# Copyright 2017 gRPC authors. # # 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. """Tests server responding with RESOURCE_EXHAUSTED.""" import threading import unittest import grpc from grpc import _channel from grpc.framework.foundation import logging_pool from tests.unit import test_common from tests.unit.framework.common import test_constants _REQUEST = b'\x00\x00\x00' _RESPONSE = b'\x00\x00\x00' _UNARY_UNARY = '/test/UnaryUnary' _UNARY_STREAM = '/test/UnaryStream' _STREAM_UNARY = '/test/StreamUnary' _STREAM_STREAM = '/test/StreamStream' class _TestTrigger(object): def __init__(self, total_call_count): self._total_call_count = total_call_count self._pending_calls = 0 self._triggered = False self._finish_condition = threading.Condition() self._start_condition = threading.Condition() # Wait for all calls be be blocked in their handler def await_calls(self): with self._start_condition: while self._pending_calls < self._total_call_count: self._start_condition.wait() # Block in a response handler and wait for a trigger def await_trigger(self): with self._start_condition: self._pending_calls += 1 self._start_condition.notify() with self._finish_condition: if not self._triggered: self._finish_condition.wait() # Finish all response handlers def trigger(self): with self._finish_condition: self._triggered = True self._finish_condition.notify_all() def handle_unary_unary(trigger, request, servicer_context): trigger.await_trigger() return _RESPONSE def handle_unary_stream(trigger, request, servicer_context): trigger.await_trigger() for _ in range(test_constants.STREAM_LENGTH): yield _RESPONSE def handle_stream_unary(trigger, request_iterator, servicer_context): trigger.await_trigger() return _RESPONSE def handle_stream_stream(trigger, request_iterator, servicer_context): trigger.await_trigger() return yield class _MethodHandler(grpc.RpcMethodHandler): def __init__(self, trigger, request_streaming, response_streaming): self.request_streaming = request_streaming self.response_streaming = response_streaming self.request_deserializer = None self.response_serializer = None self.unary_unary = None self.unary_stream = None self.stream_unary = None self.stream_stream = None if self.request_streaming and self.response_streaming: self.stream_stream = ( lambda x, y: handle_stream_stream(trigger, x, y)) elif self.request_streaming: self.stream_unary = lambda x, y: handle_stream_unary(trigger, x, y) elif self.response_streaming: self.unary_stream = lambda x, y: handle_unary_stream(trigger, x, y) else: self.unary_unary = lambda x, y: handle_unary_unary(trigger, x, y) class _GenericHandler(grpc.GenericRpcHandler): def __init__(self, trigger): self._trigger = trigger def service(self, handler_call_details): if handler_call_details.method == _UNARY_UNARY: return _MethodHandler(self._trigger, False, False) elif handler_call_details.method == _UNARY_STREAM: return _MethodHandler(self._trigger, False, True) elif handler_call_details.method == _STREAM_UNARY: return _MethodHandler(self._trigger, True, False) elif handler_call_details.method == _STREAM_STREAM: return _MethodHandler(self._trigger, True, True) else: return None class ResourceExhaustedTest(unittest.TestCase): def setUp(self): self._server_pool = logging_pool.pool(test_constants.THREAD_CONCURRENCY) self._trigger = _TestTrigger(test_constants.THREAD_CONCURRENCY) self._server = grpc.server( self._server_pool, handlers=(_GenericHandler(self._trigger),), options=(('grpc.so_reuseport', 0),), maximum_concurrent_rpcs=test_constants.THREAD_CONCURRENCY) port = self._server.add_insecure_port('[::]:0') self._server.start() self._channel = grpc.insecure_channel('localhost:%d' % port) def tearDown(self): self._server.stop(0) def testUnaryUnary(self): multi_callable = self._channel.unary_unary(_UNARY_UNARY) futures = [] for _ in range(test_constants.THREAD_CONCURRENCY): futures.append(multi_callable.future(_REQUEST)) self._trigger.await_calls() with self.assertRaises(grpc.RpcError) as exception_context: multi_callable(_REQUEST) self.assertEqual(grpc.StatusCode.RESOURCE_EXHAUSTED, exception_context.exception.code()) future_exception = multi_callable.future(_REQUEST) self.assertEqual(grpc.StatusCode.RESOURCE_EXHAUSTED, future_exception.exception().code()) self._trigger.trigger() for future in futures: self.assertEqual(_RESPONSE, future.result()) # Ensure a new request can be handled self.assertEqual(_RESPONSE, multi_callable(_REQUEST)) def testUnaryStream(self): multi_callable = self._channel.unary_stream(_UNARY_STREAM) calls = [] for _ in range(test_constants.THREAD_CONCURRENCY): calls.append(multi_callable(_REQUEST)) self._trigger.await_calls() with self.assertRaises(grpc.RpcError) as exception_context: next(multi_callable(_REQUEST)) self.assertEqual(grpc.StatusCode.RESOURCE_EXHAUSTED, exception_context.exception.code()) self._trigger.trigger() for call in calls: for response in call: self.assertEqual(_RESPONSE, response) # Ensure a new request can be handled new_call = multi_callable(_REQUEST) for response in new_call: self.assertEqual(_RESPONSE, response) def testStreamUnary(self): multi_callable = self._channel.stream_unary(_STREAM_UNARY) futures = [] request = iter([_REQUEST] * test_constants.STREAM_LENGTH) for _ in range(test_constants.THREAD_CONCURRENCY): futures.append(multi_callable.future(request)) self._trigger.await_calls() with self.assertRaises(grpc.RpcError) as exception_context: multi_callable(request) self.assertEqual(grpc.StatusCode.RESOURCE_EXHAUSTED, exception_context.exception.code()) future_exception = multi_callable.future(request) self.assertEqual(grpc.StatusCode.RESOURCE_EXHAUSTED, future_exception.exception().code()) self._trigger.trigger() for future in futures: self.assertEqual(_RESPONSE, future.result()) # Ensure a new request can be handled self.assertEqual(_RESPONSE, multi_callable(request)) def testStreamStream(self): multi_callable = self._channel.stream_stream(_STREAM_STREAM) calls = [] request = iter([_REQUEST] * test_constants.STREAM_LENGTH) for _ in range(test_constants.THREAD_CONCURRENCY): calls.append(multi_callable(request)) self._trigger.await_calls() with self.assertRaises(grpc.RpcError) as exception_context: next(multi_callable(request)) self.assertEqual(grpc.StatusCode.RESOURCE_EXHAUSTED, exception_context.exception.code()) self._trigger.trigger() for call in calls: for response in call: self.assertEqual(_RESPONSE, response) # Ensure a new request can be handled new_call = multi_callable(request) for response in new_call: self.assertEqual(_RESPONSE, response) if __name__ == '__main__': unittest.main(verbosity=2)