from random import Random from typing import Any from enum import Enum from eth2spec.utils.ssz.ssz_impl import is_basic_type from eth2spec.utils.ssz.ssz_typing import ( is_uint_type, is_bool_type, is_list_type, is_vector_type, is_bytes_type, is_bytesn_type, is_container_type, read_vector_elem_type, read_list_elem_type, uint_byte_size ) # in bytes UINT_SIZES = [1, 2, 4, 8, 16, 32] random_mode_names = ["random", "zero", "max", "nil", "one", "lengthy"] class RandomizationMode(Enum): # random content / length mode_random = 0 # Zero-value mode_zero = 1 # Maximum value, limited to count 1 however mode_max = 2 # Return 0 values, i.e. empty mode_nil_count = 3 # Return 1 value, random content mode_one_count = 4 # Return max amount of values, random content mode_max_count = 5 def to_name(self): return random_mode_names[self.value] def is_changing(self): return self.value in [0, 4, 5] def get_random_ssz_object(rng: Random, typ: Any, max_bytes_length: int, max_list_length: int, mode: RandomizationMode, chaos: bool) -> Any: """ Create an object for a given type, filled with random data. :param rng: The random number generator to use. :param typ: The type to instantiate :param max_bytes_length: the max. length for a random bytes array :param max_list_length: the max. length for a random list :param mode: how to randomize :param chaos: if true, the randomization-mode will be randomly changed :return: the random object instance, of the given type. """ if chaos: mode = rng.choice(list(RandomizationMode)) # Bytes array if is_bytes_type(typ): if mode == RandomizationMode.mode_nil_count: return b'' if mode == RandomizationMode.mode_max_count: return get_random_bytes_list(rng, max_bytes_length) if mode == RandomizationMode.mode_one_count: return get_random_bytes_list(rng, 1) if mode == RandomizationMode.mode_zero: return b'\x00' if mode == RandomizationMode.mode_max: return b'\xff' return get_random_bytes_list(rng, rng.randint(0, max_bytes_length)) elif is_bytesn_type(typ): length = typ.length # Sanity, don't generate absurdly big random values # If a client is aiming to performance-test, they should create a benchmark suite. assert length <= max_bytes_length if mode == RandomizationMode.mode_zero: return b'\x00' * length if mode == RandomizationMode.mode_max: return b'\xff' * length return get_random_bytes_list(rng, length) # Basic types elif is_basic_type(typ): if mode == RandomizationMode.mode_zero: return get_min_basic_value(typ) if mode == RandomizationMode.mode_max: return get_max_basic_value(typ) return get_random_basic_value(rng, typ) # Vector: elif is_vector_type(typ): elem_typ = read_vector_elem_type(typ) return [ get_random_ssz_object(rng, elem_typ, max_bytes_length, max_list_length, mode, chaos) for _ in range(typ.length) ] # List: elif is_list_type(typ): elem_typ = read_list_elem_type(typ) length = rng.randint(0, max_list_length) if mode == RandomizationMode.mode_one_count: length = 1 if mode == RandomizationMode.mode_max_count: length = max_list_length return [ get_random_ssz_object(rng, elem_typ, max_bytes_length, max_list_length, mode, chaos) for _ in range(length) ] # Container: elif is_container_type(typ): return typ(**{ field: get_random_ssz_object(rng, subtype, max_bytes_length, max_list_length, mode, chaos) for field, subtype in typ.get_fields() }) else: print(typ) raise Exception("Type not recognized") def get_random_bytes_list(rng: Random, length: int) -> bytes: return bytes(rng.getrandbits(8) for _ in range(length)) def get_random_basic_value(rng: Random, typ) -> Any: if is_bool_type(typ): return rng.choice((True, False)) if is_uint_type(typ): size = uint_byte_size(typ) assert size in UINT_SIZES return rng.randint(0, 256**size - 1) else: raise ValueError("Not a basic type") def get_min_basic_value(typ) -> Any: if is_bool_type(typ): return False if is_uint_type(typ): size = uint_byte_size(typ) assert size in UINT_SIZES return 0 else: raise ValueError("Not a basic type") def get_max_basic_value(typ) -> Any: if is_bool_type(typ): return True if is_uint_type(typ): size = uint_byte_size(typ) assert size in UINT_SIZES return 256**size - 1 else: raise ValueError("Not a basic type")