// SPDX-License-Identifier: MIT pragma solidity ^0.8.19; // The wallet owners can // submit a transaction // approve and revoke approval of pending transactions // anyone can execute a transaction after enough owners has approved it. contract MultiSigWallet { event Deposit(address indexed sender, uint amount, uint balance); event SubmitTransaction( address indexed owener, uint indexed txIndex, address indexed to, uint value, bytes data ); event ConfirmTransaction(address indexed owner, uint indexed txIndex); event RevokeConfirmation(address indexed owner, uint indexed txIndex); event ExecuteTransaction(address indexed owner, uint indexed txIndex); address[] public owners; mapping(address => bool) public isOwner; uint public numConfirmationsRequired; struct Transaction { address to; uint value; bytes data; bool executed; uint numConfirmations; } mapping(uint => mapping(address => bool)) public isConfirmed; Transaction[] public transactions; modifier onlyOwner() { require(isOwner[msg.sender], "not owner"); _; } modifier txExists(uint _txIndex) { require(_txIndex < transactions.length, "tx does not exist"); _; } modifier notConfirmed(uint _txIndex) { require(!isConfirmed[_txIndex][msg.sender], "tx already confirmed"); _; } modifier notExecuted(uint _txIndex) { require(!transactions[_txIndex].executed, "tx already confirmed"); _; } constructor(address[] memory _owners, uint _numConfirmationsRequired) { require(_owners.length > 0, "owners required"); require( _numConfirmationsRequired > 0 && _numConfirmationsRequired <= _owners.length, "invalid number of required confirmations" ); for (uint i = 0; i < _owners.length; i++) { address owner = _owners[i]; require(owner != address(0), "invalid owner"); require(!isOwner[owner], "owner not unique"); isOwner[owner] = true; owners.push(owner); } numConfirmationsRequired = _numConfirmationsRequired; } receive() external payable { emit Deposit(msg.sender, msg.value, address(this).balance); } function submitTransaction( address _to, uint _value, bytes memory _data ) public onlyOwner { uint txIndex = transactions.length; transactions.push( Transaction({ to: _to, value: _value, data: _data, executed: false, numConfirmations: 0 }) ); emit SubmitTransaction(msg.sender, txIndex, _to, _value, _data); } function confirmTransaction( uint _txIndex ) public onlyOwner txExists(_txIndex) notExecuted(_txIndex) notConfirmed(_txIndex) { Transaction storage transaction = transactions[_txIndex]; transaction.numConfirmations += 1; isConfirmed[_txIndex][msg.sender] = true; emit ConfirmTransaction(msg.sender, _txIndex); } function executeTransaction( uint _txIndex ) public onlyOwner txExists(_txIndex) notExecuted(_txIndex) { Transaction storage transaction = transactions[_txIndex]; require( transaction.numConfirmations >= numConfirmationsRequired, "cannot execute tx" ); transaction.executed = true; (bool success, ) = transaction.to.call{value: transaction.value}( transaction.data ); require(success, "tx failed"); emit ExecuteTransaction(msg.sender, _txIndex); } function revokeConfirmation( uint _txIndex ) public onlyOwner txExists(_txIndex) notExecuted(_txIndex) { Transaction storage transaction = transactions[_txIndex]; require(isConfirmed[_txIndex][msg.sender], "tx not confirmed"); transaction.numConfirmations -= 1; isConfirmed[_txIndex][msg.sender] = false; emit RevokeConfirmation(msg.sender, _txIndex); } function getOwners() public view returns (address[] memory) { return owners; } function getTransactionCount() public view returns (uint) { return transactions.length; } function getTransaction( uint _txIndex ) public view returns ( address to, uint value, bytes memory data, bool executed, uint numConfirmations ) { Transaction storage transaction = transactions[_txIndex]; return ( transaction.to, transaction.value, transaction.data, transaction.executed, transaction.numConfirmations ); } }