrum:
seedBytes = await mnemonicToSeedBytes(mnemonic, passphrase: passphrase ?? "");
break;
case DerivationType.bip39:
default:
seedBytes = await bip39.mnemonicToSeed(
mnemonic,
passphrase: passphrase ?? '',
);
break;
}
}
return BitcoinWallet(
mnemonic: mnemonic,
xpub: keysData.xPub,
password: password,
passphrase: passphrase,
walletInfo: walletInfo,
unspentCoinsInfo: unspentCoinsInfo,
initialAddresses: snp?.addresses,
initialSilentAddresses: snp?.silentAddresses,
initialSilentAddressIndex: snp?.silentAddressIndex ?? 0,
initialBalance: snp?.balance,
encryptionFileUtils: encryptionFileUtils,
seedBytes: seedBytes,
initialRegularAddressIndex: snp?.regularAddressIndex,
initialChangeAddressIndex: snp?.changeAddressIndex,
addressPageType: snp?.addressPageType,
networkParam: network,
alwaysScan: alwaysScan,
);
}
LedgerConnection? _ledgerConnection;
BitcoinLedgerApp? _bitcoinLedgerApp;
@override
void setLedgerConnection(LedgerConnection connection) {
_ledgerConnection = connection;
_bitcoinLedgerApp = BitcoinLedgerApp(_ledgerConnection!,
derivationPath: walletInfo.derivationInfo!.derivationPath!);
}
@override
Future<BtcTransaction> buildHardwareWalletTransaction({
required List<BitcoinBaseOutput> outputs,
required BigInt fee,
required BasedUtxoNetwork network,
required List<UtxoWithAddress> utxos,
required Map<String, PublicKeyWithDerivationPath> publicKeys,
String? memo,
bool enableRBF = false,
BitcoinOrdering inputOrdering = BitcoinOrdering.bip69,
BitcoinOrdering outputOrdering = BitcoinOrdering.bip69,
}) async {
final masterFingerprint = await _bitcoinLedgerApp!.getMasterFingerprint();
final psbtReadyInputs = <PSBTReadyUtxoWithAddress>[];
for (final utxo in utxos) {
final rawTx =
await electrumClient.getTransactionHex(hash: utxo.utxo.txHash);
final publicKeyAndDerivationPath =
publicKeys[utxo.ownerDetails.address.pubKeyHash()]!;
psbtReadyInputs.add(PSBTReadyUtxoWithAddress(
utxo: utxo.utxo,
rawTx: rawTx,
ownerDetails: utxo.ownerDetails,
ownerDerivationPath: publicKeyAndDerivationPath.derivationPath,
ownerMasterFingerprint: masterFingerprint,
ownerPublicKey: publicKeyAndDerivationPath.publicKey,
));
}
final psbt = PSBTTransactionBuild(
inputs: psbtReadyInputs, outputs: outputs, enableRBF: enableRBF);
final rawHex = await _bitcoinLedgerApp!.signPsbt(psbt: psbt.psbt);
return BtcTransaction.fromRaw(BytesUtils.toHexString(rawHex));
}
@override
Future<String> signMessage(String message, {String? address = null}) async {
if (walletInfo.isHardwareWallet) {
final addressEntry = address != null
? walletAddresses.allAddresses
.firstWhere((element) => element.address == address)
: null;
final index = addressEntry?.index ?? 0;
final isChange = addressEntry?.isHidden == true ? 1 : 0;
final accountPath = walletInfo.derivationInfo?.derivationPath;
final derivationPath =
accountPath != null ? "$accountPath/$isChange/$index" : null;
final signature = await _bitcoinLedgerApp!.signMessage(
message: ascii.encode(message), signDerivationPath: derivationPath);
return base64Encode(signature);
}
return super.signMessage(message, address: address);
}
}
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