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WhatsABI

WhatsABI

Guess an ABI and detect proxies from an Ethereum bytecode, even if it's unverified.

WhatsABI is perfect for building procedural frontends, embedding in wallets, block explorers, or doing bytecode analysis.

Features

What can WhatsABI do?

  • Return selectors from bytecode.
  • Look up function signatures from selectors.
  • Helpers for looking up ABI and signatures from public databases (like Sourcify, Etherscan, OpenChain, 4Byte).
  • ✨ Resolve proxy contracts!
  • Small bundle (less than 15 KB) that works with Ethers.js, Viem, and others.

WhatsABI is different from other EVM analysis tools in some important ways:

  • Built in Typescript with minimal dependencies, so that it is runnable in the browser and embeddable in wallets.
  • Algorithms used are limited to O(instructions) with a small constant factor, so that complex contracts don't cause it to time out or use unbounded memory.
  • Does not rely on source code, so it works with unverified contracts.
  • Does not assume the source language, so it can work for source languages other than Solidity (Vyper, or even hand-written assembly).
  • Permissive open source (MIT-licensed), so that anyone can use it.

Usage

Generated docs: https://tsdocs.dev/docs/@shazow/whatsabi

Quick start:

import { ethers } from "ethers";
import { whatsabi } from "@shazow/whatsabi";

const provider = ethers.getDefaultProvider(); // substitute with your fav provider
const address = "0x00000000006c3852cbEf3e08E8dF289169EdE581"; // Or your fav contract address

// Quick-start:

const result = await whatsabi.autoload(address, { provider });
console.log(result.abi);
// -> [ ... ]

Breaking it down:

const code = await provider.getCode(address); // Load the bytecode

// Get just the callable selectors
const selectors = whatsabi.selectorsFromBytecode(code);
console.log(selectors); // -> ["0x06fdde03", "0x46423aa7", "0x55944a42", ...]

// Get an ABI-like list of interfaces
const abi = whatsabi.abiFromBytecode(code);
console.log(abi);
// -> [
//  {"type": "event", "hash": "0x721c20121297512b72821b97f5326877ea8ecf4bb9948fea5bfcb6453074d37f"},
//  {"type": "function", "payable": true, "selector": "0x06fdde03", ...},
//  {"type": "function", "payable": true, "selector": "0x46423aa7", ...},
//   ...

// We also have a suite of database loaders for convenience
const signatureLookup = new whatsabi.loaders.OpenChainSignatureLookup();
console.log(await signatureLookup.loadFunctions("0x06fdde03"));
// -> ["name()"]);
console.log(await signatureLookup.loadFunctions("0x46423aa7"));
// -> ["getOrderStatus(bytes32)"]);

// We also have event loaders!
console.log(await signatureLookup.loadEvents("0x721c20121297512b72821b97f5326877ea8ecf4bb9948fea5bfcb6453074d37f"));
// -> ["CounterIncremented(uint256,address)"]

// There are more fancy loaders in whatsabi.loaders.*, take a look!

// Here's a multiloader with an Etherscan API key, it can be used with autoload below.
// Each source will be attempted until a result is found.
const loader = new whatsabi.loaders.MultiABILoader([
  new whatsabi.loaders.SourcifyABILoader(),
  new whatsabi.loaders.EtherscanABILoader({
    apiKey: "...", // Replace the value with your Etherscan API key
  }),
]);
const { abi, name, /* ... other metadata */ } = await loader.getContract(address));

All together with our do-all-the-things helper:

...

let result = await whatsabi.autoload(address, {
  provider: provider,

  // * Optional loaders:
  // abiLoader: whatsabi.loaders.defaultABILoader,
  // signatureLoader: whatsabi.loaders.defaultSignatureLookup,

  // There is a handy helper for adding the default loaders but with your own settings
  ... whatsabi.loaders.defaultsWithEnv({
    SOURCIFY_CHAIN_ID: 42161,
    ETHERSCAN_BASE_URL: "https://api.arbiscan.io/api",
    ETHERSCAN_API_KEY: "MYSECRETAPIKEY",
  }),

  // * Optional hooks:
  // onProgress: (phase: string) => { ... }
  // onError: (phase: string, context: any) => { ... }

  onProgress: (phase) => console.log("autoload progress", phase),
  onError: (phase, context) => console.log("autoload error", phase, context),

  // * Optional overrides:
  // addressResolver: (name: string) => Promise<string>

  // * Optional settings:
  // followProxies: false,
  // enableExperimentalMetadata: false,
});

console.log(result.abi);

// Detail will vary depending on whether `address` source code was available,
// or if bytecode-loaded selector signatures were available, or
// if WhatsABI had to guess everything from just bytecode.

// We can even detect and resolve proxies!
if (result.followProxies) {
    console.log("Proxies detected:", result.proxies);

    result = await result.followProxies();
    console.log(result.abi);
}

Or we can auto-follow resolved proxies, and expand parts of the result object:

const { abi, address } = await whatsabi.autoload(
    "0x4f8AD938eBA0CD19155a835f617317a6E788c868",
    {
        provider,
        followProxies: true,
    },
});

console.log("Resolved to:", address);
// -> "0x964f84048f0d9bb24b82413413299c0a1d61ea9f"

See Also

Some Cool People Said...

Omg WhatsABI by @shazow is so good that it can solve CTFs.
In one of my CTFs, students are supposed to find calldata that doesn’t revert
WhatsABI just spits out the solution automatically😂 I’m impressed!👏

🗣️ Nazar Ilamanov, creator of monobase.xyz

WhatsABI by @shazow takes contract bytecode, disassembled it into a set of EVM instructions, and then looks for the common Solidity's dispatch pattern.
Check out the source, it's actually very elegant!

🗣️ WINTΞR, creator of abi.w1nt3r.xyz

really cool stuff from @shazow
deduce a contract's ABI purely from bytecode

🗣️ t11s, from Paradigm

Caveats

  • If the contract is verified, autoload will just fetch the registered ABI and everything should be perfect either way.
  • Finding valid function selectors from bytecode works great!
  • Detecting Solidity-style function modifiers (view, payable, etc) is still unreliable.
  • There's some minimal attempts at guessing the presence of arguments, but also unreliable.
  • Call graph traversal only supports static jumps right now. Dynamic jumps are skipped until we add abstract stack tracing, this is the main cause of above's unreliability.
  • Event parsing is janky, haven't found a reliable pattern so assume it's best effort. Feel free to open an issue with good failure examples, especially false negatives.

Development

$ cat .env  # Write an .env file with your keys, or `cp .env.example .env`
export INFURA_API_KEY="..."
export ETHERSCAN_API_KEY="..."
$ nix develop  # Or use your system's package manager to install node/ts/etc
[dev] $ npm install
[dev] $ ONLINE=1 make test

Thanks

  • ethers.js for being excellent, and having a helpful assembler sub-package was inspiring.
  • @jacobdehart for the library name and logo that is totally a wasabi and not a green poop!

License

MIT