# ------------------------------------------------------------------------- # Copyright (c) Microsoft Corporation. All rights reserved. # Licensed under the MIT License. See License.txt in the project root for # license information. # -------------------------------------------------------------------------- import functools import inspect import logging import os.path import sys import time import zlib try: from inspect import getfullargspec as get_arg_spec except ImportError: from inspect import getargspec as get_arg_spec try: from urllib.parse import quote except ImportError: from urllib2 import quote # type: ignore import pytest from dotenv import load_dotenv, find_dotenv from azure_devtools.scenario_tests import ( ReplayableTest, AzureTestError, GeneralNameReplacer, RequestUrlNormalizer, AuthenticationMetadataFilter, OAuthRequestResponsesFilter, ) from azure_devtools.scenario_tests.config import TestConfig from azure_devtools.scenario_tests.utilities import trim_kwargs_from_test_function from .config import TEST_SETTING_FILENAME from . import mgmt_settings_fake as fake_settings try: # Try to import the AsyncFakeCredential, if we cannot assume it is Python 2 from .fake_credentials_async import AsyncFakeCredential except SyntaxError: pass class HttpStatusCode(object): OK = 200 Created = 201 Accepted = 202 NoContent = 204 NotFound = 404 def get_resource_name(name_prefix, identifier): # Append a suffix to the name, based on the fully qualified test name # We use a checksum of the test name so that each test gets different # resource names, but each test will get the same name on repeat runs, # which is needed for playback. # Most resource names have a length limit, so we use a crc32 checksum = zlib.adler32(identifier) & 0xFFFFFFFF name = "{}{}".format(name_prefix, hex(checksum)[2:]).rstrip("L") if name.endswith("L"): name = name[:-1] return name def get_qualified_method_name(obj, method_name): # example of qualified test name: # test_mgmt_network.test_public_ip_addresses _, filename = os.path.split(inspect.getsourcefile(type(obj))) module_name, _ = os.path.splitext(filename) return "{0}.{1}".format(module_name, method_name) def is_live(): """A module version of is_live, that could be used in pytest marker.""" if not hasattr(is_live, "_cache"): config_file = os.path.join(os.path.dirname(__file__), TEST_SETTING_FILENAME) if not os.path.exists(config_file): config_file = None is_live._cache = TestConfig(config_file=config_file).record_mode return is_live._cache def get_region_override(default="westus"): region = os.environ.get("RESOURCE_REGION", None) or default if not region: raise ValueError( "Region should not be None; set a non-empty-string region to either the RESOURCE_REGION environment variable or the default parameter to this function." ) return region def _is_autorest_v3(client_class): """Is this client a autorest v3/track2 one? Could be refined later if necessary. """ args = get_arg_spec(client_class.__init__).args return "credential" in args class AzureTestCase(ReplayableTest): def __init__( self, method_name, config_file=None, recording_dir=None, recording_name=None, recording_processors=None, replay_processors=None, recording_patches=None, replay_patches=None, **kwargs ): self.working_folder = os.path.dirname(__file__) self.qualified_test_name = get_qualified_method_name(self, method_name) self._fake_settings, self._real_settings = self._load_settings() self.scrubber = GeneralNameReplacer() config_file = config_file or os.path.join(self.working_folder, TEST_SETTING_FILENAME) if not os.path.exists(config_file): config_file = None load_dotenv(find_dotenv()) super(AzureTestCase, self).__init__( method_name, config_file=config_file, recording_dir=recording_dir, recording_name=recording_name or self.qualified_test_name, recording_processors=recording_processors or self._get_recording_processors(), replay_processors=replay_processors or self._get_replay_processors(), recording_patches=recording_patches, replay_patches=replay_patches, **kwargs ) @property def settings(self): if self.is_live: if self._real_settings: return self._real_settings else: raise AzureTestError("Need a mgmt_settings_real.py file to run tests live.") else: return self._fake_settings def _load_settings(self): try: from . import mgmt_settings_real as real_settings return fake_settings, real_settings except ImportError: return fake_settings, None def _get_recording_processors(self): return [ self.scrubber, AuthenticationMetadataFilter(), OAuthRequestResponsesFilter(), RequestUrlNormalizer(), ] def _get_replay_processors(self): return [RequestUrlNormalizer()] def is_playback(self): return not self.is_live def get_settings_value(self, key): key_value = os.environ.get("AZURE_" + key, None) if key_value and self._real_settings and getattr(self._real_settings, key) != key_value: raise ValueError( "You have both AZURE_{key} env variable and mgmt_settings_real.py for {key} to different values".format( key=key ) ) if not key_value: try: key_value = getattr(self.settings, key) except Exception: print("Could not get {}".format(key)) raise return key_value def set_value_to_scrub(self, key, default_value): if self.is_live: value = self.get_settings_value(key) self.scrubber.register_name_pair(value, default_value) return value else: return default_value def setUp(self): # Every test uses a different resource group name calculated from its # qualified test name. # # When running all tests serially, this allows us to delete # the resource group in teardown without waiting for the delete to # complete. The next test in line will use a different resource group, # so it won't have any trouble creating its resource group even if the # previous test resource group hasn't finished deleting. # # When running tests individually, if you try to run the same test # multiple times in a row, it's possible that the delete in the previous # teardown hasn't completed yet (because we don't wait), and that # would make resource group creation fail. # To avoid that, we also delete the resource group in the # setup, and we wait for that delete to complete. super(AzureTestCase, self).setUp() def tearDown(self): return super(AzureTestCase, self).tearDown() def get_credential(self, client_class, **kwargs): tenant_id = os.environ.get("AZURE_TENANT_ID", getattr(self._real_settings, "TENANT_ID", None)) client_id = os.environ.get("AZURE_CLIENT_ID", getattr(self._real_settings, "CLIENT_ID", None)) secret = os.environ.get("AZURE_CLIENT_SECRET", getattr(self._real_settings, "CLIENT_SECRET", None)) is_async = kwargs.pop("is_async", False) if tenant_id and client_id and secret and self.is_live: if _is_autorest_v3(client_class): # Create azure-identity class from azure.identity import ClientSecretCredential if is_async: from azure.identity.aio import ClientSecretCredential return ClientSecretCredential(tenant_id=tenant_id, client_id=client_id, client_secret=secret) else: # Create msrestazure class from msrestazure.azure_active_directory import ( ServicePrincipalCredentials, ) return ServicePrincipalCredentials(tenant=tenant_id, client_id=client_id, secret=secret) else: if _is_autorest_v3(client_class): if is_async: if self.is_live: raise ValueError( "Async live doesn't support mgmt_setting_real, please set AZURE_TENANT_ID, AZURE_CLIENT_ID, AZURE_CLIENT_SECRET" ) return AsyncFakeCredential() else: return self.settings.get_azure_core_credentials() else: return self.settings.get_credentials() def create_client_from_credential(self, client_class, credential, **kwargs): # Real client creation # TODO decide what is the final argument for that # if self.is_playback(): # kwargs.setdefault("polling_interval", 0) if _is_autorest_v3(client_class): kwargs.setdefault("logging_enable", True) client = client_class(credential=credential, **kwargs) else: client = client_class(credentials=credential, **kwargs) if self.is_playback(): try: client._config.polling_interval = 0 # FIXME in azure-mgmt-core, make this a kwargs except AttributeError: pass if hasattr(client, "config"): # Autorest v2 if self.is_playback(): client.config.long_running_operation_timeout = 0 client.config.enable_http_logger = True return client def create_basic_client(self, client_class, **kwargs): """DO NOT USE ME ANYMORE.""" logger = logging.getLogger() logger.warning( "'create_basic_client' will be deprecated in the future. It is recommended that you use \ 'get_credential' and 'create_client_from_credential' to create your client." ) credentials = self.get_credential(client_class) return self.create_client_from_credential(client_class, credentials, **kwargs) def create_random_name(self, name): return get_resource_name(name, self.qualified_test_name.encode()) def get_resource_name(self, name): """Alias to create_random_name for back compatibility.""" return self.create_random_name(name) def get_replayable_random_resource_name(self, name): """In a replay scenario, (is not live) gives the static moniker. In the random scenario, gives generated name.""" if self.is_live: created_name = self.create_random_name(name) self.scrubber.register_name_pair(created_name, name) return name def get_preparer_resource_name(self, prefix): """Random name generation for use by preparers. If prefix is a blank string, use the fully qualified test name instead. This is what legacy tests do for resource groups.""" return self.get_resource_name(prefix or self.qualified_test_name.replace(".", "_")) @staticmethod def await_prepared_test(test_fn): """Synchronous wrapper for async test methods. Used to avoid making changes upstream to AbstractPreparer, which only awaits async tests that use preparers. (Add @AzureTestCase.await_prepared_test decorator to async tests without preparers) # Note: this will only be needed so long as we maintain unittest.TestCase in our test-class inheritance chain. """ if sys.version_info < (3, 5): raise ImportError("Async wrapper is not needed for Python 2.7 code.") import asyncio @functools.wraps(test_fn) def run(test_class_instance, *args, **kwargs): trim_kwargs_from_test_function(test_fn, kwargs) loop = asyncio.get_event_loop() return loop.run_until_complete(test_fn(test_class_instance, **kwargs)) return run def sleep(self, seconds): if self.is_live: time.sleep(seconds) def generate_sas(self, *args, **kwargs): sas_func = args[0] sas_func_pos_args = args[1:] fake_value = kwargs.pop("fake_value", "fake_token_value") token = sas_func(*sas_func_pos_args, **kwargs) fake_token = self._create_fake_token(token, fake_value) self._register_encodings(token, fake_token) if self.is_live: return token return fake_token def _register_encodings(self, token, fake_token): self.scrubber.register_name_pair(token, fake_token) url_safe_token = token.replace("/", "%2F") self.scrubber.register_name_pair(url_safe_token, fake_token) async_token = token.replace("%3A", ":") self.scrubber.register_name_pair(async_token, fake_token) def _create_fake_token(self, token, fake_value): parts = token.split("&") for idx, part in enumerate(parts): if part.startswith("sig"): key = part.split("=") key[1] = fake_value parts[idx] = "=".join(key) elif part.startswith("st"): key = part.split("=") key[1] = "start" parts[idx] = "=".join(key) elif part.startswith("se"): key = part.split("=") key[1] = "end" parts[idx] = "=".join(key) return "&".join(parts)