From cd9ec0e96553f50af495d022f4db931e9318ec6c Mon Sep 17 00:00:00 2001 From: Nathaniel Manista Date: Mon, 31 Aug 2015 07:49:45 +0000 Subject: Code generation for Python Beta API --- src/compiler/python_generator.cc | 308 +++++++++++- src/compiler/python_generator.h | 3 +- src/compiler/python_plugin.cc | 3 +- .../grpc_protoc_plugin/alpha_python_plugin_test.py | 541 +++++++++++++++++++++ .../grpc_protoc_plugin/beta_python_plugin_test.py | 501 +++++++++++++++++++ 5 files changed, 1336 insertions(+), 20 deletions(-) create mode 100644 src/python/grpcio_test/grpc_protoc_plugin/alpha_python_plugin_test.py create mode 100644 src/python/grpcio_test/grpc_protoc_plugin/beta_python_plugin_test.py diff --git a/src/compiler/python_generator.cc b/src/compiler/python_generator.cc index 72c457ac6b..fe2b9fad99 100644 --- a/src/compiler/python_generator.cc +++ b/src/compiler/python_generator.cc @@ -148,8 +148,8 @@ class IndentScope { // END FORMATTING BOILERPLATE // //////////////////////////////// -bool PrintServicer(const ServiceDescriptor* service, - Printer* out) { +bool PrintAlphaServicer(const ServiceDescriptor* service, + Printer* out) { grpc::string doc = ""; map dict = ListToDict({ "Service", service->name(), @@ -176,7 +176,7 @@ bool PrintServicer(const ServiceDescriptor* service, return true; } -bool PrintServer(const ServiceDescriptor* service, Printer* out) { +bool PrintAlphaServer(const ServiceDescriptor* service, Printer* out) { grpc::string doc = ""; map dict = ListToDict({ "Service", service->name(), @@ -204,8 +204,8 @@ bool PrintServer(const ServiceDescriptor* service, Printer* out) { return true; } -bool PrintStub(const ServiceDescriptor* service, - Printer* out) { +bool PrintAlphaStub(const ServiceDescriptor* service, + Printer* out) { grpc::string doc = ""; map dict = ListToDict({ "Service", service->name(), @@ -268,8 +268,8 @@ bool GetModuleAndMessagePath(const Descriptor* type, return true; } -bool PrintServerFactory(const grpc::string& package_qualified_service_name, - const ServiceDescriptor* service, Printer* out) { +bool PrintAlphaServerFactory(const grpc::string& package_qualified_service_name, + const ServiceDescriptor* service, Printer* out) { out->Print("def early_adopter_create_$Service$_server(servicer, port, " "private_key=None, certificate_chain=None):\n", "Service", service->name()); @@ -320,7 +320,7 @@ bool PrintServerFactory(const grpc::string& package_qualified_service_name, input_message_modules_and_classes.find(method_name); auto output_message_module_and_class = output_message_modules_and_classes.find(method_name); - out->Print("\"$Method$\": utilities.$Constructor$(\n", "Method", + out->Print("\"$Method$\": alpha_utilities.$Constructor$(\n", "Method", method_name, "Constructor", name_and_description_constructor->second); { @@ -348,8 +348,8 @@ bool PrintServerFactory(const grpc::string& package_qualified_service_name, return true; } -bool PrintStubFactory(const grpc::string& package_qualified_service_name, - const ServiceDescriptor* service, Printer* out) { +bool PrintAlphaStubFactory(const grpc::string& package_qualified_service_name, + const ServiceDescriptor* service, Printer* out) { map dict = ListToDict({ "Service", service->name(), }); @@ -404,7 +404,7 @@ bool PrintStubFactory(const grpc::string& package_qualified_service_name, input_message_modules_and_classes.find(method_name); auto output_message_module_and_class = output_message_modules_and_classes.find(method_name); - out->Print("\"$Method$\": utilities.$Constructor$(\n", "Method", + out->Print("\"$Method$\": alpha_utilities.$Constructor$(\n", "Method", method_name, "Constructor", name_and_description_constructor->second); { @@ -434,12 +434,280 @@ bool PrintStubFactory(const grpc::string& package_qualified_service_name, return true; } +bool PrintBetaServicer(const ServiceDescriptor* service, + Printer* out) { + grpc::string doc = ""; + map dict = ListToDict({ + "Service", service->name(), + "Documentation", doc, + }); + out->Print("\n"); + out->Print(dict, "class Beta$Service$Servicer(object):\n"); + { + IndentScope raii_class_indent(out); + out->Print(dict, "\"\"\"$Documentation$\"\"\"\n"); + out->Print("__metaclass__ = abc.ABCMeta\n"); + for (int i = 0; i < service->method_count(); ++i) { + auto meth = service->method(i); + grpc::string arg_name = meth->client_streaming() ? + "request_iterator" : "request"; + out->Print("@abc.abstractmethod\n"); + out->Print("def $Method$(self, $ArgName$, context):\n", + "Method", meth->name(), "ArgName", arg_name); + { + IndentScope raii_method_indent(out); + out->Print("raise NotImplementedError()\n"); + } + } + } + return true; +} + +bool PrintBetaStub(const ServiceDescriptor* service, + Printer* out) { + grpc::string doc = "The interface to which stubs will conform."; + map dict = ListToDict({ + "Service", service->name(), + "Documentation", doc, + }); + out->Print("\n"); + out->Print(dict, "class Beta$Service$Stub(object):\n"); + { + IndentScope raii_class_indent(out); + out->Print(dict, "\"\"\"$Documentation$\"\"\"\n"); + out->Print("__metaclass__ = abc.ABCMeta\n"); + for (int i = 0; i < service->method_count(); ++i) { + const MethodDescriptor* meth = service->method(i); + grpc::string arg_name = meth->client_streaming() ? + "request_iterator" : "request"; + auto methdict = ListToDict({"Method", meth->name(), "ArgName", arg_name}); + out->Print("@abc.abstractmethod\n"); + out->Print(methdict, "def $Method$(self, $ArgName$, timeout):\n"); + { + IndentScope raii_method_indent(out); + out->Print("raise NotImplementedError()\n"); + } + if (!meth->server_streaming()) { + out->Print(methdict, "$Method$.future = None\n"); + } + } + } + return true; +} + +bool PrintBetaServerFactory(const grpc::string& package_qualified_service_name, + const ServiceDescriptor* service, Printer* out) { + out->Print("\n"); + out->Print("def beta_create_$Service$_server(servicer, pool=None, " + "pool_size=None, default_timeout=None, maximum_timeout=None):\n", + "Service", service->name()); + { + IndentScope raii_create_server_indent(out); + map method_implementation_constructors; + map> + input_message_modules_and_classes; + map> + output_message_modules_and_classes; + for (int i = 0; i < service->method_count(); ++i) { + const MethodDescriptor* method = service->method(i); + const grpc::string method_implementation_constructor = + grpc::string(method->client_streaming() ? "stream_" : "unary_") + + grpc::string(method->server_streaming() ? "stream_" : "unary_") + + "inline"; + pair input_message_module_and_class; + if (!GetModuleAndMessagePath(method->input_type(), + &input_message_module_and_class)) { + return false; + } + pair output_message_module_and_class; + if (!GetModuleAndMessagePath(method->output_type(), + &output_message_module_and_class)) { + return false; + } + // Import the modules that define the messages used in RPCs. + out->Print("import $Module$\n", "Module", + input_message_module_and_class.first); + out->Print("import $Module$\n", "Module", + output_message_module_and_class.first); + method_implementation_constructors.insert( + make_pair(method->name(), method_implementation_constructor)); + input_message_modules_and_classes.insert( + make_pair(method->name(), input_message_module_and_class)); + output_message_modules_and_classes.insert( + make_pair(method->name(), output_message_module_and_class)); + } + out->Print("request_deserializers = {\n"); + for (auto name_and_input_module_class_pair = + input_message_modules_and_classes.begin(); + name_and_input_module_class_pair != + input_message_modules_and_classes.end(); + name_and_input_module_class_pair++) { + IndentScope raii_indent(out); + out->Print("(\'$PackageQualifiedServiceName$\', \'$MethodName$\'): " + "$InputTypeModule$.$InputTypeClass$.FromString,\n", + "PackageQualifiedServiceName", package_qualified_service_name, + "MethodName", name_and_input_module_class_pair->first, + "InputTypeModule", + name_and_input_module_class_pair->second.first, + "InputTypeClass", + name_and_input_module_class_pair->second.second); + } + out->Print("}\n"); + out->Print("response_serializers = {\n"); + for (auto name_and_output_module_class_pair = + output_message_modules_and_classes.begin(); + name_and_output_module_class_pair != + output_message_modules_and_classes.end(); + name_and_output_module_class_pair++) { + IndentScope raii_indent(out); + out->Print("(\'$PackageQualifiedServiceName$\', \'$MethodName$\'): " + "$OutputTypeModule$.$OutputTypeClass$.SerializeToString,\n", + "PackageQualifiedServiceName", package_qualified_service_name, + "MethodName", name_and_output_module_class_pair->first, + "OutputTypeModule", + name_and_output_module_class_pair->second.first, + "OutputTypeClass", + name_and_output_module_class_pair->second.second); + } + out->Print("}\n"); + out->Print("method_implementations = {\n"); + for (auto name_and_implementation_constructor = + method_implementation_constructors.begin(); + name_and_implementation_constructor != + method_implementation_constructors.end(); + name_and_implementation_constructor++) { + IndentScope raii_descriptions_indent(out); + const grpc::string method_name = + name_and_implementation_constructor->first; + out->Print("(\'$PackageQualifiedServiceName$\', \'$Method$\'): " + "face_utilities.$Constructor$(servicer.$Method$),\n", + "PackageQualifiedServiceName", package_qualified_service_name, + "Method", name_and_implementation_constructor->first, + "Constructor", name_and_implementation_constructor->second); + } + out->Print("}\n"); + out->Print("server_options = beta.server_options(" + "request_deserializers=request_deserializers, " + "response_serializers=response_serializers, " + "thread_pool=pool, thread_pool_size=pool_size, " + "default_timeout=default_timeout, " + "maximum_timeout=maximum_timeout)\n"); + out->Print("return beta.server(method_implementations, " + "options=server_options)\n"); + } + return true; +} + +bool PrintBetaStubFactory(const grpc::string& package_qualified_service_name, + const ServiceDescriptor* service, Printer* out) { + map dict = ListToDict({ + "Service", service->name(), + }); + out->Print("\n"); + out->Print(dict, "def beta_create_$Service$_stub(channel, host=None," + " metadata_transformer=None, pool=None, pool_size=None):\n"); + { + IndentScope raii_create_server_indent(out); + map method_cardinalities; + map> + input_message_modules_and_classes; + map> + output_message_modules_and_classes; + for (int i = 0; i < service->method_count(); ++i) { + const MethodDescriptor* method = service->method(i); + const grpc::string method_cardinality = + grpc::string(method->client_streaming() ? "STREAM" : "UNARY") + + "_" + + grpc::string(method->server_streaming() ? "STREAM" : "UNARY"); + pair input_message_module_and_class; + if (!GetModuleAndMessagePath(method->input_type(), + &input_message_module_and_class)) { + return false; + } + pair output_message_module_and_class; + if (!GetModuleAndMessagePath(method->output_type(), + &output_message_module_and_class)) { + return false; + } + // Import the modules that define the messages used in RPCs. + out->Print("import $Module$\n", "Module", + input_message_module_and_class.first); + out->Print("import $Module$\n", "Module", + output_message_module_and_class.first); + method_cardinalities.insert( + make_pair(method->name(), method_cardinality)); + input_message_modules_and_classes.insert( + make_pair(method->name(), input_message_module_and_class)); + output_message_modules_and_classes.insert( + make_pair(method->name(), output_message_module_and_class)); + } + out->Print("request_serializers = {\n"); + for (auto name_and_input_module_class_pair = + input_message_modules_and_classes.begin(); + name_and_input_module_class_pair != + input_message_modules_and_classes.end(); + name_and_input_module_class_pair++) { + IndentScope raii_indent(out); + out->Print("(\'$PackageQualifiedServiceName$\', \'$MethodName$\'): " + "$InputTypeModule$.$InputTypeClass$.SerializeToString,\n", + "PackageQualifiedServiceName", package_qualified_service_name, + "MethodName", name_and_input_module_class_pair->first, + "InputTypeModule", + name_and_input_module_class_pair->second.first, + "InputTypeClass", + name_and_input_module_class_pair->second.second); + } + out->Print("}\n"); + out->Print("response_deserializers = {\n"); + for (auto name_and_output_module_class_pair = + output_message_modules_and_classes.begin(); + name_and_output_module_class_pair != + output_message_modules_and_classes.end(); + name_and_output_module_class_pair++) { + IndentScope raii_indent(out); + out->Print("(\'$PackageQualifiedServiceName$\', \'$MethodName$\'): " + "$OutputTypeModule$.$OutputTypeClass$.FromString,\n", + "PackageQualifiedServiceName", package_qualified_service_name, + "MethodName", name_and_output_module_class_pair->first, + "OutputTypeModule", + name_and_output_module_class_pair->second.first, + "OutputTypeClass", + name_and_output_module_class_pair->second.second); + } + out->Print("}\n"); + out->Print("cardinalities = {\n"); + for (auto name_and_cardinality = method_cardinalities.begin(); + name_and_cardinality != method_cardinalities.end(); + name_and_cardinality++) { + IndentScope raii_descriptions_indent(out); + out->Print("\'$Method$\': cardinality.Cardinality.$Cardinality$,\n", + "Method", name_and_cardinality->first, + "Cardinality", name_and_cardinality->second); + } + out->Print("}\n"); + out->Print("stub_options = beta.stub_options(" + "host=host, metadata_transformer=metadata_transformer, " + "request_serializers=request_serializers, " + "response_deserializers=response_deserializers, " + "thread_pool=pool, thread_pool_size=pool_size)\n"); + out->Print( + "return beta.dynamic_stub(channel, \'$PackageQualifiedServiceName$\', " + "cardinalities, options=stub_options)\n", + "PackageQualifiedServiceName", package_qualified_service_name); + } + return true; +} + bool PrintPreamble(const FileDescriptor* file, const GeneratorConfiguration& config, Printer* out) { out->Print("import abc\n"); + out->Print("from $Package$ import beta\n", + "Package", config.beta_package_root); out->Print("from $Package$ import implementations\n", - "Package", config.implementations_package_root); - out->Print("from grpc.framework.alpha import utilities\n"); + "Package", config.early_adopter_package_root); + out->Print("from grpc.framework.alpha import utilities as alpha_utilities\n"); + out->Print("from grpc.framework.common import cardinality\n"); + out->Print("from grpc.framework.interfaces.face import utilities as face_utilities\n"); return true; } @@ -462,11 +730,15 @@ pair GetServices(const FileDescriptor* file, for (int i = 0; i < file->service_count(); ++i) { auto service = file->service(i); auto package_qualified_service_name = package + service->name(); - if (!(PrintServicer(service, &out) && - PrintServer(service, &out) && - PrintStub(service, &out) && - PrintServerFactory(package_qualified_service_name, service, &out) && - PrintStubFactory(package_qualified_service_name, service, &out))) { + if (!(PrintAlphaServicer(service, &out) && + PrintAlphaServer(service, &out) && + PrintAlphaStub(service, &out) && + PrintAlphaServerFactory(package_qualified_service_name, service, &out) && + PrintAlphaStubFactory(package_qualified_service_name, service, &out) && + PrintBetaServicer(service, &out) && + PrintBetaStub(service, &out) && + PrintBetaServerFactory(package_qualified_service_name, service, &out) && + PrintBetaStubFactory(package_qualified_service_name, service, &out))) { return make_pair(false, ""); } } diff --git a/src/compiler/python_generator.h b/src/compiler/python_generator.h index b47f3c1243..44ed4b3f98 100644 --- a/src/compiler/python_generator.h +++ b/src/compiler/python_generator.h @@ -43,7 +43,8 @@ namespace grpc_python_generator { // Data pertaining to configuration of the generator with respect to anything // that may be used internally at Google. struct GeneratorConfiguration { - grpc::string implementations_package_root; + grpc::string early_adopter_package_root; + grpc::string beta_package_root; }; class PythonGrpcGenerator : public grpc::protobuf::compiler::CodeGenerator { diff --git a/src/compiler/python_plugin.cc b/src/compiler/python_plugin.cc index d1f49442da..c7cef54900 100644 --- a/src/compiler/python_plugin.cc +++ b/src/compiler/python_plugin.cc @@ -38,7 +38,8 @@ int main(int argc, char* argv[]) { grpc_python_generator::GeneratorConfiguration config; - config.implementations_package_root = "grpc.early_adopter"; + config.early_adopter_package_root = "grpc.early_adopter"; + config.beta_package_root = "grpc.beta"; grpc_python_generator::PythonGrpcGenerator generator(config); return grpc::protobuf::compiler::PluginMain(argc, argv, &generator); } diff --git a/src/python/grpcio_test/grpc_protoc_plugin/alpha_python_plugin_test.py b/src/python/grpcio_test/grpc_protoc_plugin/alpha_python_plugin_test.py new file mode 100644 index 0000000000..b200d129a9 --- /dev/null +++ b/src/python/grpcio_test/grpc_protoc_plugin/alpha_python_plugin_test.py @@ -0,0 +1,541 @@ +# 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 distutils.spawn +import errno +import itertools +import os +import pkg_resources +import shutil +import subprocess +import sys +import tempfile +import threading +import time +import unittest + +from grpc.framework.alpha 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' + +# The timeout used in tests of RPCs that are supposed to expire. +SHORT_TIMEOUT = 2 +# The timeout used in tests of RPCs that are not supposed to expire. The +# absurdly large value doesn't matter since no passing execution of this test +# module will ever wait the duration. +LONG_TIMEOUT = 600 +NO_DELAY = 0 + + +class _ServicerMethods(object): + + def __init__(self, test_pb2, delay): + self._condition = threading.Condition() + self._delay = delay + self._paused = False + self._fail = False + self._test_pb2 = test_pb2 + + @contextlib.contextmanager + def pause(self): # pylint: disable=invalid-name + with self._condition: + self._paused = True + yield + with self._condition: + self._paused = False + self._condition.notify_all() + + @contextlib.contextmanager + def fail(self): # pylint: disable=invalid-name + with self._condition: + self._fail = True + yield + with self._condition: + self._fail = False + + def _control(self): # pylint: disable=invalid-name + with self._condition: + if self._fail: + raise ValueError() + while self._paused: + self._condition.wait() + time.sleep(self._delay) + + def UnaryCall(self, request, unused_rpc_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, unused_rpc_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, unused_rpc_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, unused_rpc_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, unused_rpc_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 + + +@contextlib.contextmanager +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. + + Yields: + A (servicer_methods, servicer, stub) three-tuple where servicer_methods is + the back-end of the service bound to the stub and the server and stub + are both activated and ready for use. + """ + 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, 0) + with server: + port = server.port() + stub = getattr(test_pb2, STUB_FACTORY_IDENTIFIER)('localhost', port) + with stub: + yield servicer_methods, stub, server + + +def _streaming_input_request_iterator(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 _streaming_output_request(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 _full_duplex_request_iterator(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): + # Assume that the appropriate protoc and grpc_python_plugins are on the + # path. + protoc_command = 'protoc' + protoc_plugin_filename = distutils.spawn.find_executable( + 'grpc_python_plugin') + test_proto_filename = pkg_resources.resource_filename( + 'grpc_protoc_plugin', '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. + self.outdir = tempfile.mkdtemp() + + # Invoke protoc with the plugin. + cmd = [ + protoc_command, + '--plugin=protoc-gen-python-grpc=%s' % protoc_plugin_filename, + '-I .', + '--python_out=%s' % self.outdir, + '--python-grpc_out=%s' % self.outdir, + os.path.basename(test_proto_filename), + ] + subprocess.check_call(' '.join(cmd), shell=True, env=os.environ, + cwd=os.path.dirname(test_proto_filename)) + sys.path.append(self.outdir) + + def tearDown(self): + try: + shutil.rmtree(self.outdir) + except OSError as exc: + if exc.errno != errno.ENOENT: + raise + + # TODO(atash): Figure out which of these 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 + with _CreateService( + test_pb2, NO_DELAY) as (servicer, stub, unused_server): + request = test_pb2.SimpleRequest(response_size=13) + + def testUnaryCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2, NO_DELAY) as (methods, stub, unused_server): + timeout = 6 # TODO(issue 2039): LONG_TIMEOUT like the other methods. + request = test_pb2.SimpleRequest(response_size=13) + response = stub.UnaryCall(request, timeout) + expected_response = methods.UnaryCall(request, 'not a real RpcContext!') + self.assertEqual(expected_response, response) + + def testUnaryCallAsync(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = test_pb2.SimpleRequest(response_size=13) + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + # Check that the call does not block waiting for the server to respond. + with methods.pause(): + response_future = stub.UnaryCall.async(request, LONG_TIMEOUT) + response = response_future.result() + expected_response = methods.UnaryCall(request, 'not a real RpcContext!') + self.assertEqual(expected_response, response) + + def testUnaryCallAsyncExpired(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + request = test_pb2.SimpleRequest(response_size=13) + with methods.pause(): + response_future = stub.UnaryCall.async(request, SHORT_TIMEOUT) + with self.assertRaises(exceptions.ExpirationError): + response_future.result() + + @unittest.skip('TODO(atash,nathaniel): figure out why this flakily hangs ' + 'forever and fix.') + def testUnaryCallAsyncCancelled(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = test_pb2.SimpleRequest(response_size=13) + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.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 + request = test_pb2.SimpleRequest(response_size=13) + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.fail(): + response_future = stub.UnaryCall.async(request, LONG_TIMEOUT) + self.assertIsNotNone(response_future.exception()) + + def testStreamingOutputCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = _streaming_output_request(test_pb2) + with _CreateService(test_pb2, NO_DELAY) as (methods, stub, unused_server): + responses = stub.StreamingOutputCall(request, LONG_TIMEOUT) + expected_responses = methods.StreamingOutputCall( + request, 'not a real RpcContext!') + for expected_response, response in itertools.izip_longest( + expected_responses, responses): + self.assertEqual(expected_response, response) + + @unittest.skip('TODO(atash,nathaniel): figure out why this flakily hangs ' + 'forever and fix.') + def testStreamingOutputCallExpired(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = _streaming_output_request(test_pb2) + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.pause(): + responses = stub.StreamingOutputCall(request, SHORT_TIMEOUT) + with self.assertRaises(exceptions.ExpirationError): + list(responses) + + @unittest.skip('TODO(atash,nathaniel): figure out why this flakily hangs ' + 'forever and fix.') + def testStreamingOutputCallCancelled(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = _streaming_output_request(test_pb2) + with _CreateService(test_pb2, NO_DELAY) as ( + unused_methods, stub, unused_server): + 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 + request = _streaming_output_request(test_pb2) + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.fail(): + responses = stub.StreamingOutputCall(request, 1) + self.assertIsNotNone(responses) + with self.assertRaises(exceptions.ServicerError): + next(responses) + + @unittest.skip('TODO(atash,nathaniel): figure out why this flakily hangs ' + 'forever and fix.') + def testStreamingInputCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2, NO_DELAY) as (methods, stub, unused_server): + response = stub.StreamingInputCall( + _streaming_input_request_iterator(test_pb2), LONG_TIMEOUT) + expected_response = methods.StreamingInputCall( + _streaming_input_request_iterator(test_pb2), 'not a real RpcContext!') + self.assertEqual(expected_response, response) + + def testStreamingInputCallAsync(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.pause(): + response_future = stub.StreamingInputCall.async( + _streaming_input_request_iterator(test_pb2), LONG_TIMEOUT) + response = response_future.result() + expected_response = methods.StreamingInputCall( + _streaming_input_request_iterator(test_pb2), 'not a real RpcContext!') + self.assertEqual(expected_response, response) + + def testStreamingInputCallAsyncExpired(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.pause(): + response_future = stub.StreamingInputCall.async( + _streaming_input_request_iterator(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 + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.pause(): + timeout = 6 # TODO(issue 2039): LONG_TIMEOUT like the other methods. + response_future = stub.StreamingInputCall.async( + _streaming_input_request_iterator(test_pb2), 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 + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.fail(): + response_future = stub.StreamingInputCall.async( + _streaming_input_request_iterator(test_pb2), SHORT_TIMEOUT) + self.assertIsNotNone(response_future.exception()) + + def testFullDuplexCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2, NO_DELAY) as (methods, stub, unused_server): + responses = stub.FullDuplexCall( + _full_duplex_request_iterator(test_pb2), LONG_TIMEOUT) + expected_responses = methods.FullDuplexCall( + _full_duplex_request_iterator(test_pb2), 'not a real RpcContext!') + for expected_response, response in itertools.izip_longest( + expected_responses, responses): + self.assertEqual(expected_response, response) + + @unittest.skip('TODO(atash,nathaniel): figure out why this flakily hangs ' + 'forever and fix.') + def testFullDuplexCallExpired(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request_iterator = _full_duplex_request_iterator(test_pb2) + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.pause(): + responses = stub.FullDuplexCall(request_iterator, SHORT_TIMEOUT) + with self.assertRaises(exceptions.ExpirationError): + list(responses) + + @unittest.skip('TODO(atash,nathaniel): figure out why this flakily hangs ' + 'forever and fix.') + def testFullDuplexCallCancelled(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2, NO_DELAY) as (methods, stub, unused_server): + request_iterator = _full_duplex_request_iterator(test_pb2) + responses = stub.FullDuplexCall(request_iterator, LONG_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 + request_iterator = _full_duplex_request_iterator(test_pb2) + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + with methods.fail(): + responses = stub.FullDuplexCall(request_iterator, LONG_TIMEOUT) + self.assertIsNotNone(responses) + with self.assertRaises(exceptions.ServicerError): + next(responses) + + @unittest.skip('TODO(atash,nathaniel): figure out why this flakily hangs ' + 'forever and fix.') + def testHalfDuplexCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2, NO_DELAY) as ( + methods, stub, unused_server): + def half_duplex_request_iterator(): + 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 + responses = stub.HalfDuplexCall( + half_duplex_request_iterator(), LONG_TIMEOUT) + expected_responses = methods.HalfDuplexCall( + half_duplex_request_iterator(), 'not a real RpcContext!') + 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 + condition = threading.Condition() + wait_cell = [False] + @contextlib.contextmanager + def wait(): # pylint: disable=invalid-name + # Where's Python 3's 'nonlocal' statement when you need it? + with condition: + wait_cell[0] = True + yield + with condition: + wait_cell[0] = False + condition.notify_all() + def half_duplex_request_iterator(): + request = test_pb2.StreamingOutputCallRequest() + request.response_parameters.add(size=1, interval_us=0) + yield request + with condition: + while wait_cell[0]: + condition.wait() + with _CreateService(test_pb2, NO_DELAY) as (methods, stub, unused_server): + with wait(): + responses = stub.HalfDuplexCall( + half_duplex_request_iterator(), SHORT_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])) + unittest.main(verbosity=2) diff --git a/src/python/grpcio_test/grpc_protoc_plugin/beta_python_plugin_test.py b/src/python/grpcio_test/grpc_protoc_plugin/beta_python_plugin_test.py new file mode 100644 index 0000000000..4c8c64b06d --- /dev/null +++ b/src/python/grpcio_test/grpc_protoc_plugin/beta_python_plugin_test.py @@ -0,0 +1,501 @@ +# 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 distutils.spawn +import errno +import itertools +import os +import pkg_resources +import shutil +import subprocess +import sys +import tempfile +import threading +import time +import unittest + +from grpc.beta import beta +from grpc.framework.foundation import future +from grpc.framework.interfaces.face import face +from grpc_test.framework.common import test_constants + +# Identifiers of entities we expect to find in the generated module. +SERVICER_IDENTIFIER = 'BetaTestServiceServicer' +STUB_IDENTIFIER = 'BetaTestServiceStub' +SERVER_FACTORY_IDENTIFIER = 'beta_create_TestService_server' +STUB_FACTORY_IDENTIFIER = 'beta_create_TestService_stub' + + +class _ServicerMethods(object): + + def __init__(self, test_pb2): + self._condition = threading.Condition() + self._paused = False + self._fail = False + self._test_pb2 = test_pb2 + + @contextlib.contextmanager + def pause(self): # pylint: disable=invalid-name + with self._condition: + self._paused = True + yield + with self._condition: + self._paused = False + self._condition.notify_all() + + @contextlib.contextmanager + def fail(self): # pylint: disable=invalid-name + with self._condition: + self._fail = True + yield + with self._condition: + self._fail = False + + def _control(self): # pylint: disable=invalid-name + with self._condition: + if self._fail: + raise ValueError() + while self._paused: + self._condition.wait() + + def UnaryCall(self, request, unused_rpc_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, unused_rpc_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, unused_rpc_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, unused_rpc_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, unused_rpc_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 + + +@contextlib.contextmanager +def _CreateService(test_pb2): + """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. + + Args: + test_pb2: The test_pb2 module generated by this test. + + Yields: + A (servicer_methods, stub) pair where servicer_methods is the back-end of + the service bound to the stub and and stub is the stub on which to invoke + RPCs. + """ + servicer_methods = _ServicerMethods(test_pb2) + + 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 = server.add_insecure_port('[::]:0') + server.start() + channel = beta.create_insecure_channel('localhost', port) + stub = getattr(test_pb2, STUB_FACTORY_IDENTIFIER)(channel) + yield servicer_methods, stub + server.stop(0) + + +def _streaming_input_request_iterator(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 _streaming_output_request(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 _full_duplex_request_iterator(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.future()`) only gives futures for the *response-unary* + methods and does not exist for response-streaming methods. + """ + + def setUp(self): + # Assume that the appropriate protoc and grpc_python_plugins are on the + # path. + protoc_command = 'protoc' + protoc_plugin_filename = distutils.spawn.find_executable( + 'grpc_python_plugin') + test_proto_filename = pkg_resources.resource_filename( + 'grpc_protoc_plugin', '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. + self.outdir = tempfile.mkdtemp() + + # Invoke protoc with the plugin. + cmd = [ + protoc_command, + '--plugin=protoc-gen-python-grpc=%s' % protoc_plugin_filename, + '-I .', + '--python_out=%s' % self.outdir, + '--python-grpc_out=%s' % self.outdir, + os.path.basename(test_proto_filename), + ] + subprocess.check_call(' '.join(cmd), shell=True, env=os.environ, + cwd=os.path.dirname(test_proto_filename)) + sys.path.append(self.outdir) + + def tearDown(self): + try: + shutil.rmtree(self.outdir) + except OSError as exc: + if exc.errno != errno.ENOENT: + raise + + 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, 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 + with _CreateService(test_pb2) as (servicer, stub): + request = test_pb2.SimpleRequest(response_size=13) + + def testUnaryCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + request = test_pb2.SimpleRequest(response_size=13) + response = stub.UnaryCall(request, test_constants.LONG_TIMEOUT) + expected_response = methods.UnaryCall(request, 'not a real context!') + self.assertEqual(expected_response, response) + + def testUnaryCallFuture(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = test_pb2.SimpleRequest(response_size=13) + with _CreateService(test_pb2) as (methods, stub): + # Check that the call does not block waiting for the server to respond. + with methods.pause(): + response_future = stub.UnaryCall.future( + request, test_constants.LONG_TIMEOUT) + response = response_future.result() + expected_response = methods.UnaryCall(request, 'not a real RpcContext!') + self.assertEqual(expected_response, response) + + def testUnaryCallFutureExpired(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + request = test_pb2.SimpleRequest(response_size=13) + with methods.pause(): + response_future = stub.UnaryCall.future( + request, test_constants.SHORT_TIMEOUT) + with self.assertRaises(face.ExpirationError): + response_future.result() + + def testUnaryCallFutureCancelled(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = test_pb2.SimpleRequest(response_size=13) + with _CreateService(test_pb2) as (methods, stub): + with methods.pause(): + response_future = stub.UnaryCall.future(request, 1) + response_future.cancel() + self.assertTrue(response_future.cancelled()) + + def testUnaryCallFutureFailed(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = test_pb2.SimpleRequest(response_size=13) + with _CreateService(test_pb2) as (methods, stub): + with methods.fail(): + response_future = stub.UnaryCall.future( + request, test_constants.LONG_TIMEOUT) + self.assertIsNotNone(response_future.exception()) + + def testStreamingOutputCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = _streaming_output_request(test_pb2) + with _CreateService(test_pb2) as (methods, stub): + responses = stub.StreamingOutputCall( + request, test_constants.LONG_TIMEOUT) + expected_responses = methods.StreamingOutputCall( + request, 'not a real RpcContext!') + for expected_response, response in itertools.izip_longest( + expected_responses, responses): + self.assertEqual(expected_response, response) + + def testStreamingOutputCallExpired(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = _streaming_output_request(test_pb2) + with _CreateService(test_pb2) as (methods, stub): + with methods.pause(): + responses = stub.StreamingOutputCall( + request, test_constants.SHORT_TIMEOUT) + with self.assertRaises(face.ExpirationError): + list(responses) + + def testStreamingOutputCallCancelled(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = _streaming_output_request(test_pb2) + with _CreateService(test_pb2) as (unused_methods, stub): + responses = stub.StreamingOutputCall( + request, test_constants.LONG_TIMEOUT) + next(responses) + responses.cancel() + with self.assertRaises(face.CancellationError): + next(responses) + + def testStreamingOutputCallFailed(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request = _streaming_output_request(test_pb2) + with _CreateService(test_pb2) as (methods, stub): + with methods.fail(): + responses = stub.StreamingOutputCall(request, 1) + self.assertIsNotNone(responses) + with self.assertRaises(face.RemoteError): + next(responses) + + def testStreamingInputCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + response = stub.StreamingInputCall( + _streaming_input_request_iterator(test_pb2), + test_constants.LONG_TIMEOUT) + expected_response = methods.StreamingInputCall( + _streaming_input_request_iterator(test_pb2), 'not a real RpcContext!') + self.assertEqual(expected_response, response) + + def testStreamingInputCallFuture(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + with methods.pause(): + response_future = stub.StreamingInputCall.future( + _streaming_input_request_iterator(test_pb2), + test_constants.LONG_TIMEOUT) + response = response_future.result() + expected_response = methods.StreamingInputCall( + _streaming_input_request_iterator(test_pb2), 'not a real RpcContext!') + self.assertEqual(expected_response, response) + + def testStreamingInputCallFutureExpired(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + with methods.pause(): + response_future = stub.StreamingInputCall.future( + _streaming_input_request_iterator(test_pb2), + test_constants.SHORT_TIMEOUT) + with self.assertRaises(face.ExpirationError): + response_future.result() + self.assertIsInstance( + response_future.exception(), face.ExpirationError) + + def testStreamingInputCallFutureCancelled(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + with methods.pause(): + response_future = stub.StreamingInputCall.future( + _streaming_input_request_iterator(test_pb2), + test_constants.LONG_TIMEOUT) + response_future.cancel() + self.assertTrue(response_future.cancelled()) + with self.assertRaises(future.CancelledError): + response_future.result() + + def testStreamingInputCallFutureFailed(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + with methods.fail(): + response_future = stub.StreamingInputCall.future( + _streaming_input_request_iterator(test_pb2), + test_constants.LONG_TIMEOUT) + self.assertIsNotNone(response_future.exception()) + + def testFullDuplexCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + responses = stub.FullDuplexCall( + _full_duplex_request_iterator(test_pb2), test_constants.LONG_TIMEOUT) + expected_responses = methods.FullDuplexCall( + _full_duplex_request_iterator(test_pb2), 'not a real RpcContext!') + for expected_response, response in itertools.izip_longest( + expected_responses, responses): + self.assertEqual(expected_response, response) + + def testFullDuplexCallExpired(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request_iterator = _full_duplex_request_iterator(test_pb2) + with _CreateService(test_pb2) as (methods, stub): + with methods.pause(): + responses = stub.FullDuplexCall( + request_iterator, test_constants.SHORT_TIMEOUT) + with self.assertRaises(face.ExpirationError): + list(responses) + + def testFullDuplexCallCancelled(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + request_iterator = _full_duplex_request_iterator(test_pb2) + responses = stub.FullDuplexCall( + request_iterator, test_constants.LONG_TIMEOUT) + next(responses) + responses.cancel() + with self.assertRaises(face.CancellationError): + next(responses) + + def testFullDuplexCallFailed(self): + import test_pb2 # pylint: disable=g-import-not-at-top + request_iterator = _full_duplex_request_iterator(test_pb2) + with _CreateService(test_pb2) as (methods, stub): + with methods.fail(): + responses = stub.FullDuplexCall( + request_iterator, test_constants.LONG_TIMEOUT) + self.assertIsNotNone(responses) + with self.assertRaises(face.RemoteError): + next(responses) + + def testHalfDuplexCall(self): + import test_pb2 # pylint: disable=g-import-not-at-top + with _CreateService(test_pb2) as (methods, stub): + def half_duplex_request_iterator(): + 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 + responses = stub.HalfDuplexCall( + half_duplex_request_iterator(), test_constants.LONG_TIMEOUT) + expected_responses = methods.HalfDuplexCall( + half_duplex_request_iterator(), 'not a real RpcContext!') + 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 + condition = threading.Condition() + wait_cell = [False] + @contextlib.contextmanager + def wait(): # pylint: disable=invalid-name + # Where's Python 3's 'nonlocal' statement when you need it? + with condition: + wait_cell[0] = True + yield + with condition: + wait_cell[0] = False + condition.notify_all() + def half_duplex_request_iterator(): + request = test_pb2.StreamingOutputCallRequest() + request.response_parameters.add(size=1, interval_us=0) + yield request + with condition: + while wait_cell[0]: + condition.wait() + with _CreateService(test_pb2) as (methods, stub): + with wait(): + responses = stub.HalfDuplexCall( + half_duplex_request_iterator(), test_constants.SHORT_TIMEOUT) + # half-duplex waits for the client to send all info + with self.assertRaises(face.ExpirationError): + next(responses) + + +if __name__ == '__main__': + os.chdir(os.path.dirname(sys.argv[0])) + unittest.main(verbosity=2) -- cgit v1.2.3