"""Framework classes for generation of bignum mod test cases.""" # Copyright The Mbed TLS Contributors # SPDX-License-Identifier: Apache-2.0 # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from typing import Dict, List from . import test_data_generation from . import bignum_common from .bignum_data import ONLY_PRIME_MODULI class BignumModTarget(test_data_generation.BaseTarget): #pylint: disable=abstract-method, too-few-public-methods """Target for bignum mod test case generation.""" target_basename = 'test_suite_bignum_mod.generated' class BignumModMul(bignum_common.ModOperationCommon, BignumModTarget): # pylint:disable=duplicate-code """Test cases for bignum mpi_mod_mul().""" symbol = "*" test_function = "mpi_mod_mul" test_name = "mbedtls_mpi_mod_mul" input_style = "arch_split" arity = 2 def arguments(self) -> List[str]: return [self.format_result(self.to_montgomery(self.int_a)), self.format_result(self.to_montgomery(self.int_b)), bignum_common.quote_str(self.arg_n) ] + self.result() def result(self) -> List[str]: result = (self.int_a * self.int_b) % self.int_n return [self.format_result(self.to_montgomery(result))] class BignumModSub(bignum_common.ModOperationCommon, BignumModTarget): """Test cases for bignum mpi_mod_sub().""" symbol = "-" test_function = "mpi_mod_sub" test_name = "mbedtls_mpi_mod_sub" input_style = "fixed" arity = 2 def result(self) -> List[str]: result = (self.int_a - self.int_b) % self.int_n # To make negative tests easier, append 0 for success to the # generated cases return [self.format_result(result), "0"] class BignumModInvNonMont(bignum_common.ModOperationCommon, BignumModTarget): """Test cases for bignum mpi_mod_inv() - not in Montgomery form.""" moduli = ONLY_PRIME_MODULI # for now only prime moduli supported symbol = "^ -1" test_function = "mpi_mod_inv_non_mont" test_name = "mbedtls_mpi_mod_inv non-Mont. form" input_style = "fixed" arity = 1 suffix = True disallow_zero_a = True def result(self) -> List[str]: result = bignum_common.invmod_positive(self.int_a, self.int_n) # To make negative tests easier, append 0 for success to the # generated cases return [self.format_result(result), "0"] class BignumModInvMont(bignum_common.ModOperationCommon, BignumModTarget): """Test cases for bignum mpi_mod_inv() - Montgomery form.""" moduli = ONLY_PRIME_MODULI # for now only prime moduli supported symbol = "^ -1" test_function = "mpi_mod_inv_mont" test_name = "mbedtls_mpi_mod_inv Mont. form" input_style = "arch_split" # Mont. form requires arch_split arity = 1 suffix = True disallow_zero_a = True montgomery_form_a = True def result(self) -> List[str]: result = bignum_common.invmod_positive(self.int_a, self.int_n) mont_result = self.to_montgomery(result) # To make negative tests easier, append 0 for success to the # generated cases return [self.format_result(mont_result), "0"] class BignumModAdd(bignum_common.ModOperationCommon, BignumModTarget): """Test cases for bignum mpi_mod_add().""" count = 0 symbol = "+" test_function = "mpi_mod_add" test_name = "mbedtls_mpi_mod_add" input_style = "fixed" def result(self) -> List[str]: result = (self.int_a + self.int_b) % self.int_n # To make negative tests easier, append "0" for success to the # generated cases return [self.format_result(result), "0"]