/* This file is part of solidity. solidity is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. solidity is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with solidity. If not, see . */ /** * Yul interpreter module that evaluates EVM instructions. */ #pragma once #include #include #include namespace dev { namespace eth { enum class Instruction: uint8_t; } } namespace yul { namespace test { struct InterpreterState; /** * Interprets EVM instructions based on the current state and logs instructions with * side-effects. * * Since this is mainly meant to be used for differential fuzz testing, it is focused * on a single contract only, does not do any gas counting and differs from the correct * implementation in many ways: * * - If memory access to a "large" memory position is performed, a deterministic * value is returned. Data that is stored in a "large" memory position is not * retained. * - The blockhash instruction returns a fixed value if the argument is in range. * - Extcodesize returns a deterministic value depending on the address. * - Extcodecopy copies a deterministic value depending on the address. * - And many other things * * The main focus is that the generated execution trace is the same for equivalent executions * and likely to be different for non-equivalent executions. */ class EVMInstructionInterpreter { public: explicit EVMInstructionInterpreter(InterpreterState& _state): m_state(_state) {} dev::u256 eval(dev::eth::Instruction _instruction, std::vector const& _arguments); private: /// Record a memory read in the trace. Also updates m_state.msize /// @returns true if m_state.memory can be used at that offset. bool logMemoryRead(dev::u256 const& _offset, dev::u256 const& _size = 32); /// Record a memory write in the trace. Also updates m_state.msize /// @returns true if m_state.memory can be used at that offset. bool logMemoryWrite(dev::u256 const& _offset, dev::u256 const& _size = 32, dev::bytes const& _data = {}); bool logMemory(bool _write, dev::u256 const& _offset, dev::u256 const& _size = 32, dev::bytes const& _data = {}); void logTrace(dev::eth::Instruction _instruction, std::vector const& _arguments = {}, dev::bytes const& _data = {}); /// Appends a log to the trace representing an instruction or similar operation by string, /// with arguments and auxiliary data (if nonempty). void logTrace(std::string const& _pseudoInstruction, std::vector const& _arguments = {}, dev::bytes const& _data = {}); InterpreterState& m_state; }; } }