Master smart contract security best practices to prevent common vulnerabilities and implement secure Solidity patterns. Use when writing smart contracts, auditing existing contracts, or implementing security measures for blockchain applications.
Install with the open skills CLI (global, non-interactive — available in every Claude Code session):
npx skills add wshobson/agents --skill "solidity-security" -g -a claude-code -yOr manually — clone and copy the skill directory (SKILL.md + companion files):
git clone --depth 1 https://github.com/wshobson/agents /tmp/agents && cp -r /tmp/agents/plugins/blockchain-web3/skills/solidity-security ~/.claude/skills/solidity-security-wshobsonThis skill is a directory: SKILL.md is the entry point; the files below ship with it.
---
name: solidity-security
description: Master smart contract security best practices to prevent common vulnerabilities and implement secure Solidity patterns. Use when writing smart contracts, auditing existing contracts, or implementing security measures for blockchain applications.
---
# Solidity Security
Master smart contract security best practices, vulnerability prevention, and secure Solidity development patterns.
## When to Use This Skill
- Writing secure smart contracts
- Auditing existing contracts for vulnerabilities
- Implementing secure DeFi protocols
- Preventing reentrancy, overflow, and access control issues
- Optimizing gas usage while maintaining security
- Preparing contracts for professional audits
- Understanding common attack vectors
## Detailed patterns and worked examples
Detailed pattern documentation lives in `references/details.md`. Read that file when the navigation tier above is insufficient.
## Testing for Security
```javascript
// Hardhat test example
const { expect } = require("chai");
const { ethers } = require("hardhat");
describe("Security Tests", function () {
it("Should prevent reentrancy attack", async function () {
const [attacker] = await ethers.getSigners();
const VictimBank = await ethers.getContractFactory("SecureBank");
const bank = await VictimBank.deploy();
const Attacker = await ethers.getContractFactory("ReentrancyAttacker");
const attackerContract = await Attacker.deploy(bank.address);
// Deposit funds
await bank.deposit({ value: ethers.utils.parseEther("10") });
// Attempt reentrancy attack
await expect(
attackerContract.attack({ value: ethers.utils.parseEther("1") }),
).to.be.revertedWith("ReentrancyGuard: reentrant call");
});
it("Should prevent integer overflow", async function () {
const Token = await ethers.getContractFactory("SecureToken");
const token = await Token.deploy();
// Attempt overflow
await expect(token.transfer(attacker.address, ethers.constants.MaxUint256))
.to.be.reverted;
});
it("Should enforce access control", async function () {
const [owner, attacker] = await ethers.getSigners();
const Contract = await ethers.getContractFactory("SecureContract");
const contract = await Contract.deploy();
// Attempt unauthorized withdrawal
await expect(contract.connect(attacker).withdraw(100)).to.be.revertedWith(
"Ownable: caller is not the owner",
);
});
});
```
## Audit Preparation
```solidity
contract WellDocumentedContract {
/**
* @title Well Documented Contract
* @dev Example of proper documentation for audits
* @notice This contract handles user deposits and withdrawals
*/
/// @notice Mapping of user balances
mapping(address => uint256) public balances;
/**
* @dev Deposits ETH into the contract
* @notice Anyone can deposit funds
*/
function deposit() public payable {
require(msg.value > 0, "Must send ETH");
balances[msg.sender] += msg.value;
}
/**
* @dev Withdraws user's balance
* @notice Follows CEI pattern to prevent reentrancy
* @param amount Amount to withdraw in wei
*/
function withdraw(uint256 amount) public {
// CHECKS
require(amount <= balances[msg.sender], "Insufficient balance");
// EFFECTS
balances[msg.sender] -= amount;
// INTERACTIONS
(bool success, ) = msg.sender.call{value: amount}("");
require(success, "Transfer failed");
}
}
```
Use when facing 2+ independent tasks that can be worked on without shared state or sequential dependencies
Use when encountering any bug, test failure, or unexpected behavior, before proposing fixes
Use when implementing any feature or bugfix, before writing implementation code