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ZK-EVM type 3 written in Cairo, leveraging STARK proof system.

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EVM interpreter written in Cairo, a sort of ZK-EVM emulator, leveraging STARK proof system.

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Kakarot is an Ethereum Virtual Machine written in Cairo. It means it can be deployed on StarkNet, a layer 2 scaling solution for Ethereum, and run any EVM bytecode program. Hence, Kakarot can be used to run Ethereum smart contracts on StarkNet. Kakarot is the super sayajin zkEVM! Why? Because: It's over 9000!!!!!.

It is a work in progress, and it is not ready for production.

Latest presentation of Kakarot at Starkware Session TLV 2023

Getting started β€’ Supported opcodes β€’ Build β€’ Test β€’ Report a bug β€’ Questions

Supported opcodes

%%{init: {'theme': 'forest', 'themeVariables': { 'darkMode': 'false'}}}%%

pie title Kakarot EMV opcodes support (142 / 142)
    "Supported" : 142
    "Not supported" : 0
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Here is the list of supported opcodes: opcodes

Documentation

Architecture

  • βœ… Kakarot is a smart contract, deployed on Starknet (goerli). It is written in Cairo.

  • βœ… Kakarot can: (a) execute arbitrary EVM bytecode, (b) deploy an EVM smart contract as is, (c) call a Kakarot-deployed EVM smart contract's functions (views and write methods).

  • βœ… Kakarot is an EVM bytecode interpreter.

  • ❌ Kakarot is not a blockchain.

  • ❌ Kakarot is not a compiler. Check out Warp for a Solidity -> Cairo transpiler

Main execution flow

sequenceDiagram
    title Simple bytecode execution flow example: [PUSH1 0x01 PUSH1 0x02 ADD]
    actor User
    participant Kakarot
    participant ExecutionContext
    participant EVMInstructions
    participant ArithmeticOperations
    participant PushOperations
    participant Stack
    User->>+Kakarot: execute(value, code, calldata)
    Kakarot->>+EVMInstructions: generate_instructions()
    EVMInstructions->>-Kakarot: instructions
    Kakarot->>+ExecutionContext: compute_intrinsic_gas_cost()
    ExecutionContext->>-Kakarot: ctx
    Kakarot->>Kakarot: run(instructions, ctx)
    loop opcode
        Kakarot->>+EVMInstructions: decode_and_execute(instructions, ctx)
        EVMInstructions->>EVMInstructions: retrieve the current program counter
        Note over EVMInstructions: revert if pc < 0, stop if pc > length of code
        EVMInstructions->>EVMInstructions: read opcode associated function from instruction set
        Note over PushOperations, Stack: x2 PUSH a=1, PUSH b=2
        EVMInstructions->>+PushOperations: exec_push1(ctx)
        PushOperations->>Stack: push(stack, element)
        PushOperations->>-EVMInstructions: ctx
        EVMInstructions->>+ArithmeticOperations: exec_add(ctx)
        Note over PushOperations, Stack: x2 POP a, POP b
        ArithmeticOperations->>Stack: pop(stack)
        Stack->>ArithmeticOperations: element
        ArithmeticOperations->>Stack: push(stack, result)
        ArithmeticOperations->>-EVMInstructions: ctx
        EVMInstructions->>-Kakarot: ctx
    end
    Kakarot->>-User: ctx
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Execution sample

Execution of a simple EVM bytecode program on Kakarot.

The bytecode is the following:

6001600503600301610166016002026105b40460020500

Which corresponds to the following EVM program:

0x60 - PUSH1
0x60 - PUSH1
0x03 - SUB
0x60 - PUSH1
0x01 - ADD
0x61 - PUSH2
0x01 - ADD
0x60 - PUSH1
0x02 - MUL
0x61 - PUSH2
0x04 - DIV
0x60 - PUSH1
0x05 - SDIV
0x00 - STOP

Here is the execution trace of the program on Kakarot:

Tutorial

Getting started

To contribute, please check out the contribution guide.

# install poetry if you don't have it already
# curl -sSL https://install.python-poetry.org | python3 -
make setup

Build

To build the Cairo files:

make build

To build the test Solidity smart contracts:

# install foundry if you don't have it already
# curl -L https://foundry.paradigm.xyz | bash
# foundryup
make build-sol

Test

# Run all tests
make test

# Run only unit tests
make test-units

# Run only integration tests
make test-integration

# Run a specific test file
pytest <PATH_TO_FILE>  # with pytest
python3 -m unittest <PATH_TO_FILE>  # with unittest

# Run a specific test mark (markers in pyproject.toml)
make run-test-mark mark=<MARK>
make run-test-mark-log mark=<MARK> # with log

Test architecture is the following:

  • tests/unit/src contains cairo tests for each cairo function in the kakarot codebase
  • tests/integration/bytecode contains python tests for kakarot execute() function with forged bytecode
  • tests/integration/solidity_contracts contains python tests for solidity contracts that are compiled, deployed on kakarot local node and interacted with kakarot execute_at_address()
  • the project also contains some forge tests (e.g. PlainOpcodes.t.sol) whose purpose is to test easily the solidity functions meant to be tested with kakarot, i.e. quickly making sure that they return the expected output so that we know that we focus on kakarot testing and not .sol testing. They are not part of the CI. Simply use forge test to run them.

Deploy

The following describes how to deploy the entire Kakarot EVM on StarkNet.

It is not a description on how to deploy a contract on the official Kakarot zkEVM.

The Kakarot EVM can be deployed on StarkNet using a python script utilizing the starknet.py library.

First we need to declare some environment variables that are required for the deployment.

Start by copying the .env_example file located in the root directory (.files are usually hidden by default in most explorers. You should be able to see the file in your IDE).

Rename the copied file to .env.

The file holds the following content:

PRIVATE_KEY=your_private_key
ACCOUNT_ADDRESS=your_account_address

Now replace the placeholder values with your account and network details.

PRIVATE_KEY is the private key of the account contract that will pay for the deployment. This should be a decimal number

ACCOUNT_ADDRESS is the address of the account contract that will pay for the deployment (not the public key). This should be a hexadecimal number

Here is a concrete example:

PRIVATE_KEY=72893439023848923y4138741073892473874203487234872208352937239047293428374088
ACCOUNT_ADDRESS=0x06e5d623aBe979c3DEFf52bE6DF5116352C12Ee21428D5b2CF91cA440c4edBD0

By default, everything will run on a local starknet-devnet (started with make run). If you want to deploy to a given target, set the STARKNET_NETWORK env variable, for example:

make deploy # localhost
STARKNET_NETWORK=testnet make deploy
STARKNET_NETWORK=testnet2 make deploy
STARKNET_NETWORK=mainnet make deploy

Deployed contract addresses will be stored in ./deployments/{networks}/deployments.json.

A step by step description of the individual components and how they are deployed/configured can be found here.

License

kakarot is released under the MIT.

Security

Kakarot follows good practices of security, but 100% security cannot be assured. Kakarot is provided "as is" without any warranty. Use at your own risk.

For more information and to report security issues, please refer to our security documentation.

Callgraphs

The callgraph artifacts contains all the contract's call graph. Those are generated using thoth and can provide some more insight on the inside of this zkEVM. The legend can be found here. You can use this tool to visualize the .gv files online.

Questions / FAQ

Questions are welcome! If you have any questions regarding Kakarot, feel free to ask them using Newton.

FAQ

Contributing

First off, thanks for taking the time to contribute! Contributions are what make the open-source community such an amazing place to learn, inspire, and create. Any contributions you make will benefit everybody else and are greatly appreciated.

Please read our contribution guidelines, and thank you for being involved!

Contributors

Abdel @ StarkWare
Abdel @ StarkWare

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Lucas

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