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"""Test code for the Face layer of RPC Framework.""" from __future__ import division import abc import contextlib import itertools import threading import unittest from concurrent import futures import six # test_interfaces is referenced from specification in this module. from grpc.framework.foundation import logging_pool from grpc.framework.interfaces.face import face from tests.unit.framework.common import test_constants from tests.unit.framework.common import test_control from tests.unit.framework.common import test_coverage from tests.unit.framework.interfaces.face import _3069_test_constant from tests.unit.framework.interfaces.face import _digest from tests.unit.framework.interfaces.face import _stock_service from tests.unit.framework.interfaces.face import test_interfaces # pylint: disable=unused-import class _PauseableIterator(object): def __init__(self, upstream): self._upstream = upstream self._condition = threading.Condition() self._paused = False @contextlib.contextmanager def pause(self): with self._condition: self._paused = True yield with self._condition: self._paused = False self._condition.notify_all() def __iter__(self): return self def __next__(self): return self.next() def next(self): with self._condition: while self._paused: self._condition.wait() return next(self._upstream) class _Callback(object): def __init__(self): self._condition = threading.Condition() self._called = False self._passed_future = None self._passed_other_stuff = None def __call__(self, *args, **kwargs): with self._condition: self._called = True if args: self._passed_future = args[0] if 1 < len(args) or kwargs: self._passed_other_stuff = tuple(args[1:]), dict(kwargs) self._condition.notify_all() def future(self): with self._condition: while True: if self._passed_other_stuff is not None: raise ValueError( 'Test callback passed unexpected values: %s', self._passed_other_stuff) elif self._called: return self._passed_future else: self._condition.wait() class TestCase(six.with_metaclass(abc.ABCMeta, test_coverage.Coverage, unittest.TestCase)): """A test of the Face layer of RPC Framework. Concrete subclasses must have an "implementation" attribute of type test_interfaces.Implementation and an "invoker_constructor" attribute of type _invocation.InvokerConstructor. """ NAME = 'FutureInvocationAsynchronousEventServiceTest' def setUp(self): """See unittest.TestCase.setUp for full specification. Overriding implementations must call this implementation. """ self._control = test_control.PauseFailControl() self._digest_pool = logging_pool.pool(test_constants.POOL_SIZE) self._digest = _digest.digest( _stock_service.STOCK_TEST_SERVICE, self._control, self._digest_pool) generic_stub, dynamic_stubs, self._memo = self.implementation.instantiate( self._digest.methods, self._digest.event_method_implementations, None) self._invoker = self.invoker_constructor.construct_invoker( generic_stub, dynamic_stubs, self._digest.methods) def tearDown(self): """See unittest.TestCase.tearDown for full specification. Overriding implementations must call this implementation. """ self._invoker = None self.implementation.destantiate(self._memo) self._digest_pool.shutdown(wait=True) def testSuccessfulUnaryRequestUnaryResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_unary_messages_sequences)): for test_messages in test_messages_sequence: request = test_messages.request() callback = _Callback() response_future = self._invoker.future(group, method)( request, test_constants.LONG_TIMEOUT) response_future.add_done_callback(callback) response = response_future.result() test_messages.verify(request, response, self) self.assertIs(callback.future(), response_future) def testSuccessfulUnaryRequestStreamResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_stream_messages_sequences)): for test_messages in test_messages_sequence: request = test_messages.request() response_iterator = self._invoker.future(group, method)( request, test_constants.LONG_TIMEOUT) responses = list(response_iterator) test_messages.verify(request, responses, self) def testSuccessfulStreamRequestUnaryResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.stream_unary_messages_sequences)): for test_messages in test_messages_sequence: requests = test_messages.requests() request_iterator = _PauseableIterator(iter(requests)) callback = _Callback() # Use of a paused iterator of requests allows us to test that control is # returned to calling code before the iterator yields any requests. with request_iterator.pause(): response_future = self._invoker.future(group, method)( request_iterator, test_constants.LONG_TIMEOUT) response_future.add_done_callback(callback) future_passed_to_callback = callback.future() response = future_passed_to_callback.result() test_messages.verify(requests, response, self) self.assertIs(future_passed_to_callback, response_future) def testSuccessfulStreamRequestStreamResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.stream_stream_messages_sequences)): for test_messages in test_messages_sequence: requests = test_messages.requests() request_iterator = _PauseableIterator(iter(requests)) # Use of a paused iterator of requests allows us to test that control is # returned to calling code before the iterator yields any requests. with request_iterator.pause(): response_iterator = self._invoker.future(group, method)( request_iterator, test_constants.LONG_TIMEOUT) responses = list(response_iterator) test_messages.verify(requests, responses, self) def testSequentialInvocations(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_unary_messages_sequences)): for test_messages in test_messages_sequence: first_request = test_messages.request() second_request = test_messages.request() first_response_future = self._invoker.future(group, method)( first_request, test_constants.LONG_TIMEOUT) first_response = first_response_future.result() test_messages.verify(first_request, first_response, self) second_response_future = self._invoker.future(group, method)( second_request, test_constants.LONG_TIMEOUT) second_response = second_response_future.result() test_messages.verify(second_request, second_response, self) def testParallelInvocations(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_unary_messages_sequences)): for test_messages in test_messages_sequence: first_request = test_messages.request() second_request = test_messages.request() first_response_future = self._invoker.future(group, method)( first_request, test_constants.LONG_TIMEOUT) second_response_future = self._invoker.future(group, method)( second_request, test_constants.LONG_TIMEOUT) first_response = first_response_future.result() second_response = second_response_future.result() test_messages.verify(first_request, first_response, self) test_messages.verify(second_request, second_response, self) for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_unary_messages_sequences)): for test_messages in test_messages_sequence: requests = [] response_futures = [] for _ in range(test_constants.PARALLELISM): request = test_messages.request() response_future = self._invoker.future(group, method)( request, test_constants.LONG_TIMEOUT) requests.append(request) response_futures.append(response_future) responses = [ response_future.result() for response_future in response_futures] for request, response in zip(requests, responses): test_messages.verify(request, response, self) def testWaitingForSomeButNotAllParallelInvocations(self): pool = logging_pool.pool(test_constants.PARALLELISM) for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_unary_messages_sequences)): for test_messages in test_messages_sequence: requests = [] response_futures_to_indices = {} for index in range(test_constants.PARALLELISM): request = test_messages.request() inner_response_future = self._invoker.future(group, method)( request, test_constants.LONG_TIMEOUT) outer_response_future = pool.submit(inner_response_future.result) requests.append(request) response_futures_to_indices[outer_response_future] = index some_completed_response_futures_iterator = itertools.islice( futures.as_completed(response_futures_to_indices), test_constants.PARALLELISM // 2) for response_future in some_completed_response_futures_iterator: index = response_futures_to_indices[response_future] test_messages.verify(requests[index], response_future.result(), self) pool.shutdown(wait=True) def testCancelledUnaryRequestUnaryResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_unary_messages_sequences)): for test_messages in test_messages_sequence: request = test_messages.request() callback = _Callback() with self._control.pause(): response_future = self._invoker.future(group, method)( request, test_constants.LONG_TIMEOUT) response_future.add_done_callback(callback) cancel_method_return_value = response_future.cancel() self.assertIs(callback.future(), response_future) self.assertFalse(cancel_method_return_value) self.assertTrue(response_future.cancelled()) def testCancelledUnaryRequestStreamResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_stream_messages_sequences)): for test_messages in test_messages_sequence: request = test_messages.request() with self._control.pause(): response_iterator = self._invoker.future(group, method)( request, test_constants.LONG_TIMEOUT) response_iterator.cancel() with self.assertRaises(face.CancellationError): next(response_iterator) def testCancelledStreamRequestUnaryResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.stream_unary_messages_sequences)): for test_messages in test_messages_sequence: requests = test_messages.requests() callback = _Callback() with self._control.pause(): response_future = self._invoker.future(group, method)( iter(requests), test_constants.LONG_TIMEOUT) response_future.add_done_callback(callback) cancel_method_return_value = response_future.cancel() self.assertIs(callback.future(), response_future) self.assertFalse(cancel_method_return_value) self.assertTrue(response_future.cancelled()) def testCancelledStreamRequestStreamResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.stream_stream_messages_sequences)): for test_messages in test_messages_sequence: requests = test_messages.requests() with self._control.pause(): response_iterator = self._invoker.future(group, method)( iter(requests), test_constants.LONG_TIMEOUT) response_iterator.cancel() with self.assertRaises(face.CancellationError): next(response_iterator) def testExpiredUnaryRequestUnaryResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_unary_messages_sequences)): for test_messages in test_messages_sequence: request = test_messages.request() callback = _Callback() with self._control.pause(): response_future = self._invoker.future( group, method)(request, _3069_test_constant.REALLY_SHORT_TIMEOUT) response_future.add_done_callback(callback) self.assertIs(callback.future(), response_future) self.assertIsInstance( response_future.exception(), face.ExpirationError) with self.assertRaises(face.ExpirationError): response_future.result() def testExpiredUnaryRequestStreamResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_stream_messages_sequences)): for test_messages in test_messages_sequence: request = test_messages.request() with self._control.pause(): response_iterator = self._invoker.future(group, method)( request, _3069_test_constant.REALLY_SHORT_TIMEOUT) with self.assertRaises(face.ExpirationError): list(response_iterator) def testExpiredStreamRequestUnaryResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.stream_unary_messages_sequences)): for test_messages in test_messages_sequence: requests = test_messages.requests() callback = _Callback() with self._control.pause(): response_future = self._invoker.future(group, method)( iter(requests), _3069_test_constant.REALLY_SHORT_TIMEOUT) response_future.add_done_callback(callback) self.assertIs(callback.future(), response_future) self.assertIsInstance( response_future.exception(), face.ExpirationError) with self.assertRaises(face.ExpirationError): response_future.result() def testExpiredStreamRequestStreamResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.stream_stream_messages_sequences)): for test_messages in test_messages_sequence: requests = test_messages.requests() with self._control.pause(): response_iterator = self._invoker.future(group, method)( iter(requests), _3069_test_constant.REALLY_SHORT_TIMEOUT) with self.assertRaises(face.ExpirationError): list(response_iterator) def testFailedUnaryRequestUnaryResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_unary_messages_sequences)): for test_messages in test_messages_sequence: request = test_messages.request() callback = _Callback() with self._control.fail(): response_future = self._invoker.future(group, method)( request, _3069_test_constant.REALLY_SHORT_TIMEOUT) response_future.add_done_callback(callback) self.assertIs(callback.future(), response_future) # Because the servicer fails outside of the thread from which the # servicer-side runtime called into it its failure is # indistinguishable from simply not having called its # response_callback before the expiration of the RPC. self.assertIsInstance( response_future.exception(), face.ExpirationError) with self.assertRaises(face.ExpirationError): response_future.result() def testFailedUnaryRequestStreamResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.unary_stream_messages_sequences)): for test_messages in test_messages_sequence: request = test_messages.request() # Because the servicer fails outside of the thread from which the # servicer-side runtime called into it its failure is indistinguishable # from simply not having called its response_consumer before the # expiration of the RPC. with self._control.fail(), self.assertRaises(face.ExpirationError): response_iterator = self._invoker.future(group, method)( request, _3069_test_constant.REALLY_SHORT_TIMEOUT) list(response_iterator) def testFailedStreamRequestUnaryResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.stream_unary_messages_sequences)): for test_messages in test_messages_sequence: requests = test_messages.requests() callback = _Callback() with self._control.fail(): response_future = self._invoker.future(group, method)( iter(requests), _3069_test_constant.REALLY_SHORT_TIMEOUT) response_future.add_done_callback(callback) self.assertIs(callback.future(), response_future) # Because the servicer fails outside of the thread from which the # servicer-side runtime called into it its failure is # indistinguishable from simply not having called its # response_callback before the expiration of the RPC. self.assertIsInstance( response_future.exception(), face.ExpirationError) with self.assertRaises(face.ExpirationError): response_future.result() def testFailedStreamRequestStreamResponse(self): for (group, method), test_messages_sequence in ( six.iteritems(self._digest.stream_stream_messages_sequences)): for test_messages in test_messages_sequence: requests = test_messages.requests() # Because the servicer fails outside of the thread from which the # servicer-side runtime called into it its failure is indistinguishable # from simply not having called its response_consumer before the # expiration of the RPC. with self._control.fail(), self.assertRaises(face.ExpirationError): response_iterator = self._invoker.future(group, method)( iter(requests), _3069_test_constant.REALLY_SHORT_TIMEOUT) list(response_iterator)