cake_wallet/cw_solana/lib/solana_wallet.dart
Omar Hatem 4b4d8a4840
Add passphrase support for Eth, Polygon, and Tron (#1719)
* Add passphrase support for Eth, Polygon, and Tron

* move passphrase to advanced settings even for restore
2024-10-04 20:01:46 +03:00

638 lines
19 KiB
Dart

import 'dart:async';
import 'dart:convert';
import 'dart:io';
import 'package:cw_core/cake_hive.dart';
import 'package:cw_core/crypto_currency.dart';
import 'package:cw_core/encryption_file_utils.dart';
import 'package:cw_core/node.dart';
import 'package:cw_core/pathForWallet.dart';
import 'package:cw_core/pending_transaction.dart';
import 'package:cw_core/sync_status.dart';
import 'package:cw_core/transaction_direction.dart';
import 'package:cw_core/transaction_priority.dart';
import 'package:cw_core/wallet_addresses.dart';
import 'package:cw_core/wallet_base.dart';
import 'package:cw_core/wallet_info.dart';
import 'package:cw_core/wallet_keys_file.dart';
import 'package:cw_solana/default_spl_tokens.dart';
import 'package:cw_solana/solana_balance.dart';
import 'package:cw_solana/solana_client.dart';
import 'package:cw_solana/solana_exceptions.dart';
import 'package:cw_solana/solana_transaction_credentials.dart';
import 'package:cw_solana/solana_transaction_history.dart';
import 'package:cw_solana/solana_transaction_info.dart';
import 'package:cw_solana/solana_transaction_model.dart';
import 'package:cw_solana/solana_wallet_addresses.dart';
import 'package:cw_solana/spl_token.dart';
import 'package:hex/hex.dart';
import 'package:hive/hive.dart';
import 'package:mobx/mobx.dart';
import 'package:shared_preferences/shared_preferences.dart';
import 'package:solana/base58.dart';
import 'package:solana/metaplex.dart' as metaplex;
import 'package:solana/solana.dart';
import 'package:solana/src/crypto/ed25519_hd_keypair.dart';
part 'solana_wallet.g.dart';
class SolanaWallet = SolanaWalletBase with _$SolanaWallet;
abstract class SolanaWalletBase
extends WalletBase<SolanaBalance, SolanaTransactionHistory, SolanaTransactionInfo>
with Store, WalletKeysFile {
SolanaWalletBase({
required WalletInfo walletInfo,
String? mnemonic,
String? privateKey,
required String password,
SolanaBalance? initialBalance,
required this.encryptionFileUtils,
this.passphrase,
}) : syncStatus = const NotConnectedSyncStatus(),
_password = password,
_mnemonic = mnemonic,
_hexPrivateKey = privateKey,
_client = SolanaWalletClient(),
walletAddresses = SolanaWalletAddresses(walletInfo),
balance = ObservableMap<CryptoCurrency, SolanaBalance>.of(
{CryptoCurrency.sol: initialBalance ?? SolanaBalance(BigInt.zero.toDouble())}),
super(walletInfo) {
this.walletInfo = walletInfo;
transactionHistory = SolanaTransactionHistory(
walletInfo: walletInfo,
password: password,
encryptionFileUtils: encryptionFileUtils,
);
if (!CakeHive.isAdapterRegistered(SPLToken.typeId)) {
CakeHive.registerAdapter(SPLTokenAdapter());
}
_sharedPrefs.complete(SharedPreferences.getInstance());
}
final String _password;
final String? _mnemonic;
final String? _hexPrivateKey;
final EncryptionFileUtils encryptionFileUtils;
// The Solana WalletPair
Ed25519HDKeyPair? _walletKeyPair;
Ed25519HDKeyPair? get walletKeyPair => _walletKeyPair;
// To access the privateKey bytes.
Ed25519HDKeyPairData? _keyPairData;
late final SolanaWalletClient _client;
@observable
double? estimatedFee;
Timer? _transactionsUpdateTimer;
late final Box<SPLToken> splTokensBox;
@override
WalletAddresses walletAddresses;
@override
@observable
SyncStatus syncStatus;
@override
@observable
late ObservableMap<CryptoCurrency, SolanaBalance> balance;
final Completer<SharedPreferences> _sharedPrefs = Completer();
@override
Ed25519HDKeyPairData get keys {
if (_keyPairData == null) {
return Ed25519HDKeyPairData([], publicKey: const Ed25519HDPublicKey([]));
}
return _keyPairData!;
}
@override
String? get seed => _mnemonic;
@override
String get privateKey {
final privateKeyBytes = _keyPairData!.bytes;
final publicKeyBytes = _keyPairData!.publicKey.bytes;
final encodedBytes = privateKeyBytes + publicKeyBytes;
final privateKey = base58encode(encodedBytes);
return privateKey;
}
@override
WalletKeysData get walletKeysData => WalletKeysData(mnemonic: _mnemonic, privateKey: privateKey);
Future<void> init() async {
final boxName = "${walletInfo.name.replaceAll(" ", "_")}_${SPLToken.boxName}";
splTokensBox = await CakeHive.openBox<SPLToken>(boxName);
// Create WalletPair using either the mnemonic or the privateKey
_walletKeyPair = await getWalletPair(
mnemonic: _mnemonic,
privateKey: _hexPrivateKey,
);
// Extract the keyPairData containing both the privateKey bytes and the publicKey hex.
_keyPairData = await _walletKeyPair!.extract();
walletInfo.address = _walletKeyPair!.address;
await walletAddresses.init();
await transactionHistory.init();
await save();
}
Future<Wallet> getWalletPair({String? mnemonic, String? privateKey}) async {
assert(mnemonic != null || privateKey != null);
if (mnemonic != null) {
return Wallet.fromMnemonic(mnemonic, account: 0, change: 0);
}
try {
final privateKeyBytes = base58decode(privateKey!);
return await Wallet.fromPrivateKeyBytes(privateKey: privateKeyBytes.take(32).toList());
} catch (_) {
final privateKeyBytes = HEX.decode(privateKey!);
return await Wallet.fromPrivateKeyBytes(privateKey: privateKeyBytes);
}
}
@override
int calculateEstimatedFee(TransactionPriority priority, int? amount) => 0;
@override
Future<void> changePassword(String password) => throw UnimplementedError("changePassword");
@override
void close() {
_client.stop();
_transactionsUpdateTimer?.cancel();
}
@action
@override
Future<void> connectToNode({required Node node}) async {
try {
syncStatus = ConnectingSyncStatus();
final isConnected = _client.connect(node);
if (!isConnected) {
throw Exception("Solana Node connection failed");
}
_setTransactionUpdateTimer();
syncStatus = ConnectedSyncStatus();
} catch (e) {
syncStatus = FailedSyncStatus();
}
}
Future<void> _getEstimatedFees() async {
try {
estimatedFee = await _client.getEstimatedFee(_walletKeyPair!);
} catch (e) {
estimatedFee = 0.0;
}
}
@override
Future<PendingTransaction> createTransaction(Object credentials) async {
final solCredentials = credentials as SolanaTransactionCredentials;
final outputs = solCredentials.outputs;
final hasMultiDestination = outputs.length > 1;
await _updateBalance();
final CryptoCurrency transactionCurrency =
balance.keys.firstWhere((element) => element.title == solCredentials.currency.title);
final walletBalanceForCurrency = balance[transactionCurrency]!.balance;
double totalAmount = 0.0;
bool isSendAll = false;
if (hasMultiDestination) {
if (outputs.any((item) => item.sendAll || (item.formattedCryptoAmount ?? 0) <= 0)) {
throw SolanaTransactionWrongBalanceException(transactionCurrency);
}
final totalAmountFromCredentials =
outputs.fold(0, (acc, value) => acc + (value.formattedCryptoAmount ?? 0));
totalAmount = totalAmountFromCredentials.toDouble();
if (walletBalanceForCurrency < totalAmount) {
throw SolanaTransactionWrongBalanceException(transactionCurrency);
}
} else {
final output = outputs.first;
isSendAll = output.sendAll;
if (isSendAll) {
totalAmount = walletBalanceForCurrency;
} else {
final totalOriginalAmount = double.parse(output.cryptoAmount ?? '0.0');
totalAmount = totalOriginalAmount;
}
if (walletBalanceForCurrency < totalAmount) {
throw SolanaTransactionWrongBalanceException(transactionCurrency);
}
}
String? tokenMint;
// Token Mint is only needed for transactions that are not native tokens(non-SOL transactions)
if (transactionCurrency.title != CryptoCurrency.sol.title) {
tokenMint = (transactionCurrency as SPLToken).mintAddress;
}
final pendingSolanaTransaction = await _client.signSolanaTransaction(
tokenMint: tokenMint,
tokenTitle: transactionCurrency.title,
inputAmount: totalAmount,
ownerKeypair: _walletKeyPair!,
tokenDecimals: transactionCurrency.decimals,
destinationAddress: solCredentials.outputs.first.isParsedAddress
? solCredentials.outputs.first.extractedAddress!
: solCredentials.outputs.first.address,
isSendAll: isSendAll,
);
return pendingSolanaTransaction;
}
@override
Future<Map<String, SolanaTransactionInfo>> fetchTransactions() async => {};
/// Fetches the native SOL transactions linked to the wallet Public Key
Future<void> _updateNativeSOLTransactions() async {
final address = Ed25519HDPublicKey.fromBase58(_walletKeyPair!.address);
final transactions = await _client.fetchTransactions(address);
await _addTransactionsToTransactionHistory(transactions);
}
/// Fetches the SPL Tokens transactions linked to the token account Public Key
Future<void> _updateSPLTokenTransactions() async {
// List<SolanaTransactionModel> splTokenTransactions = [];
// Make a copy of keys to avoid concurrent modification
var tokenKeys = List<CryptoCurrency>.from(balance.keys);
for (var token in tokenKeys) {
if (token is SPLToken) {
final tokenTxs = await _client.getSPLTokenTransfers(
token.mintAddress,
token.symbol,
token.decimal,
_walletKeyPair!,
);
// splTokenTransactions.addAll(tokenTxs);
await _addTransactionsToTransactionHistory(tokenTxs);
}
}
// await _addTransactionsToTransactionHistory(splTokenTransactions);
}
Future<void> _addTransactionsToTransactionHistory(
List<SolanaTransactionModel> transactions,
) async {
final Map<String, SolanaTransactionInfo> result = {};
for (var transactionModel in transactions) {
result[transactionModel.id] = SolanaTransactionInfo(
id: transactionModel.id,
to: transactionModel.to,
from: transactionModel.from,
blockTime: transactionModel.blockTime,
direction: transactionModel.isOutgoingTx
? TransactionDirection.outgoing
: TransactionDirection.incoming,
solAmount: transactionModel.amount,
isPending: false,
txFee: transactionModel.fee,
tokenSymbol: transactionModel.tokenSymbol,
);
}
transactionHistory.addMany(result);
await transactionHistory.save();
}
@override
Future<void> rescan({required int height}) => throw UnimplementedError("rescan");
@override
Future<void> save() async {
if (!(await WalletKeysFile.hasKeysFile(walletInfo.name, walletInfo.type))) {
await saveKeysFile(_password, encryptionFileUtils);
saveKeysFile(_password, encryptionFileUtils, true);
}
await walletAddresses.updateAddressesInBox();
final path = await makePath();
await encryptionFileUtils.write(path: path, password: _password, data: toJSON());
await transactionHistory.save();
}
@action
@override
Future<void> startSync() async {
try {
syncStatus = AttemptingSyncStatus();
await Future.wait([
_updateBalance(),
_updateNativeSOLTransactions(),
_updateSPLTokenTransactions(),
_getEstimatedFees(),
]);
syncStatus = SyncedSyncStatus();
} catch (e) {
syncStatus = FailedSyncStatus();
}
}
String toJSON() => json.encode({
'mnemonic': _mnemonic,
'private_key': _hexPrivateKey,
'balance': balance[currency]!.toJSON(),
});
static Future<SolanaWallet> open({
required String name,
required String password,
required WalletInfo walletInfo,
required EncryptionFileUtils encryptionFileUtils,
}) async {
final hasKeysFile = await WalletKeysFile.hasKeysFile(name, walletInfo.type);
final path = await pathForWallet(name: name, type: walletInfo.type);
Map<String, dynamic>? data;
try {
final jsonSource = await encryptionFileUtils.read(path: path, password: password);
data = json.decode(jsonSource) as Map<String, dynamic>;
} catch (e) {
if (!hasKeysFile) rethrow;
}
final balance = SolanaBalance.fromJSON(data?['balance'] as String) ?? SolanaBalance(0.0);
final WalletKeysData keysData;
// Migrate wallet from the old scheme to then new .keys file scheme
if (!hasKeysFile) {
final mnemonic = data!['mnemonic'] as String?;
final privateKey = data['private_key'] as String?;
keysData = WalletKeysData(mnemonic: mnemonic, privateKey: privateKey);
} else {
keysData = await WalletKeysFile.readKeysFile(
name,
walletInfo.type,
password,
encryptionFileUtils,
);
}
return SolanaWallet(
walletInfo: walletInfo,
password: password,
mnemonic: keysData.mnemonic,
privateKey: keysData.privateKey,
initialBalance: balance,
encryptionFileUtils: encryptionFileUtils,
);
}
Future<void> _updateBalance() async {
balance[currency] = await _fetchSOLBalance();
await _fetchSPLTokensBalances();
await save();
}
Future<SolanaBalance> _fetchSOLBalance() async {
final balance = await _client.getBalance(_walletKeyPair!.address);
return SolanaBalance(balance);
}
Future<void> _fetchSPLTokensBalances() async {
for (var token in splTokensBox.values) {
if (token.enabled) {
try {
final tokenBalance =
await _client.getSplTokenBalance(token.mintAddress, _walletKeyPair!.address) ??
balance[token] ??
SolanaBalance(0.0);
balance[token] = tokenBalance;
} catch (e) {
print('Error fetching spl token (${token.symbol}) balance ${e.toString()}');
}
} else {
balance.remove(token);
}
}
}
@override
Future<void>? updateBalance() async => await _updateBalance();
List<SPLToken> get splTokenCurrencies => splTokensBox.values.toList();
void addInitialTokens() {
final initialSPLTokens = DefaultSPLTokens().initialSPLTokens;
for (var token in initialSPLTokens) {
splTokensBox.put(token.mintAddress, token);
}
}
Future<void> addSPLToken(SPLToken token) async {
await splTokensBox.put(token.mintAddress, token);
if (token.enabled) {
final tokenBalance =
await _client.getSplTokenBalance(token.mintAddress, _walletKeyPair!.address) ??
balance[token] ??
SolanaBalance(0.0);
balance[token] = tokenBalance;
} else {
balance.remove(token);
}
}
Future<void> deleteSPLToken(SPLToken token) async {
await token.delete();
balance.remove(token);
await _removeTokenTransactionsInHistory(token);
_updateBalance();
}
Future<void> _removeTokenTransactionsInHistory(SPLToken token) async {
transactionHistory.transactions.removeWhere((key, value) => value.tokenSymbol == token.title);
await transactionHistory.save();
}
Future<SPLToken?> getSPLToken(String mintAddress) async {
// Convert SPL token mint address to public key
final Ed25519HDPublicKey mintPublicKey;
try {
mintPublicKey = Ed25519HDPublicKey.fromBase58(mintAddress);
} catch (_) {
return null;
}
// Fetch token's metadata account
try {
final token = await solanaClient!.rpcClient.getMetadata(mint: mintPublicKey);
if (token == null) {
return null;
}
String? iconPath;
try {
iconPath = await _client.getIconImageFromTokenUri(token.uri);
} catch (_) {}
String filteredTokenSymbol = token.symbol.replaceFirst(RegExp('^\\\$'), '');
return SPLToken.fromMetadata(
name: token.name,
mint: token.mint,
symbol: filteredTokenSymbol,
mintAddress: mintAddress,
iconPath: iconPath,
);
} catch (e) {
return null;
}
}
@override
Future<void> renameWalletFiles(String newWalletName) async {
final currentWalletPath = await pathForWallet(name: walletInfo.name, type: type);
final currentWalletFile = File(currentWalletPath);
final currentDirPath = await pathForWalletDir(name: walletInfo.name, type: type);
final currentTransactionsFile = File('$currentDirPath/$transactionsHistoryFileName');
// Copies current wallet files into new wallet name's dir and files
if (currentWalletFile.existsSync()) {
final newWalletPath = await pathForWallet(name: newWalletName, type: type);
await currentWalletFile.copy(newWalletPath);
}
if (currentTransactionsFile.existsSync()) {
final newDirPath = await pathForWalletDir(name: newWalletName, type: type);
await currentTransactionsFile.copy('$newDirPath/$transactionsHistoryFileName');
}
// Delete old name's dir and files
await Directory(currentDirPath).delete(recursive: true);
}
void _setTransactionUpdateTimer() {
if (_transactionsUpdateTimer?.isActive ?? false) {
_transactionsUpdateTimer!.cancel();
}
_transactionsUpdateTimer = Timer.periodic(const Duration(seconds: 30), (_) {
_updateBalance();
_updateNativeSOLTransactions();
_updateSPLTokenTransactions();
});
}
@override
Future<String> signMessage(String message, {String? address}) async {
// Convert the message to bytes
final messageBytes = utf8.encode(message);
// Sign the message bytes with the wallet's private key
final signature = (await _walletKeyPair!.sign(messageBytes)).toString();
return HEX.encode(utf8.encode(signature)).toUpperCase();
}
List<List<int>> bytesFromSigString(String signatureString) {
final regex = RegExp(r'Signature\(\[(.+)\], publicKey: (.+)\)');
final match = regex.firstMatch(signatureString);
if (match != null) {
final bytesString = match.group(1)!;
final base58EncodedPublicKeyString = match.group(2)!;
final sigBytes = bytesString.split(', ').map(int.parse).toList();
List<int> pubKeyBytes = base58decode(base58EncodedPublicKeyString);
return [sigBytes, pubKeyBytes];
} else {
throw const FormatException('Invalid Signature string format');
}
}
@override
Future<bool> verifyMessage(String message, String signature, {String? address}) async {
String signatureString = utf8.decode(HEX.decode(signature));
List<List<int>> bytes = bytesFromSigString(signatureString);
final messageBytes = utf8.encode(message);
final sigBytes = bytes[0];
final pubKeyBytes = bytes[1];
if (address == null) {
return false;
}
// make sure the address derived from the public key provided matches the one we expect
final pub = Ed25519HDPublicKey(pubKeyBytes);
if (address != pub.toBase58()) {
return false;
}
return await verifySignature(
message: messageBytes,
signature: sigBytes,
publicKey: Ed25519HDPublicKey(pubKeyBytes),
);
}
SolanaClient? get solanaClient => _client.getSolanaClient;
@override
String get password => _password;
@override
final String? passphrase;
}