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README.md

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gevm

An Ethereum Virtual Machine (EVM) implementation from scratch, written in Go.

Warning

This implementation is for educational purposes and not for production use.

This project is an isolated EVM implementation, meaning it has no state for accounts. However, memory, storage, and event logs are tracked, although everything resets after each EVM execution.

Prerequisites

Running the EVM

To run the EVM:

  1. Navigate to the command directory:

    cd cmd/gevm
  2. Execute the main program:

    go run main.go

    Some simple example bytecodes are provided. There is also an example from an actual compiled contract, which is commented out. Uncomment it to run it. alt text

Dynamic Gas Calculation

Dynamic gas calculation is supported (memory expansion cost and storage operations). Functions for this are located in gevm/common.go, and the dgMap[Opcode]uint64 in gevm/evm.go holds records of each opcode that has dynamic gas. The dynamic gas is calculated at runtime for any opcode that has dynamic gas during execution, and the dgMap is updated to store this gas cost.

EVM Structure

The main EVM files are located in /gevm. Here are some key structures:

  • ExecutionRuntime represents the execution runtime during EVM execution.

    type ExecutionRuntime struct {
        PC         uint64
        Code       []byte
        Gas        uint64
        Refund     uint64
        StopFlag   bool
        RevertFlag bool
        ReturnData []byte
        LogRecord  *LogRecord
        Block      *Block
    }
  • ExecutionEnvironment encapsulates the EVM execution data environment, including the stack, memory, storage, and transient storage.

    type ExecutionEnvironment struct {
        Stack     *Stack
        Memory    *Memory
        Storage   *Storage
        Transient *TransientStorage
    }
  • TransactionContext holds transaction-specific information during EVM execution.

    type TransactionContext struct {
        Sender   common.Address
        Value    uint64
        Calldata []byte
    }
  • ChainConfig stores network configuration parameters.

    type ChainConfig struct {
        ChainID  uint64
        GasLimit uint64
    }
  • Block represents a block.

    type Block struct {
        Coinbase  common.Address
        GasPrice  uint64
        Number    uint64
        Timestamp time.Time
        BaseFee   uint64
    }

All these are initialized with the NewEVM function found in gevm/evm.go.

Tests

To run unit tests:

go test -v

For a better understanding of the project, explore the files in /gevm.

Supported Opcodes

The implementation supports 131 out of the 143 EVM opcodes.

Unsupported Opcodes

The following opcodes are not supported:

  • CREATE
  • CALL
  • CALLCODE
  • DELEGATECALL
  • CREATE2
  • EXTCODEHASH
  • DIFFICULTY
  • STATICCALL
  • SELFBALANCE
  • SELFDESTRUCT
  • EIP-4844 opcodes: BLOBHASH, BLOBBASEFEE

These opcodes typically require state management. All other opcodes are supported, including EIP-1153 transient storage opcodes TLOAD and TSTORE.

Resources

Contributing

Contributions are welcome! Please feel free to create an issue or submit a pull request.