// EVMC: Ethereum Client-VM Connector API. // Copyright 2019 The EVMC Authors. // Licensed under the Apache License, Version 2.0. #pragma once #include #include #include #include #include #include namespace evmc { /// The string of bytes. using bytes = std::basic_string; /// Extended value (by dirty flag) for account storage. struct storage_value { /// The storage value. bytes32 value; /// True means this value has been modified already by the current transaction. bool dirty{false}; /// Default constructor. storage_value() noexcept = default; /// Constructor. storage_value(const bytes32& _value, bool _dirty = false) noexcept // NOLINT : value{_value}, dirty{_dirty} {} }; /// Mocked account. struct MockedAccount { /// The account nonce. int nonce = 0; /// The account code. bytes code; /// The code hash. Can be a value not related to the actual code. bytes32 codehash; /// The account balance. uint256be balance; /// The account storage map. std::map storage; /// Helper method for setting balance by numeric type. void set_balance(uint64_t x) noexcept { balance = uint256be{}; for (std::size_t i = 0; i < sizeof(x); ++i) balance.bytes[sizeof(balance) - 1 - i] = static_cast(x >> (8 * i)); } }; /// Mocked EVMC Host implementation. class MockedHost : public Host { public: /// LOG record. struct log_record { /// The address of the account which created the log. address creator; /// The data attached to the log. bytes data; /// The log topics. std::vector topics; /// Equal operator. bool operator==(const log_record& other) const noexcept { return creator == other.creator && data == other.data && topics == other.topics; } }; /// SELFDESTRUCT record. struct selfdestuct_record { /// The address of the account which has self-destructed. address selfdestructed; /// The address of the beneficiary account. address beneficiary; /// Equal operator. bool operator==(const selfdestuct_record& other) const noexcept { return selfdestructed == other.selfdestructed && beneficiary == other.beneficiary; } }; /// The set of all accounts in the Host, organized by their addresses. std::unordered_map accounts; /// The EVMC transaction context to be returned by get_tx_context(). evmc_tx_context tx_context = {}; /// The block header hash value to be returned by get_block_hash(). bytes32 block_hash = {}; /// The call result to be returned by the call() method. evmc_result call_result = {}; /// The record of all block numbers for which get_block_hash() was called. mutable std::vector recorded_blockhashes; /// The record of all account accesses. mutable std::vector
recorded_account_accesses; /// The maximum number of entries in recorded_account_accesses record. /// This is arbitrary value useful in fuzzing when we don't want the record to explode. static constexpr auto max_recorded_account_accesses = 200; /// The record of all call messages requested in the call() method. std::vector recorded_calls; /// The maximum number of entries in recorded_calls record. /// This is arbitrary value useful in fuzzing when we don't want the record to explode. static constexpr auto max_recorded_calls = 100; /// The record of all LOGs passed to the emit_log() method. std::vector recorded_logs; /// The record of all SELFDESTRUCTs from the selfdestruct() method. std::vector recorded_selfdestructs; private: /// The copy of call inputs for the recorded_calls record. std::vector m_recorded_calls_inputs; public: /// Record an account access. /// @param addr The address of the accessed account. void record_account_access(const address& addr) const { if (recorded_account_accesses.empty()) recorded_account_accesses.reserve(max_recorded_account_accesses); if (recorded_account_accesses.size() < max_recorded_account_accesses) recorded_account_accesses.emplace_back(addr); } /// Returns true if an account exists (EVMC Host method). bool account_exists(const address& addr) const noexcept override { record_account_access(addr); return accounts.count(addr) != 0; } /// Get the account's storage value at the given key (EVMC Host method). bytes32 get_storage(const address& addr, const bytes32& key) const noexcept override { record_account_access(addr); const auto account_iter = accounts.find(addr); if (account_iter == accounts.end()) return {}; const auto storage_iter = account_iter->second.storage.find(key); if (storage_iter != account_iter->second.storage.end()) return storage_iter->second.value; return {}; } /// Set the account's storage value (EVMC Host method). evmc_storage_status set_storage(const address& addr, const bytes32& key, const bytes32& value) noexcept override { record_account_access(addr); const auto it = accounts.find(addr); if (it == accounts.end()) return EVMC_STORAGE_UNCHANGED; auto& old = it->second.storage[key]; // Follow https://eips.ethereum.org/EIPS/eip-1283 specification. // WARNING! This is not complete implementation as refund is not handled here. if (old.value == value) return EVMC_STORAGE_UNCHANGED; evmc_storage_status status{}; if (!old.dirty) { old.dirty = true; if (!old.value) status = EVMC_STORAGE_ADDED; else if (value) status = EVMC_STORAGE_MODIFIED; else status = EVMC_STORAGE_DELETED; } else status = EVMC_STORAGE_MODIFIED_AGAIN; old.value = value; return status; } /// Get the account's balance (EVMC Host method). uint256be get_balance(const address& addr) const noexcept override { record_account_access(addr); const auto it = accounts.find(addr); if (it == accounts.end()) return {}; return it->second.balance; } /// Get the account's code size (EVMC host method). size_t get_code_size(const address& addr) const noexcept override { record_account_access(addr); const auto it = accounts.find(addr); if (it == accounts.end()) return 0; return it->second.code.size(); } /// Get the account's code hash (EVMC host method). bytes32 get_code_hash(const address& addr) const noexcept override { record_account_access(addr); const auto it = accounts.find(addr); if (it == accounts.end()) return {}; return it->second.codehash; } /// Copy the account's code to the given buffer (EVMC host method). size_t copy_code(const address& addr, size_t code_offset, uint8_t* buffer_data, size_t buffer_size) const noexcept override { record_account_access(addr); const auto it = accounts.find(addr); if (it == accounts.end()) return 0; const auto& code = it->second.code; if (code_offset >= code.size()) return 0; const auto n = std::min(buffer_size, code.size() - code_offset); if (n > 0) std::copy_n(&code[code_offset], n, buffer_data); return n; } /// Selfdestruct the account (EVMC host method). void selfdestruct(const address& addr, const address& beneficiary) noexcept override { record_account_access(addr); recorded_selfdestructs.push_back({addr, beneficiary}); } /// Call/create other contract (EVMC host method). result call(const evmc_message& msg) noexcept override { record_account_access(msg.destination); if (recorded_calls.empty()) { recorded_calls.reserve(max_recorded_calls); m_recorded_calls_inputs.reserve(max_recorded_calls); // Iterators will not invalidate. } if (recorded_calls.size() < max_recorded_calls) { recorded_calls.emplace_back(msg); auto& call_msg = recorded_calls.back(); if (call_msg.input_size > 0) { m_recorded_calls_inputs.emplace_back(call_msg.input_data, call_msg.input_size); const auto& input_copy = m_recorded_calls_inputs.back(); call_msg.input_data = input_copy.data(); } } return result{call_result}; } /// Get transaction context (EVMC host method). evmc_tx_context get_tx_context() const noexcept override { return tx_context; } /// Get the block header hash (EVMC host method). bytes32 get_block_hash(int64_t block_number) const noexcept override { recorded_blockhashes.emplace_back(block_number); return block_hash; } /// Emit LOG (EVMC host method). void emit_log(const address& addr, const uint8_t* data, size_t data_size, const bytes32 topics[], size_t topics_count) noexcept override { recorded_logs.push_back({addr, {data, data_size}, {topics, topics + topics_count}}); } }; } // namespace evmc