/// EVM-C -- C interface to Ethereum Virtual Machine /// /// ## High level design rules /// 1. Pass function arguments and results by value. /// This rule comes from modern C++ and tries to avoid costly alias analysis /// needed for optimization. As the result we have a lots of complex structs /// and unions. And variable sized arrays of bytes cannot be passed by copy. /// 2. The EVM operates on integers so it prefers values to be host-endian. /// On the other hand, LLVM can generate good code for byte swaping. /// The interface also tries to match host application "natural" endianess. /// I would like to know what endianess you use and where. /// /// @defgroup EVMC EVM-C /// @{ #pragma once #include // Definition of int64_t, uint64_t. #include // Definition of size_t. #include // Definition of bool. /// Allow implementation to inject some additional information about function /// linkage and/or symbol visibility in the output library. #ifndef EXPORT #define EXPORT #endif #if __cplusplus extern "C" { #endif /// Host-endian 256-bit integer. /// /// 32 bytes of data representing host-endian (that means little-endian almost /// all the time) 256-bit integer. This applies to the words[] order as well. /// words[0] contains the 64 lowest precision bits, words[3] constains the 64 /// highest precision bits. struct evm_uint256 { /// The 4 64-bit words of the integer. Memory aligned to 8 bytes. uint64_t words[4]; }; /// 160-bit hash suitable for keeping an Ethereum address. struct evm_hash160 { /// The 20 bytes of the hash. uint8_t bytes[20]; }; /// Big-endian 256-bit integer/hash. /// /// 32 bytes of data. For EVM that means big-endian 256-bit integer. Values of /// this type are converted to host-endian values inside EVM. struct evm_hash256 { union { /// The 32 bytes of the integer/hash. Memory aligned to 8 bytes. uint8_t bytes[32]; /// Additional access by uint64 words to enforce 8 bytes alignment. uint64_t words[4]; }; }; #define EVM_EXCEPTION INT64_MIN ///< The execution ended with an exception. /// Complex struct representing execution result. struct evm_result { /// Gas left after execution or exception indicator. int64_t gas_left; /// Rerefence to output data. The memory containing the output data /// is owned by EVM and is freed with evm_destroy_result(). uint8_t const* output_data; /// Size of the output data. size_t output_size; /// Pointer to EVM-owned memory. /// @see output_data. void* internal_memory; }; /// The query callback key. enum evm_query_key { EVM_SLOAD = 0, ///< Storage value of a given key for SLOAD. EVM_ADDRESS = 1, ///< Address of the contract for ADDRESS. EVM_CALLER = 2, ///< Message sender address for CALLER. EVM_ORIGIN = 3, ///< Transaction origin address for ORIGIN. EVM_GAS_PRICE = 4, ///< Transaction gas price for GASPRICE. EVM_COINBASE = 5, ///< Current block miner address for COINBASE. EVM_DIFFICULTY = 6, ///< Current block difficulty for DIFFICULTY. EVM_GAS_LIMIT = 7, ///< Current block gas limit for GASLIMIT. EVM_NUMBER = 8, ///< Current block number for NUMBER. EVM_TIMESTAMP = 9, ///< Current block timestamp for TIMESTAMP. EVM_CODE_BY_ADDRESS = 10, ///< Code by an address for EXTCODE/SIZE. EVM_BALANCE = 11, ///< Balance of a given address for BALANCE. EVM_BLOCKHASH = 12 ///< Block hash of by block number for BLOCKHASH. }; /// Opaque struct representing execution enviroment managed by the host /// application. struct evm_env; /// Variant type to represent possible types of values used in EVM. /// /// Type-safety is lost around the code that uses this type. We should have /// complete set of unit tests covering all possible cases. /// The size of the type is 64 bytes and should fit in single cache line. union evm_variant { /// A host-endian 64-bit integer. int64_t int64; /// A host-endian 256-bit integer. struct evm_uint256 uint256; /// A big-endian 256-bit integer/hash. struct evm_hash256 hash256; struct { /// Additional padding to align the evm_variant::address with lower /// bytes of a full 256-bit hash. uint8_t address_padding[12]; /// An Ethereum address. struct evm_hash160 address; }; /// A memory reference. struct { /// Pointer to the data. uint8_t const* data; /// Size of the referenced memory/data. size_t data_size; }; }; /// Query callback function. /// /// This callback function is used by the EVM to query the host application /// about additional data required to execute EVM code. /// @param env Pointer to execution environment managed by the host /// application. /// @param key The kind of the query. See evm_query_key and details below. /// @param arg Additional argument to the query. It has defined value only for /// the subset of query keys. /// /// ## Types of queries /// Key | Arg | Expected result /// ----------------------| -------------------- | ---------------------------- /// ::EVM_GAS_PRICE | | evm_variant::uint256 /// ::EVM_ADDRESS | | evm_variant::address /// ::EVM_CALLER | | evm_variant::address /// ::EVM_ORIGIN | | evm_variant::address /// ::EVM_COINBASE | | evm_variant::address /// ::EVM_DIFFICULTY | | evm_variant::uint256 /// ::EVM_GAS_LIMIT | | evm_variant::uint256 /// ::EVM_NUMBER | | evm_variant::int64? /// ::EVM_TIMESTAMP | | evm_variant::int64? /// ::EVM_CODE_BY_ADDRESS | evm_variant::address | evm_variant::data /// ::EVM_BALANCE | evm_variant::address | evm_variant::uint256 /// ::EVM_BLOCKHASH | evm_variant::int64 | evm_variant::hash256 /// ::EVM_SLOAD | evm_variant::uint256 | evm_variant::uint256? typedef union evm_variant (*evm_query_fn)(struct evm_env* env, enum evm_query_key key, union evm_variant arg); /// The update callback key. enum evm_update_key { EVM_SSTORE = 0, ///< Update storage entry EVM_LOG = 1, ///< Log. EVM_SELFDESTRUCT = 2, ///< Mark contract as selfdestructed and set /// beneficiary address. }; /// Update callback function. /// /// This callback function is used by the EVM to modify contract state in the /// host application. /// @param env Pointer to execution environment managed by the host /// application. /// @param key The kind of the update. See evm_update_key and details below. /// @param arg1 Additional argument to the update. It has defined value only for /// the subset of update keys. /// @param arg1 Additional argument to the update. It has defined value only for /// the subset of update keys. /// /// ## Types of updates /// Key | Arg1 | Arg2 /// ----------------------| -------------------- | -------------------- /// ::EVM_SSTORE | evm_variant::uint256 | evm_variant::uint256 /// ::EVM_LOG | evm_variant::data | evm_variant::data /// ::EVM_SELFDESTRUCT | evm_variant::address | n/a typedef void (*evm_update_fn)(struct evm_env* env, enum evm_update_key key, union evm_variant arg1, union evm_variant arg2); /// The kind of call-like instruction. enum evm_call_kind { EVM_CALL = 0, ///< Request CALL. EVM_DELEGATECALL = 1, ///< Request DELEGATECALL. The value param ignored. EVM_CALLCODE = 2, ///< Request CALLCODE. EVM_CREATE = 3 ///< Request CREATE. Semantic of some params changes. }; /// Pointer to the callback function supporting EVM calls. /// /// @param env Pointer to execution environment managed by the host /// application. /// @param kind The kind of call-like opcode requested. /// @param gas The amount of gas for the call. /// @param address The address of a contract to be called. Ignored in case /// of CREATE. /// @param value The value sent to the callee. The endowment in case of /// CREATE. /// @param input The call input data or the create init code. /// @param input_size The size of the input data. /// @param output The reference to the memory where the call output is to /// be copied. In case of create, the memory is guaranteed /// to be at least 160 bytes to hold the address of the /// created contract. /// @param output_data The size of the output data. In case of create, expected /// value is 160. /// @return If non-negative - the amount of gas left, /// If negative - an exception occurred during the call/create. /// There is no need to set 0 address in the output in this case. typedef int64_t (*evm_call_fn)( struct evm_env* env, enum evm_call_kind kind, int64_t gas, struct evm_hash160 address, struct evm_uint256 value, uint8_t const* input, size_t input_size, uint8_t* output, size_t output_size); /// A piece of information about the EVM implementation. enum evm_info_key { EVM_NAME = 0, ///< The name of the EVM implementation. ASCII encoded. EVM_VERSION = 1 ///< The software version of the EVM. }; /// Request information about the EVM implementation. /// /// @param key What do you want to know? /// @return Requested information as a c-string. Nonnull. EXPORT char const* evm_get_info(enum evm_info_key key); /// Opaque type representing a EVM instance. struct evm_instance; /// Creates new EVM instance. /// /// Creates new EVM instance. The instance must be destroyed in evm_destroy(). /// Single instance is thread-safe and can be shared by many threads. Having /// **multiple instances is safe but discouraged** as it has not benefits over /// having the singleton. /// /// @param query_fn Pointer to query callback function. Nonnull. /// @param update_fn Pointer to update callback function. Nonnull. /// @param call_fn Pointer to call callback function. Nonnull. /// @return Pointer to the created EVM instance. EXPORT struct evm_instance* evm_create(evm_query_fn query_fn, evm_update_fn update_fn, evm_call_fn call_fn); /// Destroys the EVM instance. /// /// @param evm The EVM instance to be destroyed. EXPORT void evm_destroy(struct evm_instance* evm); /// Configures the EVM instance. /// /// Allows modifying options of the EVM instance. /// Options: /// - code cache behavior: on, off, read-only, ... /// - optimizations, /// /// @param evm The EVM instance to be configured. /// @param name The option name. Cannot be null. /// @param value The new option value. Cannot be null. /// @return True if the option set successfully. EXPORT bool evm_set_option(struct evm_instance* evm, char const* name, char const* value); /// EVM compatibility mode aka chain mode. /// TODO: Can you suggest better name? enum evm_mode { EVM_FRONTIER = 0, EVM_HOMESTEAD = 1 }; /// Generates and executes machine code for given EVM bytecode. /// /// All the fun is here. This function actually does something useful. /// /// @param instance A EVM instance. /// @param env A pointer to the execution environment provided by the /// user and passed to callback functions. /// @param mode EVM compatibility mode. /// @param code_hash A hash of the bytecode, usually Keccak. The EVM uses it /// as the code identifier. A EVM implementation is able to /// hash the code itself if it requires it, but the host /// application usually has the hash already. /// @param code Reference to the bytecode to be executed. /// @param code_size The length of the bytecode. /// @param gas Gas for execution. Min 0, max 2^63-1. /// @param input Reference to the input data. /// @param input_size The size of the input data. /// @param value Call value. /// @return All execution results. EXPORT struct evm_result evm_execute(struct evm_instance* instance, struct evm_env* env, enum evm_mode mode, struct evm_hash256 code_hash, uint8_t const* code, size_t code_size, int64_t gas, uint8_t const* input, size_t input_size, struct evm_uint256 value); /// Destroys execution result. EXPORT void evm_destroy_result(struct evm_result); /// @defgroup EVMJIT EVMJIT extenstion to EVM-C /// @{ EXPORT bool evmjit_is_code_ready(struct evm_instance* instance, enum evm_mode mode, struct evm_hash256 code_hash); EXPORT void evmjit_compile(struct evm_instance* instance, enum evm_mode mode, uint8_t const* code, size_t code_size, struct evm_hash256 code_hash); /// @} #if __cplusplus } #endif /// @}