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Advanced scripting guide

Advanced scripting

Note: this guide is out of date and will be updated soon

Scripting is a powerful unlock for JavaScript applications. When used well you will start to find scripting to be some of the best ways to accomplish building your applications.

Using precompiles

With tevm.script you can run solidity in TypeScript. But what if you want to run TypeScript in your solidity? For example you may want to call fs.readFile directly in your solidity script. To do this you can use the tevm/precompiles package.

Precompiles are simply contracts deployed to an address that execute a JavaScript function you define instead of solidity.

In this tutorial we will create a precompile with the tevm bundler enabled which allows us to import solidity into TypeScript files. This can be done using import { createScript } from 'tevm/contract if the tevm bundler is not available in your project. The steps remain the same just write the solidity interface with human readable abi rather than importing it if not using a bundler.

1. Define a solidity interface for your precompile

The interface you define will be used both by your JavaScript precompile and any scripts you write.

// SPDX-License-Identifier: MIT
pragma solidity >0.8.0;
interface Fs {
/**
* @notice Event for when file write is successful
*/
event FileWrite(address indexed sender, string path, string data);
/**
* @notice Reads the content of a file at the specified path.
* @param path The path of the file to read.
* @return data The content of the file.
*/
function readFile(string calldata path)
external
view
returns (string memory data);
/**
* @notice Writes data to a file at the specified path.
* @param path The path of the file to write to.
* @param data The data to write to the file.
*/
function writeFile(string calldata path, string calldata data)
external
returns (bool success);
}

2. Define the javascript ipmlementation

A precompile is defined with following

  1. A Script contract with withAddress called
  2. The call function that returns an CallResult

You can define the call function from scratch. It is passed the raw data and you can use decodeFunctionData to decode it. You can use encodeFunctionResult to encode the return type

Rather than defining a call from scratch we are going to use the defineCall utility. This utility will take an ABI and then allow us to fill in the interface for the precompile in a typesafe way. It will return the proper types from the ABI. It will also handle the encoding and decoding for you nicely.

import fs from "fs/promises";
import { defineCall, definePrecompile } from "@tevm/precompiles";
// Import the precompile interface or create one with `createContract`
import { Fs } from "./Fs.sol";
// The precompile interface contract must be configured with an address
const contract = Fs.withAddress("0xf2f2f2f2f2f2f2f2f2f2f2f2f2f2f2f2f2f2f2f2");
// defineCall lets us create the call handler in a typesafe way
const call = defineCall(Fs.abi, {
// the abi will typecheck that we are implementing every method with the correct returnValue
writeFile: async ({ args }) => {
await fs.writeFile(...args);
return {
returnValue: true,
executionGasUsed: 0n,
logs: [contract.events.FileWrite(...args)],
};
},
readFile: async ({ args }) => {
return {
returnValue: await fs.readFile(...args, "utf8"),
executionGasUsed: 0n,
};
},
});
export const fsPrecompile = definePrecompile({
contract,
call,
});

3. Pass your precompile into MemoryClient

Pass your precompile into the MemoryClient to configure the VM with it.

We can use our precompile just like any other solidity contract.

import { createMemoryClient } from "@tevm/memory-client";
import { fsPrecompile } from "./fsPrecompile.js";
const client = createMemoryClient({
customPrecompiles: [fsPrecompile.precompile()],
});
await client.tevmContract(
fsPrecompile.contract.write.writeFile("./test.txt", "hello world"),
);
import { readFileSync } from "fs";
console.log(readFileSync("./test1.txt")); // 'hello world'

4. Use in solidity code

In previous section we called our precompile from typescript. We can also call it from solidity.

To use it we simply just import it’s interface. We also need the address which can either be hardcoded or passed in as a parameter.

// SPDX-License-Identifier: MIT
pragma solidity >0.8.0;
import {Fs} from "./Fs.s.sol";
contract ReadHelloWorld {
function readFileFromSolidity(Fs fs, string path) public view returns (string) {
return fs.readFile(path);
}
}

We can now call our contract in TypeScript

import { createMemoryClient } from "@tevm/memory-client";
import { fsPrecompile } from "./fsPrecompile.js";
import { ReadHelloWorld } from "./ReadHelloWorld.sol";
const client = createMemoryClient({
customPrecompiles: [fsPrecompile.precompile()],
});
// call our precompile directly
await client.tevmContract(
fsPrecompile.contract.write.writeFile("./test.txt", "hello world"),
);
// call our contract that uses our precompile
const result = client.tevmContract(
await ReadHelloWorld.read.readFileFromSolidity("./test.txt"),
);
console.log(result); // hello world

State overrides

The script, call, eth.call and contract methods along with their corresponding JSON-RPC procedures support state overrides. This allows you to do any of the following:

  • set contract storage for a specific contract
  • set value for a specific account
  • set nonce for an account
  • set contract bytecode for an account

Block overrides

The script, call, eth.call and contract methods along with their corresponding JSON-RPC procedures support block overrides. This allows you to do any of the following:

  • set the block number for a call
  • set the baseFee or blobBaseFee for a call
  • set the coinbase for a call
  • more

Best practices

  1. Distributing your precompiles if building a library

If you are building precompiles for others to use outside of your code base you should build your code with a bundler such as rollup esbuild or vite so others can use your precompiles without needing to build your solidity contracts. Alternatively you can use the createContract function to create the javascript contract rather than importing solidity.

You should also includ the precompile contract in your npm library so it can be imported in solidity

  1. Use defineCall

Using defineCall guarantees typesafety for your precompile and it’s interface.

  1. Be careful about forking and reverting

Precompiles can operate outside of the EVM state like in our example where we are writing to file system. If you take an action such as reverting the block it won’t unwrite from the file system. Be careful for situations where a precompile might cause issues like this.