cake_wallet/cw_evm/lib/evm_chain_client.dart

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import 'dart:async';
import 'dart:developer';
import 'package:cw_core/node.dart';
import 'package:cw_core/erc20_token.dart';
import 'package:cw_core/crypto_currency.dart';
import 'package:cw_evm/evm_erc20_balance.dart';
import 'package:cw_evm/evm_chain_transaction_model.dart';
import 'package:cw_evm/pending_evm_chain_transaction.dart';
import 'package:cw_evm/evm_chain_transaction_priority.dart';
import 'package:flutter/services.dart';
import 'package:http/http.dart';
import 'package:erc20/erc20.dart';
import 'package:web3dart/web3dart.dart';
abstract class EVMChainClient {
final httpClient = Client();
Web3Client? _client;
//! To be overridden by all child classes
int get chainId;
Future<List<EVMChainTransactionModel>> fetchTransactions(String address,
{String? contractAddress});
Uint8List prepareSignedTransactionForSending(Uint8List signedTransaction);
//! Common methods across all child classes
bool connect(Node node) {
try {
_client = Web3Client(node.uri.toString(), httpClient);
return true;
} catch (e) {
return false;
}
}
void setListeners(EthereumAddress userAddress, Function() onNewTransaction) async {
// _client?.pendingTransactions().listen((transactionHash) async {
// final transaction = await _client!.getTransactionByHash(transactionHash);
//
// if (transaction.from.hex == userAddress || transaction.to?.hex == userAddress) {
// onNewTransaction();
// }
// });
}
Future<EtherAmount> getBalance(EthereumAddress address) async {
try {
return await _client!.getBalance(address);
} catch (_) {
return EtherAmount.zero();
}
}
Future<int> getGasUnitPrice() async {
try {
final gasPrice = await _client!.getGasPrice();
return gasPrice.getInWei.toInt();
} catch (_) {
return 0;
}
}
Future<int> getEstimatedGas() async {
try {
final estimatedGas = await _client!.estimateGas();
return estimatedGas.toInt();
} catch (_) {
return 0;
}
}
Future<PendingEVMChainTransaction> signTransaction({
required EthPrivateKey privateKey,
required String toAddress,
required String amount,
required int gas,
required EVMChainTransactionPriority priority,
required CryptoCurrency currency,
required int exponent,
String? contractAddress,
}) async {
assert(currency == CryptoCurrency.eth ||
currency == CryptoCurrency.maticpoly ||
contractAddress != null);
bool isEVMCompatibleChain =
currency == CryptoCurrency.eth || currency == CryptoCurrency.maticpoly;
final price = _client!.getGasPrice();
final Transaction transaction = createTransaction(
from: privateKey.address,
to: EthereumAddress.fromHex(toAddress),
maxPriorityFeePerGas: EtherAmount.fromInt(EtherUnit.gwei, priority.tip),
amount: isEVMCompatibleChain ? EtherAmount.inWei(BigInt.parse(amount)) : EtherAmount.zero(),
);
final signedTransaction =
await _client!.signTransaction(privateKey, transaction, chainId: chainId);
final Function _sendTransaction;
if (isEVMCompatibleChain) {
_sendTransaction = () async => await sendTransaction(signedTransaction);
} else {
final erc20 = ERC20(
client: _client!,
address: EthereumAddress.fromHex(contractAddress!),
chainId: chainId,
);
_sendTransaction = () async {
await erc20.transfer(
EthereumAddress.fromHex(toAddress),
BigInt.parse(amount),
credentials: privateKey,
transaction: transaction,
);
};
}
return PendingEVMChainTransaction(
signedTransaction: signedTransaction,
amount: amount,
fee: BigInt.from(gas) * (await price).getInWei,
sendTransaction: _sendTransaction,
exponent: exponent,
);
}
Transaction createTransaction({
required EthereumAddress from,
required EthereumAddress to,
required EtherAmount amount,
EtherAmount? maxPriorityFeePerGas,
}) {
return Transaction(
from: from,
to: to,
maxPriorityFeePerGas: maxPriorityFeePerGas,
value: amount,
);
}
Future<String> sendTransaction(Uint8List signedTransaction) async =>
await _client!.sendRawTransaction(prepareSignedTransactionForSending(signedTransaction));
Future getTransactionDetails(String transactionHash) async {
// Wait for the transaction receipt to become available
TransactionReceipt? receipt;
while (receipt == null) {
receipt = await _client!.getTransactionReceipt(transactionHash);
await Future.delayed(const Duration(seconds: 1));
}
// Print the receipt information
log('Transaction Hash: ${receipt.transactionHash}');
log('Block Hash: ${receipt.blockHash}');
log('Block Number: ${receipt.blockNumber}');
log('Gas Used: ${receipt.gasUsed}');
/*
Transaction Hash: [112, 244, 4, 238, 89, 199, 171, 191, 210, 236, 110, 42, 185, 202, 220, 21, 27, 132, 123, 221, 137, 90, 77, 13, 23, 43, 12, 230, 93, 63, 221, 116]
I/flutter ( 4474): Block Hash: [149, 44, 250, 119, 111, 104, 82, 98, 17, 89, 30, 190, 25, 44, 218, 118, 127, 189, 241, 35, 213, 106, 25, 95, 195, 37, 55, 131, 185, 180, 246, 200]
I/flutter ( 4474): Block Number: 17120242
I/flutter ( 4474): Gas Used: 21000
*/
// Wait for the transaction receipt to become available
TransactionInformation? transactionInformation;
while (transactionInformation == null) {
log("********************************");
transactionInformation = await _client!.getTransactionByHash(transactionHash);
await Future.delayed(const Duration(seconds: 1));
}
// Print the receipt information
log('Transaction Hash: ${transactionInformation.hash}');
log('Block Hash: ${transactionInformation.blockHash}');
log('Block Number: ${transactionInformation.blockNumber}');
log('Gas Used: ${transactionInformation.gas}');
/*
Transaction Hash: 0x70f404ee59c7abbfd2ec6e2ab9cadc151b847bdd895a4d0d172b0ce65d3fdd74
I/flutter ( 4474): Block Hash: 0x952cfa776f68526211591ebe192cda767fbdf123d56a195fc3253783b9b4f6c8
I/flutter ( 4474): Block Number: 17120242
I/flutter ( 4474): Gas Used: 53000
*/
}
Future<EVMChainERC20Balance> fetchERC20Balances(
EthereumAddress userAddress, String contractAddress) async {
final erc20 = ERC20(address: EthereumAddress.fromHex(contractAddress), client: _client!);
final balance = await erc20.balanceOf(userAddress);
int exponent = (await erc20.decimals()).toInt();
return EVMChainERC20Balance(balance, exponent: exponent);
}
Future<Erc20Token?> getErc20Token(String contractAddress) async {
try {
final erc20 = ERC20(address: EthereumAddress.fromHex(contractAddress), client: _client!);
final name = await erc20.name();
final symbol = await erc20.symbol();
final decimal = await erc20.decimals();
return Erc20Token(
name: name,
symbol: symbol,
contractAddress: contractAddress,
decimal: decimal.toInt(),
);
} catch (e) {
return null;
}
}
void stop() {
_client?.dispose();
}
Web3Client? getWeb3Client() {
return _client;
}
// Future<int> _getDecimalPlacesForContract(DeployedContract contract) async {
// final String abi = await rootBundle.loadString("assets/abi_json/erc20_abi.json");
// final contractAbi = ContractAbi.fromJson(abi, "ERC20");
//
// final contract = DeployedContract(
// contractAbi,
// EthereumAddress.fromHex(_erc20Currencies[erc20Currency]!),
// );
// final decimalsFunction = contract.function('decimals');
// final decimals = await _client!.call(
// contract: contract,
// function: decimalsFunction,
// params: [],
// );
//
// int exponent = int.parse(decimals.first.toString());
// return exponent;
// }
}