"""Common code for test data generation. This module defines classes that are of general use to automatically generate .data files for unit tests, as well as a main function. These are used both by generate_psa_tests.py and generate_bignum_tests.py. """ # 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. import argparse import os import posixpath import re from abc import ABCMeta, abstractmethod from typing import Callable, Dict, Iterable, Iterator, List, Type, TypeVar from . import build_tree from . import test_case T = TypeVar('T') #pylint: disable=invalid-name class BaseTarget(metaclass=ABCMeta): """Base target for test case generation. Child classes of this class represent an output file, and can be referred to as file targets. These indicate where test cases will be written to for all subclasses of the file target, which is set by `target_basename`. Attributes: count: Counter for test cases from this class. case_description: Short description of the test case. This may be automatically generated using the class, or manually set. dependencies: A list of dependencies required for the test case. show_test_count: Toggle for inclusion of `count` in the test description. target_basename: Basename of file to write generated tests to. This should be specified in a child class of BaseTarget. test_function: Test function which the class generates cases for. test_name: A common name or description of the test function. This can be `test_function`, a clearer equivalent, or a short summary of the test function's purpose. """ count = 0 case_description = "" dependencies = [] # type: List[str] show_test_count = True target_basename = "" test_function = "" test_name = "" def __new__(cls, *args, **kwargs): # pylint: disable=unused-argument cls.count += 1 return super().__new__(cls) @abstractmethod def arguments(self) -> List[str]: """Get the list of arguments for the test case. Override this method to provide the list of arguments required for the `test_function`. Returns: List of arguments required for the test function. """ raise NotImplementedError def description(self) -> str: """Create a test case description. Creates a description of the test case, including a name for the test function, an optional case count, and a description of the specific test case. This should inform a reader what is being tested, and provide context for the test case. Returns: Description for the test case. """ if self.show_test_count: return "{} #{} {}".format( self.test_name, self.count, self.case_description ).strip() else: return "{} {}".format(self.test_name, self.case_description).strip() def create_test_case(self) -> test_case.TestCase: """Generate TestCase from the instance.""" tc = test_case.TestCase() tc.set_description(self.description()) tc.set_function(self.test_function) tc.set_arguments(self.arguments()) tc.set_dependencies(self.dependencies) return tc @classmethod @abstractmethod def generate_function_tests(cls) -> Iterator[test_case.TestCase]: """Generate test cases for the class test function. This will be called in classes where `test_function` is set. Implementations should yield TestCase objects, by creating instances of the class with appropriate input data, and then calling `create_test_case()` on each. """ raise NotImplementedError @classmethod def generate_tests(cls) -> Iterator[test_case.TestCase]: """Generate test cases for the class and its subclasses. In classes with `test_function` set, `generate_function_tests()` is called to generate test cases first. In all classes, this method will iterate over its subclasses, and yield from `generate_tests()` in each. Calling this method on a class X will yield test cases from all classes derived from X. """ if cls.test_function: yield from cls.generate_function_tests() for subclass in sorted(cls.__subclasses__(), key=lambda c: c.__name__): yield from subclass.generate_tests() class TestGenerator: """Generate test cases and write to data files.""" def __init__(self, options) -> None: self.test_suite_directory = options.directory # Update `targets` with an entry for each child class of BaseTarget. # Each entry represents a file generated by the BaseTarget framework, # and enables generating the .data files using the CLI. self.targets.update({ subclass.target_basename: subclass.generate_tests for subclass in BaseTarget.__subclasses__() if subclass.target_basename }) def filename_for(self, basename: str) -> str: """The location of the data file with the specified base name.""" return posixpath.join(self.test_suite_directory, basename + '.data') def write_test_data_file(self, basename: str, test_cases: Iterable[test_case.TestCase]) -> None: """Write the test cases to a .data file. The output file is ``basename + '.data'`` in the test suite directory. """ filename = self.filename_for(basename) test_case.write_data_file(filename, test_cases) # Note that targets whose names contain 'test_format' have their content # validated by `abi_check.py`. targets = {} # type: Dict[str, Callable[..., Iterable[test_case.TestCase]]] def generate_target(self, name: str, *target_args) -> None: """Generate cases and write to data file for a target. For target callables which require arguments, override this function and pass these arguments using super() (see PSATestGenerator). """ test_cases = self.targets[name](*target_args) self.write_test_data_file(name, test_cases) def main(args, description: str, generator_class: Type[TestGenerator] = TestGenerator): """Command line entry point.""" parser = argparse.ArgumentParser(description=description) parser.add_argument('--list', action='store_true', help='List available targets and exit') parser.add_argument('--list-for-cmake', action='store_true', help='Print \';\'-separated list of available targets and exit') # If specified explicitly, this option may be a path relative to the # current directory when the script is invoked. The default value # is relative to the mbedtls root, which we don't know yet. So we # can't set a string as the default value here. parser.add_argument('--directory', metavar='DIR', help='Output directory (default: tests/suites)') parser.add_argument('targets', nargs='*', metavar='TARGET', help='Target file to generate (default: all; "-": none)') options = parser.parse_args(args) # Change to the mbedtls root, to keep things simple. But first, adjust # command line options that might be relative paths. if options.directory is None: options.directory = 'tests/suites' else: options.directory = os.path.abspath(options.directory) build_tree.chdir_to_root() generator = generator_class(options) if options.list: for name in sorted(generator.targets): print(generator.filename_for(name)) return # List in a cmake list format (i.e. ';'-separated) if options.list_for_cmake: print(';'.join(generator.filename_for(name) for name in sorted(generator.targets)), end='') return if options.targets: # Allow "-" as a special case so you can run # ``generate_xxx_tests.py - $targets`` and it works uniformly whether # ``$targets`` is empty or not. options.targets = [os.path.basename(re.sub(r'\.data\Z', r'', target)) for target in options.targets if target != '-'] else: options.targets = sorted(generator.targets) for target in options.targets: generator.generate_target(target)