Unlocking Safer Smart Contract Development with Solidity 0.8 Checked Arithmetic Operations

As Ethereum continues to be at the forefront of smart contract development, the introduction of Solidity 0.8 has marked a paradigm shift in how developers approach creating secure and efficient contracts on the blockchain. This pivotal update focuses on robustness and developer convenience, with one of the most critical enhancements being the introduction of built-in checked arithmetic operations.

Why Checked Arithmetic Matters in Solidity

Before Solidity 0.8, arithmetic operations were a minefield, with the potential for unchecked overflows and underflows leading to severe vulnerabilities in smart contracts. Protecting against these issues required external libraries like SafeMath, which provided functions that performed arithmetic operations safely but added extra steps to the development process.

The introduction of built-in checks in Solidity 0.8 has transformed this landscape, simplifying contract code and fortifying it against these common types of bugs by default. Now, let's break down the changes and see how they enhance smart contract development.

// Example of checked arithmetic in Solidity 0.8.x

pragma solidity ^0.8.0;

contract SafeCounter {
    uint256 private count;

    function increment() public {
        // Operation will revert if overflow occurs
        count += 1;
    }

    function decrement() public {
        // Operation will revert if underflow occurs
        assert(count > 0);
        count -= 1;
    }
}

In the code sample above, we see a simple contract SafeCounter. The increment and decrement functions adjust the count variable safely. Should an attempt to increment result in a value that exceeds the uint256 limit, or decrementing it when it's already zero and would cause an underflow, Solidity 0.8 ensures that the contract will revert. This safeguard happens by default without the need to invoke any external libraries.

It's worth noting the subtle but powerful shift this brings to smart contract development. By embedding such protections at the language level, developer error is minimized, and confidence in contract safety is increased.

The Impact on Smart Contract Performance and Reliability

Aside from bolstering security by preventing arithmetic errors, checked operations by default mean that developers' code is both more straightforward and more efficient. Since using libraries like SafeMath involves function calls that contribute to higher gas usage, Solidity 0.8's built-in checks can increase transaction performance and reduce costs.

Here's a before-and-after comparison to illustrate the change:

Before Solidity 0.8: Using SafeMath

// Solidity version prior to 0.8.x

pragma solidity ^0.7.0;

import "@openzeppelin/contracts/math/SafeMath.sol";

contract OldCounter {
    using SafeMath for uint256;
    uint256 private count = 0;

    function increment() public {
        count = count.add(1);
    }

    function decrement() public {
        count = count.sub(1);
    }
}

Notice the use of .add and .sub which are provided by the SafeMath library to execute safe arithmetic operations.

After Solidity 0.8: Built-in Checks

// Solidity 0.8.x

pragma solidity ^0.8.0;

contract NewCounter {
    uint256 private count = 0;

    function increment() public {
        // No explicit library use, checked by default
        count += 1;
    }

    function decrement() public {
        // Declarative assertion to ensure count is above zero before subtracting
        require(count > 0, "Counter underflow");
        count -= 1;
    }
}

In the post-0.8 version, there's no import statement or explicit dependency on the SafeMath library due to the built-in checks that Solidity provides for arithmetic operations.

Closing Thoughts

Solidity 0.8 has clearly leveled up the development experience for coders building on Ethereum by rooting out common vulnerabilities proactively and decreasing overhead related to contract security. This update serves as an example of the Ethereum community's commitment to building a more secure ecosystem for developers and users alike. With built-in checked arithmetic operations, the Smart Contract code is not just safer; it's sleeker and more gas-efficient, empowering developers to create next-generation contracts with confidence.

To learn more about Solidity 0.8.x and keep up with the ever-evolving world of Ethereum development, stay tuned to my blog and join the newsletter for discussions, resources, and much more.

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Written by

Amir Hossein Babaeian
Amir Hossein Babaeian

Blockchain Developer since 2018