Exemple #1
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def test_split_chained_sub_model_plans(
        tmp_path: pathlib.Path, simplified_nist_catalog: oscatalog.Catalog,
        keep_cwd: pathlib.Path) -> None:
    """Test for split_model method with chained sum models like catalog.metadata.parties.*."""
    # Assume we are running a command like below
    # trestle split -f catalog.json -e catalog.metadata.parties.*
    # see https://github.com/IBM/compliance-trestle/issues/172
    content_type = FileContentType.JSON

    # prepare trestle project dir with the file
    catalog_dir, catalog_file = test_utils.prepare_trestle_project_dir(
        tmp_path, content_type, simplified_nist_catalog,
        test_utils.CATALOGS_DIR)

    # read the model from file
    catalog = oscatalog.Catalog.oscal_read(catalog_file)
    element = Element(catalog)
    element_args = ['catalog.metadata.parties.*']
    element_paths = cmd_utils.parse_element_args(
        None, element_args, catalog_dir.relative_to(tmp_path))
    assert 2 == len(element_paths)

    expected_plan = Plan()

    # prepare to extract metadata and parties
    metadata_file = catalog_dir / element_paths[0].to_file_path(content_type)
    metadata_field_alias = element_paths[0].get_element_name()
    metadata = element.get_at(element_paths[0])
    meta_element = Element(metadata, metadata_field_alias)

    # extract parties
    parties_dir = catalog_dir / 'catalog/metadata/parties'
    for i, party in enumerate(meta_element.get_at(element_paths[1], False)):
        prefix = str(i).zfill(const.FILE_DIGIT_PREFIX_LENGTH)
        sub_model_actions = SplitCmd.prepare_sub_model_split_actions(
            party, parties_dir, prefix, content_type)
        expected_plan.add_actions(sub_model_actions)

    # stripped metadata
    stripped_metadata = metadata.stripped_instance(
        stripped_fields_aliases=['parties'])
    expected_plan.add_action(CreatePathAction(metadata_file))
    expected_plan.add_action(
        WriteFileAction(metadata_file,
                        Element(stripped_metadata, metadata_field_alias),
                        content_type))

    # stripped catalog
    root_file = catalog_dir / element_paths[0].to_root_path(content_type)
    remaining_root = element.get().stripped_instance(metadata_field_alias)
    expected_plan.add_action(CreatePathAction(root_file, True))
    expected_plan.add_action(
        WriteFileAction(root_file, Element(remaining_root), content_type))

    split_plan = SplitCmd.split_model(catalog, element_paths, catalog_dir,
                                      content_type, '', None)
    assert expected_plan == split_plan
Exemple #2
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def test_split_model_plans(
        tmp_path: pathlib.Path,
        sample_nist_component_def: component.ComponentDefinition) -> None:
    """Test for split_model method."""
    # Assume we are running a command like below
    # trestle split -f component-definition.yaml -e component-definition.metadata
    content_type = FileContentType.YAML

    # prepare trestle project dir with the file
    component_def_dir, component_def_file = test_utils.prepare_trestle_project_dir(
        tmp_path, content_type, sample_nist_component_def,
        test_utils.COMPONENT_DEF_DIR)

    # read the model from file
    component_def = component.ComponentDefinition.oscal_read(
        component_def_file)
    element = Element(component_def)
    element_args = ['component-definition.metadata']
    element_paths = cmd_utils.parse_element_args(None, element_args)

    # extract values
    metadata_file = component_def_dir / element_paths[0].to_file_path(
        content_type)
    metadata = element.get_at(element_paths[0])

    root_file = component_def_dir / element_paths[0].to_root_path(content_type)
    remaining_root = element.get().stripped_instance(
        element_paths[0].get_element_name())

    # prepare the plan
    expected_plan = Plan()
    expected_plan.add_action(CreatePathAction(metadata_file))
    expected_plan.add_action(
        WriteFileAction(metadata_file, Element(metadata), content_type))
    expected_plan.add_action(CreatePathAction(root_file, True))
    expected_plan.add_action(
        WriteFileAction(root_file, Element(remaining_root), content_type))

    split_plan = SplitCmd.split_model(component_def, element_paths,
                                      component_def_dir, content_type, '',
                                      None)
    assert expected_plan == split_plan
Exemple #3
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def test_split_model(tmp_dir, sample_target_def: ostarget.TargetDefinition):
    """Test for split_model method."""
    # Assume we are running a command like below
    # trestle split -f target-definition.yaml -e target-definition.metadata
    content_type = FileContentType.YAML

    # prepare trestle project dir with the file
    target_def_dir, target_def_file = test_utils.prepare_trestle_project_dir(
        tmp_dir, content_type, sample_target_def, test_utils.TARGET_DEFS_DIR)

    # read the model from file
    target_def = ostarget.TargetDefinition.oscal_read(target_def_file)
    element = Element(target_def)
    element_args = ['target-definition.metadata']
    element_paths = cmd_utils.parse_element_args(element_args)

    # extract values
    metadata_file = target_def_dir / element_paths[0].to_file_path(
        content_type)
    metadata = element.get_at(element_paths[0])

    root_file = target_def_dir / element_paths[0].to_root_path(content_type)
    remaining_root = element.get().stripped_instance(
        element_paths[0].get_element_name())

    # prepare the plan
    expected_plan = Plan()
    expected_plan.add_action(CreatePathAction(metadata_file))
    expected_plan.add_action(
        WriteFileAction(metadata_file, Element(metadata), content_type))
    expected_plan.add_action(CreatePathAction(root_file, True))
    expected_plan.add_action(
        WriteFileAction(root_file, Element(remaining_root), content_type))

    split_plan = SplitCmd.split_model(target_def, element_paths,
                                      target_def_dir, content_type)
    assert expected_plan == split_plan
Exemple #4
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def test_split_multi_level_dict(
        tmp_path: pathlib.Path,
        sample_target_def: ostarget.TargetDefinition) -> None:
    """Test for split_model method."""
    # Assume we are running a command like below
    # trestle split -f target.yaml -e target-definition.targets.*.target-control-implementations.*

    content_type = FileContentType.YAML

    # prepare trestle project dir with the file
    target_def_dir, target_def_file = test_utils.prepare_trestle_project_dir(
        tmp_path, content_type, sample_target_def, test_utils.TARGET_DEFS_DIR)

    file_ext = FileContentType.to_file_extension(content_type)

    # read the model from file
    target_def: ostarget.TargetDefinition = ostarget.TargetDefinition.oscal_read(
        target_def_file)
    element = Element(target_def)
    element_args = [
        'target-definition.targets.*.target-control-implementations.*'
    ]
    element_paths = test_utils.prepare_element_paths(target_def_dir,
                                                     element_args)

    expected_plan = Plan()

    # extract values
    targets: dict = element.get_at(element_paths[0])
    targets_dir = target_def_dir / element_paths[0].to_file_path()

    # split every targets
    for key in targets:
        # individual target dir
        target: ostarget.Target = targets[key]
        target_element = Element(targets[key])
        model_type = utils.classname_to_alias(type(target).__name__, 'json')
        dir_prefix = key
        target_dir_name = f'{dir_prefix}{const.IDX_SEP}{model_type}'
        target_file = targets_dir / f'{target_dir_name}{file_ext}'

        # target control impl dir for the target
        target_ctrl_impls: dict = target_element.get_at(element_paths[1])
        targets_ctrl_dir = targets_dir / element_paths[1].to_file_path(
            root_dir=target_dir_name)

        for i, target_ctrl_impl in enumerate(target_ctrl_impls):
            model_type = utils.classname_to_alias(
                type(target_ctrl_impl).__name__, 'json')
            file_prefix = str(i).zfill(const.FILE_DIGIT_PREFIX_LENGTH)
            file_name = f'{file_prefix}{const.IDX_SEP}{model_type}{file_ext}'
            file_path = targets_ctrl_dir / file_name
            expected_plan.add_action(CreatePathAction(file_path))
            expected_plan.add_action(
                WriteFileAction(file_path, Element(target_ctrl_impl),
                                content_type))

        # write stripped target model
        stripped_target = target.stripped_instance(
            stripped_fields_aliases=[element_paths[1].get_element_name()])
        expected_plan.add_action(CreatePathAction(target_file))
        expected_plan.add_action(
            WriteFileAction(target_file, Element(stripped_target),
                            content_type))

    root_file = target_def_dir / f'target-definition{file_ext}'
    remaining_root = element.get().stripped_instance(
        stripped_fields_aliases=[element_paths[0].get_element_name()])
    expected_plan.add_action(CreatePathAction(root_file, True))
    expected_plan.add_action(
        WriteFileAction(root_file, Element(remaining_root), content_type))

    split_plan = SplitCmd.split_model(target_def, element_paths,
                                      target_def_dir, content_type)
    assert expected_plan == split_plan
Exemple #5
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def test_subsequent_split_model(
        tmp_path: pathlib.Path,
        sample_target_def: ostarget.TargetDefinition) -> None:
    """Test subsequent split of sub models."""
    # Assume we are running a command like below
    # trestle split -f target-definition.yaml -e target-definition.metadata

    content_type = FileContentType.YAML

    # prepare trestle project dir with the file
    target_def_dir, target_def_file = test_utils.prepare_trestle_project_dir(
        tmp_path, content_type, sample_target_def, test_utils.TARGET_DEFS_DIR)

    # first split the target-def into metadata
    target_def = ostarget.TargetDefinition.oscal_read(target_def_file)
    element = Element(target_def, 'target-definition')
    element_args = ['target-definition.metadata']
    element_paths = test_utils.prepare_element_paths(target_def_dir,
                                                     element_args)
    metadata_file = target_def_dir / element_paths[0].to_file_path(
        content_type)
    metadata: ostarget.Metadata = element.get_at(element_paths[0])
    root_file = target_def_dir / element_paths[0].to_root_path(content_type)
    metadata_field_alias = element_paths[0].get_element_name()
    stripped_root = element.get().stripped_instance(
        stripped_fields_aliases=[metadata_field_alias])
    root_wrapper_alias = utils.classname_to_alias(
        stripped_root.__class__.__name__, 'json')

    first_plan = Plan()
    first_plan.add_action(CreatePathAction(metadata_file))
    first_plan.add_action(
        WriteFileAction(metadata_file, Element(metadata, metadata_field_alias),
                        content_type))
    first_plan.add_action(CreatePathAction(root_file, True))
    first_plan.add_action(
        WriteFileAction(root_file, Element(stripped_root, root_wrapper_alias),
                        content_type))
    first_plan.execute()  # this will split the files in the temp directory

    # now, prepare the expected plan to split metadta at parties
    second_plan = Plan()
    metadata_file_dir = target_def_dir / element_paths[0].to_root_path()
    metadata2 = ostarget.Metadata.oscal_read(metadata_file)
    element = Element(metadata2, metadata_field_alias)

    element_args = ['metadata.parties.*']
    element_paths = test_utils.prepare_element_paths(target_def_dir,
                                                     element_args)
    parties_dir = metadata_file_dir / element_paths[0].to_file_path()
    for i, party in enumerate(element.get_at(element_paths[0])):
        prefix = str(i).zfill(const.FILE_DIGIT_PREFIX_LENGTH)
        sub_model_actions = SplitCmd.prepare_sub_model_split_actions(
            party, parties_dir, prefix, content_type)
        second_plan.add_actions(sub_model_actions)

    # stripped metadata
    stripped_metadata = metadata2.stripped_instance(
        stripped_fields_aliases=['parties'])
    second_plan.add_action(CreatePathAction(metadata_file, True))
    second_plan.add_action(
        WriteFileAction(metadata_file,
                        Element(stripped_metadata, metadata_field_alias),
                        content_type))

    # call the split command and compare the plans
    split_plan = SplitCmd.split_model(metadata, element_paths,
                                      metadata_file_dir, content_type)
    assert second_plan == split_plan
Exemple #6
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def test_split_multi_level_dict_plans(
        tmp_path: pathlib.Path,
        sample_nist_component_def: component.ComponentDefinition,
        keep_cwd) -> None:
    """Test for split_model method."""
    # Assume we are running a command like below
    # trestle split -f target.yaml -e component-definition.components.*.control-implementations.*

    content_type = FileContentType.YAML

    # prepare trestle project dir with the file
    component_def_dir, component_def_file = test_utils.prepare_trestle_project_dir(
        tmp_path, content_type, sample_nist_component_def,
        test_utils.COMPONENT_DEF_DIR)

    file_ext = FileContentType.to_file_extension(content_type)

    # read the model from file
    component_def: component.ComponentDefinition = component.ComponentDefinition.oscal_read(
        component_def_file)
    element = Element(component_def)
    element_args = [
        'component-definition.components.*.control-implementations.*'
    ]
    element_paths = cmd_utils.parse_element_args(
        None, element_args, component_def_dir.relative_to(tmp_path))

    expected_plan = Plan()

    # extract values
    components: list = element.get_at(element_paths[0])
    components_dir = component_def_dir / element_paths[0].to_file_path()

    # split every targets
    for index, comp_obj in enumerate(components):
        # individual target dir
        component_element = Element(comp_obj)
        model_type = str_utils.classname_to_alias(
            type(comp_obj).__name__, AliasMode.JSON)
        dir_prefix = str(index).zfill(const.FILE_DIGIT_PREFIX_LENGTH)
        component_dir_name = f'{dir_prefix}{const.IDX_SEP}{model_type}'
        component_file = components_dir / f'{component_dir_name}{file_ext}'

        # target control impl dir for the target
        component_ctrl_impls: list = component_element.get_at(element_paths[1])
        component_ctrl_dir = components_dir / element_paths[1].to_file_path(
            root_dir=component_dir_name)

        for i, component_ctrl_impl in enumerate(component_ctrl_impls):
            model_type = str_utils.classname_to_alias(
                type(component_ctrl_impl).__name__, AliasMode.JSON)
            file_prefix = str(i).zfill(const.FILE_DIGIT_PREFIX_LENGTH)
            file_name = f'{file_prefix}{const.IDX_SEP}{model_type}{file_ext}'
            file_path = component_ctrl_dir / file_name
            expected_plan.add_action(CreatePathAction(file_path))
            expected_plan.add_action(
                WriteFileAction(file_path, Element(component_ctrl_impl),
                                content_type))

        # write stripped target model
        stripped_target = comp_obj.stripped_instance(
            stripped_fields_aliases=[element_paths[1].get_element_name()])
        expected_plan.add_action(CreatePathAction(component_file))
        expected_plan.add_action(
            WriteFileAction(component_file, Element(stripped_target),
                            content_type))

    root_file = component_def_dir / f'component-definition{file_ext}'
    remaining_root = element.get().stripped_instance(
        stripped_fields_aliases=[element_paths[0].get_element_name()])
    expected_plan.add_action(CreatePathAction(root_file, True))
    expected_plan.add_action(
        WriteFileAction(root_file, Element(remaining_root), content_type))

    split_plan = SplitCmd.split_model(component_def, element_paths,
                                      component_def_dir, content_type, '',
                                      None)
    assert expected_plan == split_plan