A Symbolic Ethereum Virtual Machine (EVM) interpreter and decompiler, along with several other utils for programmatically extracting information from bytecode.

🚧 Under heavy development. Feel free to open an issue if something is not right. 🚧

• Lightweight with no dependencies, ~65 kB minified ~17 kB minified & brotlied
• Embedded functions and events signature database optional
• Convert bytecode to opcodes
• Extract events or functions information from bytecode
• Extract the IPFS or swarm hash (when present) from bytecode using cbor-js
• Check whether an opcode exists and is reachable within bytecode execution
• Detect whether contracts are compliant to certain ERCs

Install using your package manager or Browser's script tag

yarn add sevm

npm install sevm

<script src="https://cdn.jsdelivr.net/npm/[email protected]/dist/sevm.js"></script>

or if you're interested only in the CLI Tool, install globally in your system

npm install --global sevm

sevm supports both ESM import and Node's CommonJS require. Also it can be used in browsers, where all classes and functions can be found under the sevm global object.

import { Contract } from 'sevm';

// 00 opcode is STOP https://www.evm.codes/#00?fork=shanghai
const contract = new Contract('0x00');
console.log(contract.solidify());

const { Contract } = require('sevm');

// 00 opcode is STOP https://www.evm.codes/#00?fork=shanghai
const contract = new Contract('0x00');
console.log(contract.solidify());

<script src="https://cdn.jsdelivr.net/npm/[email protected]/dist/sevm.js"></script>

<script>
  console.log('sevm exported symbols', sevm);

  // 00 opcode is STOP https://www.evm.codes/#00?fork=shanghai
  const contract = new sevm.Contract('0x00');
  document.getElementById('code').innerHTML = contract.solidify();
</script>

• bytecode - Get raw bytecode (not really useful; same as input)
• metadata - Get IPFS or Swarm hash (if present) for contract metadata
• opcodes - Returns opcodes reachable within bytecode
• getFunctions() - Parse functions from their signatures in bytecode
• getEvents() - Parse events from their signatures in bytecode
• solidify() - Decompile bytecode into readable Solidity-like pseudocode
• isERC(ercid) - Detect whether contract is ERC id compliant

These examples use the import syntax and ethers.js is used to fetch bytecode from public EVM-based networks.

import { JsonRpcProvider } from 'ethers';
import { Contract } from 'sevm';

const provider = new JsonRpcProvider('https://cloudflare-eth.com/');
// CryptoKitties Contract
// https://etherscan.io/address/0x06012c8cf97BEaD5deAe237070F9587f8E7A266d#code
const bytecode = await provider.getCode('0x06012c8cf97BEaD5deAe237070F9587f8E7A266d');
const contract = new Contract(bytecode);
const opcodes = contract.opcodes();
console.log(opcodes.map(opcode => opcode.format()));

import { JsonRpcProvider } from 'ethers';
import { Contract } from 'sevm';
import 'sevm/4bytedb';

const provider = new JsonRpcProvider('https://cloudflare-eth.com/');
// WETH Contract
// https://etherscan.io/address/0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2
const bytecode = await provider.getCode('0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2');

const contract = new Contract(bytecode).patchdb(); // Lookup for 4byte matches
console.log(contract.solidify()); // Decompile bytecode to Solidity

You can use the contract.yul() method to decompile the bytecode into Yul-like format.

import { JsonRpcProvider } from 'ethers';
import { Contract } from 'sevm';
import 'sevm/4bytedb';

const provider = new JsonRpcProvider('https://cloudflare-eth.com/');
// CryptoKitties Contract
// https://etherscan.io/address/0x06012c8cf97BEaD5deAe237070F9587f8E7A266d#code
const bytecode = await provider.getCode('0x06012c8cf97BEaD5deAe237070F9587f8E7A266d');

const contract = new Contract(bytecode).patchdb();
console.log('functions', contract.getFunctions());
console.log('events', contract.getEvents());
console.log('isERC 165', contract.isERC('ERC165')); // Detect whether contract is ERC165-compliant

import { JsonRpcProvider } from 'ethers';
import { Contract } from 'sevm';

// USDC Token Proxy on Avalanche Testnet
// https://testnet.snowtrace.io/address/0x5425890298aed601595a70AB815c96711a31Bc65#code
const provider = new JsonRpcProvider('https://api.avax-test.network/ext/bc/C/rpc');
const bytecode = await provider.getCode('0x5425890298aed601595a70AB815c96711a31Bc65');

const contract = new Contract(bytecode);
console.log(contract.metadata);

import { EVM, London } from 'sevm';

// contract Test {
//     event Deposit(uint256);
//     fallback () external payable {
//         emit Deposit(tx.gasprice);
//     }
// }
const bytecode = '608060408190524581527f4d6ce1e535dbade1c23defba91e23b8f791ce5edc0cc320257a2b364e4e3842690602090a16040805145815290517f4d6ce1e535dbade1c23defba91e23b8f791ce5edc0cc320257a2b364e4e384269181900360200190a1604080513a815290517f4d6ce1e535dbade1c23defba91e23b8f791ce5edc0cc320257a2b364e4e384269181900360200190a100';

const evm = new EVM(bytecode, new class extends London {
    /** @override */
    GASPRICE = (/** @type {import('sevm').Operand} */ state) => {
        super.GASPRICE(state);
        console.log('top', state.stack.top);
    };
}());

evm.start();

A contract might embed another contract it creates and deploys. Using hooks you can extract the embedded contract.

import { Contract, type Opcode, Shanghai, type State } from 'sevm';
import type { DataCopy, Create } from 'sevm/ast';
import 'sevm/4bytedb';

// contract Token {
//     event Deposit(uint256 value);
//     fallback() external payable {
//         emit Deposit(3);
//     }
// }
// contract Test {
//     fallback() external payable {
//         new Token();
//     }
// }
const bytecode = '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';

let constructorContract: Contract, tokenContract: Contract;
const testContract = new Contract(bytecode, new class extends Shanghai {
    override CREATE = (state: State) => {
        super.CREATE(state);
        const bytecode = (state.stack.top as Create).bytecode!;

        constructorContract = new Contract(bytecode, new class extends Shanghai {
            override CODECOPY = (state: State, _opcode: Opcode, evm: { bytecode: Uint8Array }) => {
                const dest = state.stack.top?.eval();
                super.CODECOPY(state, _opcode, evm);

                if (dest?.isVal()) {
                    const m = state.memory.get(dest.val) as DataCopy;
                    tokenContract = new Contract(m.bytecode!);
                }
            };
        }());
    };
}());

console.log('// Test contract -- factory');
console.log(testContract.solidify());
console.log('// Token contract -- constructor');
console.log(constructorContract!.solidify());
console.log('// Token contract -- deployed bytecode');
console.log(tokenContract!.patchdb().solidify());

It is also possible to hook onto the State of a contract, and in turn onto Stack and Memory. The following example creates a subclass of Memory to hook into the invalidateRange method. In this particular example there is a range where the size is very large so it will be printed to stdout.

import { JsonRpcProvider } from 'ethers';
import { Contract, Memory, Shanghai, Stack, State } from 'sevm';
import type { Expr } from 'sevm/ast';

const provider = new JsonRpcProvider('https://cloudflare-eth.com/');
// https://etherscan.io/address/0x16A2D238d35e51Dd41Cf101dbb536E2cb9E233DA#code
const bytecode = await provider.getCode('0x16A2D238d35e51Dd41Cf101dbb536E2cb9E233DA');

new Contract(bytecode, new Shanghai(), new State(new Stack(), new class extends Memory<Expr> {
    override invalidateRange(offset: Expr, size: Expr, invalidateAll?: boolean): void {
        super.invalidateRange(offset, size, invalidateAll);
        size = size.eval();
        if (size.isVal() && size.val > this.maxInvalidateSizeAllowed) {
            console.log(size);
        }
    }
}()));

sevm comes with a CLI tool to examine bytecode from the command line.

$ sevm --help
sevm <cmd> <contract>

CLI tool to analyze EVM bytecode

Commands:
  sevm metadata <contract>   Shows the Metadata of the contract[1]
  sevm abi <contract>        Shows the ABI of the contract[2]
  sevm selectors <contract>  Shows the function selectors of the contract[3]
  sevm dis <contract>        Disassemble the bytecode into Opcodes
  sevm cfg <contract>        Writes the cfg of the selected function in `dot` fo
                             rmat into standard output
  sevm sol <contract>        Decompile the contract into Solidity-like source
  sevm yul <contract>        Decompile the contract into Yul-like source[4]
  sevm ercs <contract>       Try to detect supported ERCs in the bytecode contra
                             ct based on function and events selectors
  sevm config                Shows cache path used to store downloaded bytecode
  sevm supported-ercs        Shows supported ERCs that can be detected

Options:
  --version  Show version number                                       [boolean]
  --color    Displays with colors, use `--no-color` to deactivate colors
                                                       [boolean] [default: true]
  --patch    Patches the Contract public functions and events with signatures fr
             om https://openchain.xyz, use `--no-patch` to skip patching
                                                       [boolean] [default: true]
  --cache    Enables cache of contracts and ABIs fetched from remote networks an
             d https://openchain.xyz respectively, use `--no-cache` to skip catc
             hing                                      [boolean] [default: true]
  --rpc-url  JSON-RPC network provider URL. Alternatively, set the env variable
             `SEVM_RPC_URL` (the flag takes precedence over the env variable)
                               [string] [default: "https://cloudflare-eth.com/"]
  --help     Show help                                                 [boolean]

Examples:
  sevm abi 0x00000000000C2E074eC69A0dFb2997BA6C7d2e1e
  sevm sol 0x00000000000C2E074eC69A0dFb2997BA6C7d2e1e
  sevm sol --no-patch 0x00000000000C2E074eC69A0dFb2997BA6C7d2e1e
  echo 0x600160020160005500 | sevm yul -    Use `-` to read bytecode from stdin

[1] See https://docs.soliditylang.org/en/latest/metadata.html for more informati
on regarding Metadata generated by the Solidity compiler.
[2] See https://docs.soliditylang.org/en/latest/abi-spec.html#abi-json for more
information regarding the ABI specification.
[3] See https://docs.soliditylang.org/en/latest/abi-spec.html#function-selector
for more information regarding Function Selectors
[4] See https://docs.soliditylang.org/en/latest/yul.html for more information re
garding Yul.

You can also use bytecode downloaded with other tools, for example using Foundry's cast

$ cast code --rpc-url https://cloudflare-eth.com 0xD4039ECC40AedA0582036437cf3ec02845DA4C13 > 
KrakenETHStaking.bytecode
$ sevm abi KrakenETHStaking.bytecode

$ sevm dis --help
sevm dis <contract>

Disassemble the bytecode into Opcodes

Positionals:
  contract  Path or a Ethereum address where to locate the bytecode of the contr
            act. When `-` is used, bytecode will be read from standard input.
                                                             [string] [required]

Options:
  --version     Show version number                                    [boolean]
  --color       Displays with colors, use `--no-color` to deactivate colors
                                                       [boolean] [default: true]
  --patch       Patches the Contract public functions and events with signatures
                 from https://openchain.xyz, use `--no-patch` to skip patching
                                                       [boolean] [default: true]
  --cache       Enables cache of contracts and ABIs fetched from remote networks
                 and https://openchain.xyz respectively, use `--no-cache` to ski
                p catching                             [boolean] [default: true]
  --rpc-url     JSON-RPC network provider URL. Alternatively, set the env variab
                le `SEVM_RPC_URL` (the flag takes precedence over the env variab
                le)            [string] [default: "https://cloudflare-eth.com/"]
  --help        Show help                                              [boolean]
  --with-stack  Include the current stack next to each decoded opcode
  --with-trace  Include the trace of statements at the end of each basic block

sevm includes the sevm/4byte module to patch function and event signatures by looking up in the OpenChain API. Alternatively, sevm comes with an embedded database of Ethereum function and event signature hashes, available through the sevm/4bytedb module. These modules are mutually exclusive, i.e., you should use either only one of them.

The sevm/4byte and sevm/4bytedb modules look up in the function and events remote OpenChain and embedded database respectively for matching hashes. When a matching function or event is found in a Contract, they patch the function or event with the corresponding signature.

Both sevm/4byte and sevm/4bytedb modules are completely independent from the main module, i.e., they are not loaded by default. They need to be imported explicitly. This allows users to create a bundle without the fetch dependency or lookup database provided they want to use a custom solution.

Tests run using Mocha and can be executed with

yarn test

Each top-level test name begins with :: so it is easier to filter out tests (using Mocha's -f/--fgrep or -g/--grep flags). For example, to run only tests for the step module use

yarn test -g ::step

The solc-js compiler is used to compile Solidity contracts used throughout the test suite. The ./test/utils/solc.ts wrapper loads the indicated solc-js version.

To avoid re-compiling the same contract, and enable faster test times, compilation output is cached in the .artifacts/ folder. Compilation output is stored by version, e.g., contracts compiled with solc-0.8.21 will be stored in .artifacts/v0.8.21.

Whenever there is cache match, i.e., the contract does not need compilation, the prefix of the MD5 hash of the compilation input is appended at the end of the test title

    ✔ should find '0x00000000' method selector decoded as `ISZERO` #318d1e

However, if the contract in the test case needs to be compiled, the icon 🛠️ will be appended to the end of the test title

    ✔ should find '0x00000000' method selector decoded as `ISZERO` #318d1e 🛠️

But if the compiler has not already been loaded (by a previous test case), the test title will have the version appended at the end of its title. For example

    ✔ should not accept `PUSH0` as a valid opcode in Paris fork #97d6ca 🛠️--loads `solc-0.8.21` (307ms)

To ensure the test output does not change unexpectedly, we use an ad-hoc snapshot testing solution similar to Jest's. The snapshots are stored in test/__snapshots__.

The .gitattributes file normalizes snapshot file endings, so that snapshot tests run properly on both Unix-like and Windows OSes. This is especially important for running snapshot tests in GitHub Actions.

To re-generate the snapshot artifacts in a test after an intentional implementation change, set the environment variable UPDATE_SNAPSHOTS=1. For example

UPDATE_SNAPSHOTS=1 yarn test -g ::mainnet

When a test is creating or re-generating a snapshot, the indicator icon 📸 is appended to the test title. For example

        ✔ should match Solidity snapshot 📸

On the other hand, when a test is comparing against a previously created snapshot, the indicator icon 🎞️ is appended to the test title. For example

        ✔ should match Solidity snapshot 🎞️

This test needs to be manually enabled because it depends on a network connection (to query the OpenChain API to look for method signatures).

Set the environment variable ENABLE_4BYTE_TEST=1 to enable this test. When executing it, you may want to run only this test, for example

ENABLE_4BYTE_TEST=1 yarn test -g ::4byte

This test is optional. It needs to be manually enabled because its take longer than the rest of test suite to run. It is not ergonomic to include it in the main test suite.

Set the environment variable ENABLE_DATASET_TEST=1 to enable this test. When executing it, you may want to run only this test, for example

ENABLE_DATASET_TEST=1 yarn test -g ::dataset

This test needs to be manually enabled because it depends on a network connection (to fetch code from a live network).

Set the environment variable ENABLE_EXAMPLES_TEST=1 to enable this test. When executing it, you may want to run only this test, for example

ENABLE_EXAMPLES_TEST=1 yarn test -g ::examples

Run tests with coverage with

yarn coverage

Coverage reports are uploaded to Codecov

This folder contains vendor types to refine or declare types of libraries. It is used either in tests or internally in the library, i.e., these types are not re-exported and hence not part of the public library API.

Contains utility scripts that automates the development process.

• 4bytedb.mjs Generates function and event lookup tables database for signatures in json format.
• ercs.mjs Generates ERCs function and event definitions from scripts/ercs.sol.
• help.mjs Embeds examples and sevm --help into README.

Contains utility scripts that complements the test process.

• mock.mjs Mocks network requests to avoid brittle CLI tests, i.e., ::examples and ::bin tests. Both ethers' JSON-RPC provider eth_getCode method and, function and event signatures from OpenChain API will be mocked. It is loaded using Node's flag --import=./test/scripts/mock.mjs.
• solc.mjs Downloads and caches solc-js compiler versions used in tests. It is invoked via Mocha's Global Setup Fixtures.

The examples folder contains code examples that showcase sevm features. These code examples are the ones embedded in this document.

To ensure these examples don't get outdated, test/examples.test.ts runs every example script in the examples folder to verify they are compiled and executed properly. Moreover, their output is recorded into test/__snapshots__/examples.snap.md and compared against in subsequent tests.

This folder contains a dataset of contract bytecodes deployed in a public network.

It is attached as a Git submodule. To check out the .dataset folder, clone this repo using the --recursive option, which clones the repo and the .dataset submodule all at once.

git clone --recursive https://github.com/acuarica/evm.git

Alternatively, if you have already cloned the repo, run the following to check out the .dataset folder

git submodule update --init

The contract bytecodes dataset is used in test/dataset.test.ts, which loads every contract bytecode and runs the Solidity and Yul decompilation. This ensures that the analysis works on real contracts and that is does not enter into an infinite loop while interpreting a bytecode cycle.

This GitHub repo was originally a fork of https://github.com/MrLuit/evm. It served as a great starting point for this project. The fact that it is lightweight and written in TypeScript, make it ideal for embedding in other applications.

However, as we started to support and decompile newer contracts, we realize it was quite outdated. Besides not being able to process newer smart contracts, for some, the bytecode analysis algorithm did not terminate. That's the reason we forked that repo.

We did a major overhaul of the codebase, adding new features, refactoring the whole project and adding both testing and documentation. As we added changes, we realized it did not make sense to keep it a forked repo. Moreover, when sending new PRs, the default base repo is the upstream repo, which is not what we want in our case. This behavior is both error prone and annoying. That's why, as of Apr 17, 2023, this project is no longer a fork of MrLuit/evm.