cake_wallet/lib/nano/cw_nano.dart
Matthew Fosse 98a9edc656
fix nano sending, update restore page wording, and other minor fixes (#1130)
* fix nano sending, update restore page wording, and other minor fixes

* fix bch address parsing

* minor code enhancement [skip ci]

* Register the main secure storage as the long lived instance of secure storage throughout the app session

---------

Co-authored-by: Serhii <borodenko.sv@gmail.com>
Co-authored-by: OmarHatem <omarh.ismail1@gmail.com>
2023-10-17 18:59:41 +03:00

521 lines
15 KiB
Dart

part of 'nano.dart';
class CWNanoAccountList extends NanoAccountList {
CWNanoAccountList(this._wallet);
final Object _wallet;
@override
@computed
ObservableList<NanoAccount> get accounts {
final nanoWallet = _wallet as NanoWallet;
final accounts = nanoWallet.walletAddresses.accountList.accounts
.map((acc) => NanoAccount(id: acc.id, label: acc.label, balance: acc.balance))
.toList();
return ObservableList<NanoAccount>.of(accounts);
}
@override
void update(Object wallet) {
final nanoWallet = wallet as NanoWallet;
nanoWallet.walletAddresses.accountList.update(null);
}
@override
void refresh(Object wallet) {
final nanoWallet = wallet as NanoWallet;
nanoWallet.walletAddresses.accountList.refresh();
}
@override
Future<List<NanoAccount>> getAll(Object wallet) async {
final nanoWallet = wallet as NanoWallet;
return (await nanoWallet.walletAddresses.accountList.getAll())
.map((acc) => NanoAccount(id: acc.id, label: acc.label, balance: acc.balance))
.toList();
}
@override
Future<void> addAccount(Object wallet, {required String label}) async {
final nanoWallet = wallet as NanoWallet;
await nanoWallet.walletAddresses.accountList.addAccount(label: label);
}
@override
Future<void> setLabelAccount(Object wallet,
{required int accountIndex, required String label}) async {
final nanoWallet = wallet as NanoWallet;
await nanoWallet.walletAddresses.accountList
.setLabelAccount(accountIndex: accountIndex, label: label);
}
}
class CWNano extends Nano {
@override
NanoAccountList getAccountList(Object wallet) {
return CWNanoAccountList(wallet);
}
@override
Account getCurrentAccount(Object wallet) {
final nanoWallet = wallet as NanoWallet;
final acc = nanoWallet.walletAddresses.account;
return Account(id: acc!.id, label: acc.label, balance: acc.balance);
}
@override
void setCurrentAccount(Object wallet, int id, String label, String? balance) {
final nanoWallet = wallet as NanoWallet;
nanoWallet.walletAddresses.account = NanoAccount(id: id, label: label, balance: balance);
nanoWallet.regenerateAddress();
}
@override
List<String> getNanoWordList(String language) {
return NanoMnemomics.WORDLIST;
}
@override
WalletService createNanoWalletService(Box<WalletInfo> walletInfoSource) {
return NanoWalletService(walletInfoSource);
}
@override
Map<String, String> getKeys(Object wallet) {
final nanoWallet = wallet as NanoWallet;
final keys = nanoWallet.keys;
return <String, String>{
"seedKey": keys.seedKey,
};
}
@override
WalletCredentials createNanoNewWalletCredentials({
required String name,
String? password,
}) =>
NanoNewWalletCredentials(
name: name,
password: password,
);
@override
WalletCredentials createNanoRestoreWalletFromSeedCredentials({
required String name,
required String password,
required String mnemonic,
DerivationType? derivationType,
}) {
if (derivationType == null) {
// figure out the derivation type as best we can, otherwise set it to "unknown"
if (mnemonic.split(" ").length == 12) {
derivationType = DerivationType.bip39;
} else {
derivationType = DerivationType.unknown;
}
}
return NanoRestoreWalletFromSeedCredentials(
name: name,
password: password,
mnemonic: mnemonic,
derivationType: derivationType,
);
}
@override
WalletCredentials createNanoRestoreWalletFromKeysCredentials({
required String name,
required String password,
required String seedKey,
DerivationType? derivationType,
}) {
if (derivationType == null) {
// figure out the derivation type as best we can, otherwise set it to "unknown"
if (seedKey.length == 64) {
derivationType = DerivationType.nano;
} else {
derivationType = DerivationType.unknown;
}
}
return NanoRestoreWalletFromKeysCredentials(
name: name,
password: password,
seedKey: seedKey,
derivationType: derivationType,
);
}
@override
Object createNanoTransactionCredentials(List<Output> outputs) {
return NanoTransactionCredentials(
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,
))
.toList(),
);
}
@override
Future<void> changeRep(Object wallet, String address) async {
return (wallet as NanoWallet).changeRep(address);
}
@override
Future<void> updateTransactions(Object wallet) async {
return (wallet as NanoWallet).updateTransactions();
}
@override
BigInt getTransactionAmountRaw(TransactionInfo transactionInfo) {
return (transactionInfo as NanoTransactionInfo).amountRaw;
}
@override
String getRepresentative(Object wallet) {
return (wallet as NanoWallet).representative;
}
}
class CWNanoUtil extends NanoUtil {
// standard:
@override
String seedToPrivate(String seed, int index) {
return ND.NanoKeys.seedToPrivate(seed, index);
}
@override
String seedToAddress(String seed, int index) {
return ND.NanoAccounts.createAccount(
ND.NanoAccountType.NANO, privateKeyToPublic(seedToPrivate(seed, index)));
}
@override
String seedToMnemonic(String seed) {
return NanoMnemomics.seedToMnemonic(seed).join(" ");
}
@override
Future<String> mnemonicToSeed(String mnemonic) async {
return NanoMnemomics.mnemonicListToSeed(mnemonic.split(' '));
}
@override
String privateKeyToPublic(String privateKey) {
// return NanoHelpers.byteToHex(Ed25519Blake2b.getPubkey(NanoHelpers.hexToBytes(privateKey))!);
return ND.NanoKeys.createPublicKey(privateKey);
}
@override
String addressToPublicKey(String publicAddress) {
return ND.NanoAccounts.extractPublicKey(publicAddress);
}
// universal:
@override
String privateKeyToAddress(String privateKey) {
return ND.NanoAccounts.createAccount(ND.NanoAccountType.NANO, privateKeyToPublic(privateKey));
}
@override
String publicKeyToAddress(String publicKey) {
return ND.NanoAccounts.createAccount(ND.NanoAccountType.NANO, publicKey);
}
// standard + hd:
@override
bool isValidSeed(String seed) {
// Ensure seed is 64 or 128 characters long
if (seed.length != 64 && seed.length != 128) {
return false;
}
// Ensure seed only contains hex characters, 0-9;A-F
return ND.NanoHelpers.isHexString(seed);
}
// hd:
@override
Future<String> hdMnemonicListToSeed(List<String> words) async {
// if (words.length != 24) {
// throw Exception('Expected a 24-word list, got a ${words.length} list');
// }
final Uint8List salt = Uint8List.fromList(utf8.encode('mnemonic'));
final Pbkdf2 hasher = Pbkdf2(iterations: 2048);
final String seed = await hasher.sha512(words.join(' '), salt);
return seed;
}
@override
Future<String> hdSeedToPrivate(String seed, int index) async {
List<int> seedBytes = hex.decode(seed);
KeyData data = await ED25519_HD_KEY.derivePath("m/44'/165'/$index'", seedBytes);
return hex.encode(data.key);
}
@override
Future<String> hdSeedToAddress(String seed, int index) async {
return ND.NanoAccounts.createAccount(
ND.NanoAccountType.NANO, privateKeyToPublic(await hdSeedToPrivate(seed, index)));
}
@override
Future<String> uniSeedToAddress(String seed, int index, String type) {
if (type == "standard") {
return Future<String>.value(seedToAddress(seed, index));
} else if (type == "hd") {
return hdSeedToAddress(seed, index);
} else {
throw Exception('Unknown seed type');
}
}
@override
Future<String> uniSeedToPrivate(String seed, int index, String type) {
if (type == "standard") {
return Future<String>.value(seedToPrivate(seed, index));
} else if (type == "hd") {
return hdSeedToPrivate(seed, index);
} else {
throw Exception('Unknown seed type');
}
}
@override
bool isValidBip39Seed(String seed) {
// Ensure seed is 128 characters long
if (seed.length != 128) {
return false;
}
// Ensure seed only contains hex characters, 0-9;A-F
return ND.NanoHelpers.isHexString(seed);
}
// number util:
static const int maxDecimalDigits = 6; // Max digits after decimal
BigInt rawPerNano = BigInt.parse("1000000000000000000000000000000");
BigInt rawPerNyano = BigInt.parse("1000000000000000000000000");
BigInt rawPerBanano = BigInt.parse("100000000000000000000000000000");
BigInt rawPerXMR = BigInt.parse("1000000000000");
BigInt convertXMRtoNano = BigInt.parse("1000000000000000000");
// static BigInt convertXMRtoNano = BigInt.parse("1000000000000000000000000000");
/// Convert raw to ban and return as BigDecimal
///
/// @param raw 100000000000000000000000000000
/// @return Decimal value 1.000000000000000000000000000000
///
Decimal _getRawAsDecimal(String? raw, BigInt? rawPerCur) {
rawPerCur ??= rawPerNano;
final Decimal amount = Decimal.parse(raw.toString());
final Decimal result = (amount / Decimal.parse(rawPerCur.toString())).toDecimal();
return result;
}
@override
String getRawAsDecimalString(String? raw, BigInt? rawPerCur) {
final Decimal result = _getRawAsDecimal(raw, rawPerCur);
return result.toString();
}
@override
String truncateDecimal(Decimal input, {int digits = maxDecimalDigits}) {
Decimal bigger = input.shift(digits);
bigger = bigger.floor(); // chop off the decimal: 1.059 -> 1.05
bigger = bigger.shift(-digits);
return bigger.toString();
}
/// Return raw as a NANO amount.
///
/// @param raw 100000000000000000000000000000
/// @returns 1
///
@override
String getRawAsUsableString(String? raw, BigInt rawPerCur) {
final String res =
truncateDecimal(_getRawAsDecimal(raw, rawPerCur), digits: maxDecimalDigits + 9);
if (raw == null || raw == "0" || raw == "00000000000000000000000000000000") {
return "0";
}
if (!res.contains(".")) {
return res;
}
final String numAmount = res.split(".")[0];
String decAmount = res.split(".")[1];
// truncate:
if (decAmount.length > maxDecimalDigits) {
decAmount = decAmount.substring(0, maxDecimalDigits);
// remove trailing zeros:
decAmount = decAmount.replaceAllMapped(RegExp(r'0+$'), (Match match) => '');
if (decAmount.isEmpty) {
return numAmount;
}
}
return "$numAmount.$decAmount";
}
@override
String getRawAccuracy(String? raw, BigInt rawPerCur) {
final String rawString = getRawAsUsableString(raw, rawPerCur);
final String rawDecimalString = _getRawAsDecimal(raw, rawPerCur).toString();
if (raw == null || raw.isEmpty || raw == "0") {
return "";
}
if (rawString != rawDecimalString) {
return "~";
}
return "";
}
/// Return readable string amount as raw string
/// @param amount 1.01
/// @returns 101000000000000000000000000000
///
@override
String getAmountAsRaw(String amount, BigInt rawPerCur) {
final Decimal asDecimal = Decimal.parse(amount);
final Decimal rawDecimal = Decimal.parse(rawPerCur.toString());
return (asDecimal * rawDecimal).toString();
}
@override
Future<AccountInfoResponse?> getInfoFromSeedOrMnemonic(
DerivationType derivationType, {
String? seedKey,
String? mnemonic,
required Node node,
}) async {
NanoClient nanoClient = NanoClient();
nanoClient.connect(node);
late String publicAddress;
if (seedKey != null) {
if (seedKey.length == 64) {
try {
mnemonic = nanoUtil!.seedToMnemonic(seedKey);
} catch (e) {
print("not a valid 'nano' seed key");
}
}
if (derivationType == DerivationType.bip39) {
publicAddress = await hdSeedToAddress(seedKey, 0);
} else if (derivationType == DerivationType.nano) {
publicAddress = await seedToAddress(seedKey, 0);
}
}
if (derivationType == DerivationType.bip39) {
if (mnemonic != null) {
seedKey = await hdMnemonicListToSeed(mnemonic.split(' '));
publicAddress = await hdSeedToAddress(seedKey, 0);
}
}
if (derivationType == DerivationType.nano) {
if (mnemonic != null) {
seedKey = await mnemonicToSeed(mnemonic);
publicAddress = await seedToAddress(seedKey, 0);
}
}
AccountInfoResponse? accountInfo = await nanoClient.getAccountInfo(publicAddress);
if (accountInfo == null) {
accountInfo = AccountInfoResponse(
frontier: "", balance: "0", representative: "", confirmationHeight: 0);
}
accountInfo.address = publicAddress;
return accountInfo;
}
@override
Future<List<DerivationType>> compareDerivationMethods({
String? mnemonic,
String? privateKey,
required Node node,
}) async {
String? seedKey = privateKey;
if (mnemonic?.split(' ').length == 12) {
return [DerivationType.bip39];
}
if (seedKey?.length == 128) {
return [DerivationType.bip39];
} else if (seedKey?.length == 64) {
try {
mnemonic = nanoUtil!.seedToMnemonic(seedKey!);
} catch (e) {
print("not a valid 'nano' seed key");
}
}
late String publicAddressStandard;
late String publicAddressBip39;
try {
NanoClient nanoClient = NanoClient();
nanoClient.connect(node);
if (mnemonic != null) {
seedKey = await hdMnemonicListToSeed(mnemonic.split(' '));
publicAddressBip39 = await hdSeedToAddress(seedKey, 0);
seedKey = await mnemonicToSeed(mnemonic);
publicAddressStandard = await seedToAddress(seedKey, 0);
} else if (seedKey != null) {
try {
publicAddressBip39 = await hdSeedToAddress(seedKey, 0);
} catch (e) {
return [DerivationType.nano];
}
try {
publicAddressStandard = await seedToAddress(seedKey, 0);
} catch (e) {
return [DerivationType.bip39];
}
}
// check if account has a history:
AccountInfoResponse? bip39Info;
AccountInfoResponse? standardInfo;
try {
bip39Info = await nanoClient.getAccountInfo(publicAddressBip39);
} catch (e) {
bip39Info = null;
}
try {
standardInfo = await nanoClient.getAccountInfo(publicAddressStandard);
} catch (e) {
standardInfo = null;
}
// one of these is *probably* null:
if (bip39Info == null && standardInfo != null) {
return [DerivationType.nano];
} else if (standardInfo == null && bip39Info != null) {
return [DerivationType.bip39];
}
// we don't know for sure:
return [DerivationType.nano, DerivationType.bip39];
} catch (e) {
return [DerivationType.nano, DerivationType.bip39];
}
}
}