# Copyright (c) 2018 Cisco and/or its affiliates. # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . # from ansible_collections.community.general.plugins.module_utils.network.ftd.common import HTTPMethod from ansible.module_utils.six import integer_types, string_types, iteritems FILE_MODEL_NAME = '_File' SUCCESS_RESPONSE_CODE = '200' DELETE_PREFIX = 'delete' class OperationField: URL = 'url' METHOD = 'method' PARAMETERS = 'parameters' MODEL_NAME = 'modelName' DESCRIPTION = 'description' RETURN_MULTIPLE_ITEMS = 'returnMultipleItems' TAGS = "tags" class SpecProp: DEFINITIONS = 'definitions' OPERATIONS = 'operations' MODELS = 'models' MODEL_OPERATIONS = 'model_operations' class PropName: ENUM = 'enum' TYPE = 'type' REQUIRED = 'required' INVALID_TYPE = 'invalid_type' REF = '$ref' ALL_OF = 'allOf' BASE_PATH = 'basePath' PATHS = 'paths' OPERATION_ID = 'operationId' SCHEMA = 'schema' ITEMS = 'items' PROPERTIES = 'properties' RESPONSES = 'responses' NAME = 'name' DESCRIPTION = 'description' class PropType: STRING = 'string' BOOLEAN = 'boolean' INTEGER = 'integer' NUMBER = 'number' OBJECT = 'object' ARRAY = 'array' FILE = 'file' class OperationParams: PATH = 'path' QUERY = 'query' class QueryParams: FILTER = 'filter' class PathParams: OBJ_ID = 'objId' def _get_model_name_from_url(schema_ref): path = schema_ref.split('/') return path[len(path) - 1] class IllegalArgumentException(ValueError): """ Exception raised when the function parameters: - not all passed - empty string - wrong type """ pass class ValidationError(ValueError): pass class FdmSwaggerParser: _definitions = None _base_path = None def parse_spec(self, spec, docs=None): """ This method simplifies a swagger format, resolves a model name for each operation, and adds documentation for each operation and model if it is provided. :param spec: An API specification in the swagger format, see :type spec: dict :param spec: A documentation map containing descriptions for models, operations and operation parameters. :type docs: dict :rtype: dict :return: Ex. The models field contains model definition from swagger see <#https://github.com/OAI/OpenAPI-Specification/blob/master/versions/2.0.md#definitions> { 'models':{ 'model_name':{...}, ... }, 'operations':{ 'operation_name':{ 'method': 'get', #post, put, delete 'url': '/api/fdm/v2/object/networks', #url already contains a value from `basePath` 'modelName': 'NetworkObject', # it is a link to the model from 'models' # None - for a delete operation or we don't have information # '_File' - if an endpoint works with files 'returnMultipleItems': False, # shows if the operation returns a single item or an item list 'parameters': { 'path':{ 'param_name':{ 'type': 'string'#integer, boolean, number 'required' True #False } ... }, 'query':{ 'param_name':{ 'type': 'string'#integer, boolean, number 'required' True #False } ... } } }, ... }, 'model_operations':{ 'model_name':{ # a list of operations available for the current model 'operation_name':{ ... # the same as in the operations section }, ... }, ... } } """ self._definitions = spec[SpecProp.DEFINITIONS] self._base_path = spec[PropName.BASE_PATH] operations = self._get_operations(spec) if docs: operations = self._enrich_operations_with_docs(operations, docs) self._definitions = self._enrich_definitions_with_docs(self._definitions, docs) return { SpecProp.MODELS: self._definitions, SpecProp.OPERATIONS: operations, SpecProp.MODEL_OPERATIONS: self._get_model_operations(operations) } @property def base_path(self): return self._base_path def _get_model_operations(self, operations): model_operations = {} for operations_name, params in iteritems(operations): model_name = params[OperationField.MODEL_NAME] model_operations.setdefault(model_name, {})[operations_name] = params return model_operations def _get_operations(self, spec): paths_dict = spec[PropName.PATHS] operations_dict = {} for url, operation_params in iteritems(paths_dict): for method, params in iteritems(operation_params): operation = { OperationField.METHOD: method, OperationField.URL: self._base_path + url, OperationField.MODEL_NAME: self._get_model_name(method, params), OperationField.RETURN_MULTIPLE_ITEMS: self._return_multiple_items(params), OperationField.TAGS: params.get(OperationField.TAGS, []) } if OperationField.PARAMETERS in params: operation[OperationField.PARAMETERS] = self._get_rest_params(params[OperationField.PARAMETERS]) operation_id = params[PropName.OPERATION_ID] operations_dict[operation_id] = operation return operations_dict def _enrich_operations_with_docs(self, operations, docs): def get_operation_docs(op): op_url = op[OperationField.URL][len(self._base_path):] return docs[PropName.PATHS].get(op_url, {}).get(op[OperationField.METHOD], {}) for operation in operations.values(): operation_docs = get_operation_docs(operation) operation[OperationField.DESCRIPTION] = operation_docs.get(PropName.DESCRIPTION, '') if OperationField.PARAMETERS in operation: param_descriptions = dict(( (p[PropName.NAME], p[PropName.DESCRIPTION]) for p in operation_docs.get(OperationField.PARAMETERS, {}) )) for param_name, params_spec in operation[OperationField.PARAMETERS][OperationParams.PATH].items(): params_spec[OperationField.DESCRIPTION] = param_descriptions.get(param_name, '') for param_name, params_spec in operation[OperationField.PARAMETERS][OperationParams.QUERY].items(): params_spec[OperationField.DESCRIPTION] = param_descriptions.get(param_name, '') return operations def _enrich_definitions_with_docs(self, definitions, docs): for model_name, model_def in definitions.items(): model_docs = docs[SpecProp.DEFINITIONS].get(model_name, {}) model_def[PropName.DESCRIPTION] = model_docs.get(PropName.DESCRIPTION, '') for prop_name, prop_spec in model_def.get(PropName.PROPERTIES, {}).items(): prop_spec[PropName.DESCRIPTION] = model_docs.get(PropName.PROPERTIES, {}).get(prop_name, '') prop_spec[PropName.REQUIRED] = prop_name in model_def.get(PropName.REQUIRED, []) return definitions def _get_model_name(self, method, params): if method == HTTPMethod.GET: return self._get_model_name_from_responses(params) elif method == HTTPMethod.POST or method == HTTPMethod.PUT: return self._get_model_name_for_post_put_requests(params) elif method == HTTPMethod.DELETE: return self._get_model_name_from_delete_operation(params) else: return None @staticmethod def _return_multiple_items(op_params): """ Defines if the operation returns one item or a list of items. :param op_params: operation specification :return: True if the operation returns a list of items, otherwise False """ try: schema = op_params[PropName.RESPONSES][SUCCESS_RESPONSE_CODE][PropName.SCHEMA] return PropName.ITEMS in schema[PropName.PROPERTIES] except KeyError: return False def _get_model_name_from_delete_operation(self, params): operation_id = params[PropName.OPERATION_ID] if operation_id.startswith(DELETE_PREFIX): model_name = operation_id[len(DELETE_PREFIX):] if model_name in self._definitions: return model_name return None def _get_model_name_for_post_put_requests(self, params): model_name = None if OperationField.PARAMETERS in params: body_param_dict = self._get_body_param_from_parameters(params[OperationField.PARAMETERS]) if body_param_dict: schema_ref = body_param_dict[PropName.SCHEMA][PropName.REF] model_name = self._get_model_name_byschema_ref(schema_ref) if model_name is None: model_name = self._get_model_name_from_responses(params) return model_name @staticmethod def _get_body_param_from_parameters(params): return next((param for param in params if param['in'] == 'body'), None) def _get_model_name_from_responses(self, params): responses = params[PropName.RESPONSES] if SUCCESS_RESPONSE_CODE in responses: response = responses[SUCCESS_RESPONSE_CODE][PropName.SCHEMA] if PropName.REF in response: return self._get_model_name_byschema_ref(response[PropName.REF]) elif PropName.PROPERTIES in response: ref = response[PropName.PROPERTIES][PropName.ITEMS][PropName.ITEMS][PropName.REF] return self._get_model_name_byschema_ref(ref) elif (PropName.TYPE in response) and response[PropName.TYPE] == PropType.FILE: return FILE_MODEL_NAME else: return None def _get_rest_params(self, params): path = {} query = {} operation_param = { OperationParams.PATH: path, OperationParams.QUERY: query } for param in params: in_param = param['in'] if in_param == OperationParams.QUERY: query[param[PropName.NAME]] = self._simplify_param_def(param) elif in_param == OperationParams.PATH: path[param[PropName.NAME]] = self._simplify_param_def(param) return operation_param @staticmethod def _simplify_param_def(param): return { PropName.TYPE: param[PropName.TYPE], PropName.REQUIRED: param[PropName.REQUIRED] } def _get_model_name_byschema_ref(self, schema_ref): model_name = _get_model_name_from_url(schema_ref) model_def = self._definitions[model_name] if PropName.ALL_OF in model_def: return self._get_model_name_byschema_ref(model_def[PropName.ALL_OF][0][PropName.REF]) else: return model_name class FdmSwaggerValidator: def __init__(self, spec): """ :param spec: dict data from FdmSwaggerParser().parse_spec() """ self._operations = spec[SpecProp.OPERATIONS] self._models = spec[SpecProp.MODELS] def validate_data(self, operation_name, data=None): """ Validate data for the post|put requests :param operation_name: string The value must be non empty string. The operation name is used to get a model specification :param data: dict The value must be in the format that the model(from operation) expects :rtype: (bool, string|dict) :return: (True, None) - if data valid Invalid: (False, { 'required': [ #list of the fields that are required but were not present in the data 'field_name', 'patent.field_name',# when the nested field is omitted 'patent.list[2].field_name' # if data is array and one of the field is omitted ], 'invalid_type':[ #list of the fields with invalid data { 'path': 'objId', #field name or path to the field. Ex. objects[3].id, parent.name 'expected_type': 'string',# expected type. Ex. 'object', 'array', 'string', 'integer', # 'boolean', 'number' 'actually_value': 1 # the value that user passed } ] }) :raises IllegalArgumentException 'The operation_name parameter must be a non-empty string' if operation_name is not valid 'The data parameter must be a dict' if data neither dict or None '{operation_name} operation does not support' if the spec does not contain the operation """ if data is None: data = {} self._check_validate_data_params(data, operation_name) operation = self._operations[operation_name] model = self._models[operation[OperationField.MODEL_NAME]] status = self._init_report() self._validate_object(status, model, data, '') if len(status[PropName.REQUIRED]) > 0 or len(status[PropName.INVALID_TYPE]) > 0: return False, self._delete_empty_field_from_report(status) return True, None def _check_validate_data_params(self, data, operation_name): if not operation_name or not isinstance(operation_name, string_types): raise IllegalArgumentException("The operation_name parameter must be a non-empty string") if not isinstance(data, dict): raise IllegalArgumentException("The data parameter must be a dict") if operation_name not in self._operations: raise IllegalArgumentException("{0} operation does not support".format(operation_name)) def validate_query_params(self, operation_name, params): """ Validate params for the get requests. Use this method for validating the query part of the url. :param operation_name: string The value must be non empty string. The operation name is used to get a params specification :param params: dict should be in the format that the specification(from operation) expects Ex. { 'objId': "string_value", 'p_integer': 1, 'p_boolean': True, 'p_number': 2.3 } :rtype:(Boolean, msg) :return: (True, None) - if params valid Invalid: (False, { 'required': [ #list of the fields that are required but are not present in the params 'field_name' ], 'invalid_type':[ #list of the fields with invalid data and expected type of the params { 'path': 'objId', #field name 'expected_type': 'string',#expected type. Ex. 'string', 'integer', 'boolean', 'number' 'actually_value': 1 # the value that user passed } ] }) :raises IllegalArgumentException 'The operation_name parameter must be a non-empty string' if operation_name is not valid 'The params parameter must be a dict' if params neither dict or None '{operation_name} operation does not support' if the spec does not contain the operation """ return self._validate_url_params(operation_name, params, resource=OperationParams.QUERY) def validate_path_params(self, operation_name, params): """ Validate params for the get requests. Use this method for validating the path part of the url. :param operation_name: string The value must be non empty string. The operation name is used to get a params specification :param params: dict should be in the format that the specification(from operation) expects Ex. { 'objId': "string_value", 'p_integer': 1, 'p_boolean': True, 'p_number': 2.3 } :rtype:(Boolean, msg) :return: (True, None) - if params valid Invalid: (False, { 'required': [ #list of the fields that are required but are not present in the params 'field_name' ], 'invalid_type':[ #list of the fields with invalid data and expected type of the params { 'path': 'objId', #field name 'expected_type': 'string',#expected type. Ex. 'string', 'integer', 'boolean', 'number' 'actually_value': 1 # the value that user passed } ] }) :raises IllegalArgumentException 'The operation_name parameter must be a non-empty string' if operation_name is not valid 'The params parameter must be a dict' if params neither dict or None '{operation_name} operation does not support' if the spec does not contain the operation """ return self._validate_url_params(operation_name, params, resource=OperationParams.PATH) def _validate_url_params(self, operation, params, resource): if params is None: params = {} self._check_validate_url_params(operation, params) operation = self._operations[operation] if OperationField.PARAMETERS in operation and resource in operation[OperationField.PARAMETERS]: spec = operation[OperationField.PARAMETERS][resource] status = self._init_report() self._check_url_params(status, spec, params) if len(status[PropName.REQUIRED]) > 0 or len(status[PropName.INVALID_TYPE]) > 0: return False, self._delete_empty_field_from_report(status) return True, None else: return True, None def _check_validate_url_params(self, operation, params): if not operation or not isinstance(operation, string_types): raise IllegalArgumentException("The operation_name parameter must be a non-empty string") if not isinstance(params, dict): raise IllegalArgumentException("The params parameter must be a dict") if operation not in self._operations: raise IllegalArgumentException("{0} operation does not support".format(operation)) def _check_url_params(self, status, spec, params): for prop_name in spec.keys(): prop = spec[prop_name] if prop[PropName.REQUIRED] and prop_name not in params: status[PropName.REQUIRED].append(prop_name) continue if prop_name in params: expected_type = prop[PropName.TYPE] value = params[prop_name] if prop_name in params and not self._is_correct_simple_types(expected_type, value, allow_null=False): self._add_invalid_type_report(status, '', prop_name, expected_type, value) def _validate_object(self, status, model, data, path): if self._is_enum(model): self._check_enum(status, model, data, path) elif self._is_object(model): self._check_object(status, model, data, path) def _is_enum(self, model): return self._is_string_type(model) and PropName.ENUM in model def _check_enum(self, status, model, value, path): if value is not None and value not in model[PropName.ENUM]: self._add_invalid_type_report(status, path, '', PropName.ENUM, value) def _add_invalid_type_report(self, status, path, prop_name, expected_type, actually_value): status[PropName.INVALID_TYPE].append({ 'path': self._create_path_to_field(path, prop_name), 'expected_type': expected_type, 'actually_value': actually_value }) def _check_object(self, status, model, data, path): if data is None: return if not isinstance(data, dict): self._add_invalid_type_report(status, path, '', PropType.OBJECT, data) return None if PropName.REQUIRED in model: self._check_required_fields(status, model[PropName.REQUIRED], data, path) model_properties = model[PropName.PROPERTIES] for prop in model_properties.keys(): if prop in data: model_prop_val = model_properties[prop] expected_type = model_prop_val[PropName.TYPE] actually_value = data[prop] self._check_types(status, actually_value, expected_type, model_prop_val, path, prop) def _check_types(self, status, actually_value, expected_type, model, path, prop_name): if expected_type == PropType.OBJECT: ref_model = self._get_model_by_ref(model) self._validate_object(status, ref_model, actually_value, path=self._create_path_to_field(path, prop_name)) elif expected_type == PropType.ARRAY: self._check_array(status, model, actually_value, path=self._create_path_to_field(path, prop_name)) elif not self._is_correct_simple_types(expected_type, actually_value): self._add_invalid_type_report(status, path, prop_name, expected_type, actually_value) def _get_model_by_ref(self, model_prop_val): model = _get_model_name_from_url(model_prop_val[PropName.REF]) return self._models[model] def _check_required_fields(self, status, required_fields, data, path): missed_required_fields = [self._create_path_to_field(path, field) for field in required_fields if field not in data.keys() or data[field] is None] if len(missed_required_fields) > 0: status[PropName.REQUIRED] += missed_required_fields def _check_array(self, status, model, data, path): if data is None: return elif not isinstance(data, list): self._add_invalid_type_report(status, path, '', PropType.ARRAY, data) else: item_model = model[PropName.ITEMS] for i, item_data in enumerate(data): self._check_types(status, item_data, item_model[PropName.TYPE], item_model, "{0}[{1}]".format(path, i), '') @staticmethod def _is_correct_simple_types(expected_type, value, allow_null=True): def is_numeric_string(s): try: float(s) return True except ValueError: return False if value is None and allow_null: return True elif expected_type == PropType.STRING: return isinstance(value, string_types) elif expected_type == PropType.BOOLEAN: return isinstance(value, bool) elif expected_type == PropType.INTEGER: is_integer = isinstance(value, integer_types) and not isinstance(value, bool) is_digit_string = isinstance(value, string_types) and value.isdigit() return is_integer or is_digit_string elif expected_type == PropType.NUMBER: is_number = isinstance(value, (integer_types, float)) and not isinstance(value, bool) is_numeric_string = isinstance(value, string_types) and is_numeric_string(value) return is_number or is_numeric_string return False @staticmethod def _is_string_type(model): return PropName.TYPE in model and model[PropName.TYPE] == PropType.STRING @staticmethod def _init_report(): return { PropName.REQUIRED: [], PropName.INVALID_TYPE: [] } @staticmethod def _delete_empty_field_from_report(status): if not status[PropName.REQUIRED]: del status[PropName.REQUIRED] if not status[PropName.INVALID_TYPE]: del status[PropName.INVALID_TYPE] return status @staticmethod def _create_path_to_field(path='', field=''): separator = '' if path and field: separator = '.' return "{0}{1}{2}".format(path, separator, field) @staticmethod def _is_object(model): return PropName.TYPE in model and model[PropName.TYPE] == PropType.OBJECT