The C based gRPC (C++, Python, Ruby, Objective-C, PHP, C#) https://grpc.io/
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# Copyright 2015, Google Inc.
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
#
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following disclaimer
# in the documentation and/or other materials provided with the
# distribution.
# * Neither the name of Google Inc. nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import argparse
import contextlib
import errno
import itertools
import os
import subprocess
import sys
import time
import unittest
from grpc.framework.face import exceptions
from grpc.framework.foundation import future
# Identifiers of entities we expect to find in the generated module.
SERVICER_IDENTIFIER = 'EarlyAdopterTestServiceServicer'
SERVER_IDENTIFIER = 'EarlyAdopterTestServiceServer'
STUB_IDENTIFIER = 'EarlyAdopterTestServiceStub'
SERVER_FACTORY_IDENTIFIER = 'early_adopter_create_TestService_server'
STUB_FACTORY_IDENTIFIER = 'early_adopter_create_TestService_stub'
# Timeouts and delays.
SHORT_TIMEOUT = 0.1
NORMAL_TIMEOUT = 1
LONG_TIMEOUT = 2
DOES_NOT_MATTER_DELAY = 0
NO_DELAY = 0
LONG_DELAY = 1
# Assigned in __main__.
_build_mode = None
_port = None
class _ServicerMethods(object):
def __init__(self, test_pb2, delay):
self._paused = False
self._failed = False
self.test_pb2 = test_pb2
self.delay = delay
@contextlib.contextmanager
def pause(self): # pylint: disable=invalid-name
self._paused = True
yield
self._paused = False
@contextlib.contextmanager
def fail(self): # pylint: disable=invalid-name
self._failed = True
yield
self._failed = False
def _control(self): # pylint: disable=invalid-name
if self._failed:
raise ValueError()
time.sleep(self.delay)
while self._paused:
time.sleep(0)
def UnaryCall(self, request, context):
response = self.test_pb2.SimpleResponse()
response.payload.payload_type = self.test_pb2.COMPRESSABLE
response.payload.payload_compressable = 'a' * request.response_size
self._control()
return response
def StreamingOutputCall(self, request, context):
for parameter in request.response_parameters:
response = self.test_pb2.StreamingOutputCallResponse()
response.payload.payload_type = self.test_pb2.COMPRESSABLE
response.payload.payload_compressable = 'a' * parameter.size
self._control()
yield response
def StreamingInputCall(self, request_iter, context):
response = self.test_pb2.StreamingInputCallResponse()
aggregated_payload_size = 0
for request in request_iter:
aggregated_payload_size += len(request.payload.payload_compressable)
response.aggregated_payload_size = aggregated_payload_size
self._control()
return response
def FullDuplexCall(self, request_iter, context):
for request in request_iter:
for parameter in request.response_parameters:
response = self.test_pb2.StreamingOutputCallResponse()
response.payload.payload_type = self.test_pb2.COMPRESSABLE
response.payload.payload_compressable = 'a' * parameter.size
self._control()
yield response
def HalfDuplexCall(self, request_iter, context):
responses = []
for request in request_iter:
for parameter in request.response_parameters:
response = self.test_pb2.StreamingOutputCallResponse()
response.payload.payload_type = self.test_pb2.COMPRESSABLE
response.payload.payload_compressable = 'a' * parameter.size
self._control()
responses.append(response)
for response in responses:
yield response
def _CreateService(test_pb2, delay):
"""Provides a servicer backend and a stub.
The servicer is just the implementation
of the actual servicer passed to the face player of the python RPC
implementation; the two are detached.
Non-zero delay puts a delay on each call to the servicer, representative of
communication latency. Timeout is the default timeout for the stub while
waiting for the service.
Args:
test_pb2: the test_pb2 module generated by this test
delay: delay in seconds per response from the servicer
timeout: how long the stub will wait for the servicer by default.
Returns:
A two-tuple (servicer, stub), where the servicer is the back-end of the
service bound to the stub.
"""
servicer_methods = _ServicerMethods(test_pb2, delay)
class Servicer(getattr(test_pb2, SERVICER_IDENTIFIER)):
def UnaryCall(self, request, context):
return servicer_methods.UnaryCall(request, context)
def StreamingOutputCall(self, request, context):
return servicer_methods.StreamingOutputCall(request, context)
def StreamingInputCall(self, request_iter, context):
return servicer_methods.StreamingInputCall(request_iter, context)
def FullDuplexCall(self, request_iter, context):
return servicer_methods.FullDuplexCall(request_iter, context)
def HalfDuplexCall(self, request_iter, context):
return servicer_methods.HalfDuplexCall(request_iter, context)
servicer = Servicer()
server = getattr(test_pb2, SERVER_FACTORY_IDENTIFIER)(servicer, _port,
None, None)
stub = getattr(test_pb2, STUB_FACTORY_IDENTIFIER)('localhost', _port)
return servicer_methods, stub, server
def StreamingInputRequest(test_pb2):
for _ in range(3):
request = test_pb2.StreamingInputCallRequest()
request.payload.payload_type = test_pb2.COMPRESSABLE
request.payload.payload_compressable = 'a'
yield request
def StreamingOutputRequest(test_pb2):
request = test_pb2.StreamingOutputCallRequest()
sizes = [1, 2, 3]
request.response_parameters.add(size=sizes[0], interval_us=0)
request.response_parameters.add(size=sizes[1], interval_us=0)
request.response_parameters.add(size=sizes[2], interval_us=0)
return request
def FullDuplexRequest(test_pb2):
request = test_pb2.StreamingOutputCallRequest()
request.response_parameters.add(size=1, interval_us=0)
yield request
request = test_pb2.StreamingOutputCallRequest()
request.response_parameters.add(size=2, interval_us=0)
request.response_parameters.add(size=3, interval_us=0)
yield request
class PythonPluginTest(unittest.TestCase):
"""Test case for the gRPC Python protoc-plugin.
While reading these tests, remember that the futures API
(`stub.method.async()`) only gives futures for the *non-streaming* responses,
else it behaves like its blocking cousin.
"""
def setUp(self):
protoc_command = '../../bins/%s/protobuf/protoc' % _build_mode
protoc_plugin_filename = '../../bins/%s/grpc_python_plugin' % _build_mode
test_proto_filename = './test.proto'
if not os.path.isfile(protoc_command):
# Assume that if we haven't built protoc that it's on the system.
protoc_command = 'protoc'
# Ensure that the output directory exists.
outdir = '../../gens/test/compiler/python'
try:
os.makedirs(outdir)
except OSError as exception:
if exception.errno != errno.EEXIST:
raise
# Invoke protoc with the plugin.
cmd = [
protoc_command,
'--plugin=protoc-gen-python-grpc=%s' % protoc_plugin_filename,
'-I %s' % os.path.dirname(test_proto_filename),
'--python_out=%s' % outdir,
'--python-grpc_out=%s' % outdir,
os.path.basename(test_proto_filename),
]
subprocess.call(' '.join(cmd), shell=True)
sys.path.append(outdir)
# TODO(atash): Figure out which of theses tests is hanging flakily with small
# probability.
def testImportAttributes(self):
# check that we can access the generated module and its members.
import test_pb2 # pylint: disable=g-import-not-at-top
self.assertIsNotNone(getattr(test_pb2, SERVICER_IDENTIFIER, None))
self.assertIsNotNone(getattr(test_pb2, SERVER_IDENTIFIER, None))
self.assertIsNotNone(getattr(test_pb2, STUB_IDENTIFIER, None))
self.assertIsNotNone(getattr(test_pb2, SERVER_FACTORY_IDENTIFIER, None))
self.assertIsNotNone(getattr(test_pb2, STUB_FACTORY_IDENTIFIER, None))
def testUpDown(self):
import test_pb2
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
request = test_pb2.SimpleRequest(response_size=13)
with server, stub:
pass
def testUnaryCall(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, NO_DELAY)
request = test_pb2.SimpleRequest(response_size=13)
with server, stub:
response = stub.UnaryCall(request, NORMAL_TIMEOUT)
expected_response = servicer.UnaryCall(request, None)
self.assertEqual(expected_response, response)
def testUnaryCallAsync(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, LONG_DELAY)
request = test_pb2.SimpleRequest(response_size=13)
with server, stub:
start_time = time.clock()
response_future = stub.UnaryCall.async(request, LONG_TIMEOUT)
# Check that we didn't block on the asynchronous call.
self.assertGreater(LONG_DELAY, time.clock() - start_time)
response = response_future.result()
expected_response = servicer.UnaryCall(request, None)
self.assertEqual(expected_response, response)
def testUnaryCallAsyncExpired(self):
import test_pb2 # pylint: disable=g-import-not-at-top
# set the timeout super low...
servicer, stub, server = _CreateService(test_pb2,
delay=DOES_NOT_MATTER_DELAY)
request = test_pb2.SimpleRequest(response_size=13)
with server, stub:
with servicer.pause():
response_future = stub.UnaryCall.async(request, SHORT_TIMEOUT)
with self.assertRaises(exceptions.ExpirationError):
response_future.result()
def testUnaryCallAsyncCancelled(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
request = test_pb2.SimpleRequest(response_size=13)
with server, stub:
with servicer.pause():
response_future = stub.UnaryCall.async(request, 1)
response_future.cancel()
self.assertTrue(response_future.cancelled())
def testUnaryCallAsyncFailed(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
request = test_pb2.SimpleRequest(response_size=13)
with server, stub:
with servicer.fail():
response_future = stub.UnaryCall.async(request, NORMAL_TIMEOUT)
self.assertIsNotNone(response_future.exception())
def testStreamingOutputCall(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, NO_DELAY)
request = StreamingOutputRequest(test_pb2)
with server, stub:
responses = stub.StreamingOutputCall(request, NORMAL_TIMEOUT)
expected_responses = servicer.StreamingOutputCall(request, None)
for check in itertools.izip_longest(expected_responses, responses):
expected_response, response = check
self.assertEqual(expected_response, response)
def testStreamingOutputCallExpired(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
request = StreamingOutputRequest(test_pb2)
with server, stub:
with servicer.pause():
responses = stub.StreamingOutputCall(request, SHORT_TIMEOUT)
with self.assertRaises(exceptions.ExpirationError):
list(responses)
def testStreamingOutputCallCancelled(self):
import test_pb2 # pylint: disable=g-import-not-at-top
unused_servicer, stub, server = _CreateService(test_pb2,
DOES_NOT_MATTER_DELAY)
request = StreamingOutputRequest(test_pb2)
with server, stub:
responses = stub.StreamingOutputCall(request, SHORT_TIMEOUT)
next(responses)
responses.cancel()
with self.assertRaises(future.CancelledError):
next(responses)
@unittest.skip('TODO(atash,nathaniel): figure out why this times out '
'instead of raising the proper error.')
def testStreamingOutputCallFailed(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
request = StreamingOutputRequest(test_pb2)
with server, stub:
with servicer.fail():
responses = stub.StreamingOutputCall(request, 1)
self.assertIsNotNone(responses)
with self.assertRaises(exceptions.ServicerError):
next(responses)
def testStreamingInputCall(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, NO_DELAY)
with server, stub:
response = stub.StreamingInputCall(StreamingInputRequest(test_pb2),
NORMAL_TIMEOUT)
expected_response = servicer.StreamingInputCall(
StreamingInputRequest(test_pb2), None)
self.assertEqual(expected_response, response)
def testStreamingInputCallAsync(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(
test_pb2, LONG_DELAY)
with server, stub:
start_time = time.clock()
response_future = stub.StreamingInputCall.async(
StreamingInputRequest(test_pb2), LONG_TIMEOUT)
self.assertGreater(LONG_DELAY, time.clock() - start_time)
response = response_future.result()
expected_response = servicer.StreamingInputCall(
StreamingInputRequest(test_pb2), None)
self.assertEqual(expected_response, response)
def testStreamingInputCallAsyncExpired(self):
import test_pb2 # pylint: disable=g-import-not-at-top
# set the timeout super low...
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
with server, stub:
with servicer.pause():
response_future = stub.StreamingInputCall.async(
StreamingInputRequest(test_pb2), SHORT_TIMEOUT)
with self.assertRaises(exceptions.ExpirationError):
response_future.result()
self.assertIsInstance(
response_future.exception(), exceptions.ExpirationError)
def testStreamingInputCallAsyncCancelled(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
with server, stub:
with servicer.pause():
response_future = stub.StreamingInputCall.async(
StreamingInputRequest(test_pb2), NORMAL_TIMEOUT)
response_future.cancel()
self.assertTrue(response_future.cancelled())
with self.assertRaises(future.CancelledError):
response_future.result()
def testStreamingInputCallAsyncFailed(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
with server, stub:
with servicer.fail():
response_future = stub.StreamingInputCall.async(
StreamingInputRequest(test_pb2), SHORT_TIMEOUT)
self.assertIsNotNone(response_future.exception())
def testFullDuplexCall(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, NO_DELAY)
with server, stub:
responses = stub.FullDuplexCall(FullDuplexRequest(test_pb2),
NORMAL_TIMEOUT)
expected_responses = servicer.FullDuplexCall(FullDuplexRequest(test_pb2),
None)
for check in itertools.izip_longest(expected_responses, responses):
expected_response, response = check
self.assertEqual(expected_response, response)
def testFullDuplexCallExpired(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
request = FullDuplexRequest(test_pb2)
with server, stub:
with servicer.pause():
responses = stub.FullDuplexCall(request, SHORT_TIMEOUT)
with self.assertRaises(exceptions.ExpirationError):
list(responses)
def testFullDuplexCallCancelled(self):
import test_pb2 # pylint: disable=g-import-not-at-top
unused_servicer, stub, server = _CreateService(test_pb2, NO_DELAY)
with server, stub:
request = FullDuplexRequest(test_pb2)
responses = stub.FullDuplexCall(request, NORMAL_TIMEOUT)
next(responses)
responses.cancel()
with self.assertRaises(future.CancelledError):
next(responses)
@unittest.skip('TODO(atash,nathaniel): figure out why this hangs forever '
'and fix.')
def testFullDuplexCallFailed(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, DOES_NOT_MATTER_DELAY)
request = FullDuplexRequest(test_pb2)
with server, stub:
with servicer.fail():
responses = stub.FullDuplexCall(request, NORMAL_TIMEOUT)
self.assertIsNotNone(responses)
with self.assertRaises(exceptions.ServicerError):
next(responses)
def testHalfDuplexCall(self):
import test_pb2 # pylint: disable=g-import-not-at-top
servicer, stub, server = _CreateService(test_pb2, NO_DELAY)
def HalfDuplexRequest():
request = test_pb2.StreamingOutputCallRequest()
request.response_parameters.add(size=1, interval_us=0)
yield request
request = test_pb2.StreamingOutputCallRequest()
request.response_parameters.add(size=2, interval_us=0)
request.response_parameters.add(size=3, interval_us=0)
yield request
with server, stub:
responses = stub.HalfDuplexCall(HalfDuplexRequest(), NORMAL_TIMEOUT)
expected_responses = servicer.HalfDuplexCall(HalfDuplexRequest(), None)
for check in itertools.izip_longest(expected_responses, responses):
expected_response, response = check
self.assertEqual(expected_response, response)
def testHalfDuplexCallWedged(self):
import test_pb2 # pylint: disable=g-import-not-at-top
_, stub, server = _CreateService(test_pb2, NO_DELAY)
wait_flag = [False]
@contextlib.contextmanager
def wait(): # pylint: disable=invalid-name
# Where's Python 3's 'nonlocal' statement when you need it?
wait_flag[0] = True
yield
wait_flag[0] = False
def HalfDuplexRequest():
request = test_pb2.StreamingOutputCallRequest()
request.response_parameters.add(size=1, interval_us=0)
yield request
while wait_flag[0]:
time.sleep(0.1)
with server, stub:
with wait():
responses = stub.HalfDuplexCall(HalfDuplexRequest(), NORMAL_TIMEOUT)
# half-duplex waits for the client to send all info
with self.assertRaises(exceptions.ExpirationError):
next(responses)
if __name__ == '__main__':
os.chdir(os.path.dirname(sys.argv[0]))
parser = argparse.ArgumentParser(
description='Run Python compiler plugin test.')
parser.add_argument(
'--build_mode', dest='build_mode', type=str, default='dbg',
help='The build mode of the targets to test, e.g. "dbg", "opt", "asan", '
'etc.')
parser.add_argument('--port', dest='port', type=int, default=0)
args, remainder = parser.parse_known_args()
_build_mode = args.build_mode
_port = args.port
sys.argv[1:] = remainder
unittest.main()