/* * * 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. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "src/compiler/config.h" #include "src/compiler/generator_helpers.h" #include "src/compiler/protobuf_plugin.h" #include "src/compiler/python_generator.h" #include "src/compiler/python_generator_helpers.h" #include "src/compiler/python_private_generator.h" using grpc::protobuf::FileDescriptor; using grpc::protobuf::compiler::GeneratorContext; using grpc::protobuf::io::CodedOutputStream; using grpc::protobuf::io::ZeroCopyOutputStream; using std::make_pair; using std::map; using std::pair; using std::replace; using std::tuple; using std::vector; using std::set; namespace grpc_python_generator { grpc::string generator_file_name; namespace { typedef map StringMap; typedef vector StringVector; typedef tuple StringPair; typedef set StringPairSet; // Provides RAII indentation handling. Use as: // { // IndentScope raii_my_indent_var_name_here(my_py_printer); // // constructor indented my_py_printer // ... // // destructor called at end of scope, un-indenting my_py_printer // } class IndentScope { public: explicit IndentScope(grpc_generator::Printer* printer) : printer_(printer) { printer_->Indent(); } ~IndentScope() { printer_->Outdent(); } private: grpc_generator::Printer* printer_; }; PrivateGenerator::PrivateGenerator(const GeneratorConfiguration& config, const grpc_generator::File* file) : config(config), file(file) {} void PrivateGenerator::PrintAllComments(StringVector comments, grpc_generator::Printer* out) { if (comments.empty()) { // Python requires code structures like class and def to have // a body, even if it is just "pass" or a docstring. We need // to ensure not to generate empty bodies. We could do something // smarter and more sophisticated, but at the moment, if there is // no docstring to print, we simply emit "pass" to ensure validity // of the generated code. out->Print("# missing associated documentation comment in .proto file\n"); out->Print("pass\n"); return; } out->Print("\"\"\""); for (StringVector::iterator it = comments.begin(); it != comments.end(); ++it) { size_t start_pos = it->find_first_not_of(' '); if (start_pos != grpc::string::npos) { out->Print(it->c_str() + start_pos); } out->Print("\n"); } out->Print("\"\"\"\n"); } bool PrivateGenerator::PrintBetaServicer(const grpc_generator::Service* service, grpc_generator::Printer* out) { StringMap service_dict; service_dict["Service"] = service->name(); out->Print("\n\n"); out->Print(service_dict, "class Beta$Service$Servicer(object):\n"); { IndentScope raii_class_indent(out); out->Print( "\"\"\"The Beta API is deprecated for 0.15.0 and later.\n" "\nIt is recommended to use the GA API (classes and functions in this\n" "file not marked beta) for all further purposes. This class was " "generated\n" "only to ease transition from grpcio<0.15.0 to " "grpcio>=0.15.0.\"\"\"\n"); StringVector service_comments = service->GetAllComments(); PrintAllComments(service_comments, out); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); grpc::string arg_name = method->ClientStreaming() ? "request_iterator" : "request"; StringMap method_dict; method_dict["Method"] = method->name(); method_dict["ArgName"] = arg_name; out->Print(method_dict, "def $Method$(self, $ArgName$, context):\n"); { IndentScope raii_method_indent(out); StringVector method_comments = method->GetAllComments(); PrintAllComments(method_comments, out); out->Print("context.code(beta_interfaces.StatusCode.UNIMPLEMENTED)\n"); } } } return true; } bool PrivateGenerator::PrintBetaStub(const grpc_generator::Service* service, grpc_generator::Printer* out) { StringMap service_dict; service_dict["Service"] = service->name(); out->Print("\n\n"); out->Print(service_dict, "class Beta$Service$Stub(object):\n"); { IndentScope raii_class_indent(out); out->Print( "\"\"\"The Beta API is deprecated for 0.15.0 and later.\n" "\nIt is recommended to use the GA API (classes and functions in this\n" "file not marked beta) for all further purposes. This class was " "generated\n" "only to ease transition from grpcio<0.15.0 to " "grpcio>=0.15.0.\"\"\"\n"); StringVector service_comments = service->GetAllComments(); PrintAllComments(service_comments, out); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); grpc::string arg_name = method->ClientStreaming() ? "request_iterator" : "request"; StringMap method_dict; method_dict["Method"] = method->name(); method_dict["ArgName"] = arg_name; out->Print(method_dict, "def $Method$(self, $ArgName$, timeout, metadata=None, " "with_call=False, protocol_options=None):\n"); { IndentScope raii_method_indent(out); StringVector method_comments = method->GetAllComments(); PrintAllComments(method_comments, out); out->Print("raise NotImplementedError()\n"); } if (!method->ServerStreaming()) { out->Print(method_dict, "$Method$.future = None\n"); } } } return true; } bool PrivateGenerator::PrintBetaServerFactory( const grpc::string& package_qualified_service_name, const grpc_generator::Service* service, grpc_generator::Printer* out) { StringMap service_dict; service_dict["Service"] = service->name(); out->Print("\n\n"); out->Print(service_dict, "def beta_create_$Service$_server(servicer, pool=None, " "pool_size=None, default_timeout=None, maximum_timeout=None):\n"); { IndentScope raii_create_server_indent(out); out->Print( "\"\"\"The Beta API is deprecated for 0.15.0 and later.\n" "\nIt is recommended to use the GA API (classes and functions in this\n" "file not marked beta) for all further purposes. This function was\n" "generated only to ease transition from grpcio<0.15.0 to grpcio>=0.15.0" "\"\"\"\n"); StringMap method_implementation_constructors; StringMap input_message_modules_and_classes; StringMap output_message_modules_and_classes; for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); const grpc::string method_implementation_constructor = grpc::string(method->ClientStreaming() ? "stream_" : "unary_") + grpc::string(method->ServerStreaming() ? "stream_" : "unary_") + "inline"; grpc::string input_message_module_and_class; if (!method->get_module_and_message_path_input( &input_message_module_and_class, generator_file_name, generate_in_pb2_grpc, config.import_prefix)) { return false; } grpc::string output_message_module_and_class; if (!method->get_module_and_message_path_output( &output_message_module_and_class, generator_file_name, generate_in_pb2_grpc, config.import_prefix)) { return false; } 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)); } StringMap method_dict; method_dict["PackageQualifiedServiceName"] = package_qualified_service_name; out->Print("request_deserializers = {\n"); for (StringMap::iterator 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++) { method_dict["MethodName"] = name_and_input_module_class_pair->first; method_dict["InputTypeModuleAndClass"] = name_and_input_module_class_pair->second; IndentScope raii_indent(out); out->Print(method_dict, "(\'$PackageQualifiedServiceName$\', \'$MethodName$\'): " "$InputTypeModuleAndClass$.FromString,\n"); } out->Print("}\n"); out->Print("response_serializers = {\n"); for (StringMap::iterator 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++) { method_dict["MethodName"] = name_and_output_module_class_pair->first; method_dict["OutputTypeModuleAndClass"] = name_and_output_module_class_pair->second; IndentScope raii_indent(out); out->Print(method_dict, "(\'$PackageQualifiedServiceName$\', \'$MethodName$\'): " "$OutputTypeModuleAndClass$.SerializeToString,\n"); } out->Print("}\n"); out->Print("method_implementations = {\n"); for (StringMap::iterator name_and_implementation_constructor = method_implementation_constructors.begin(); name_and_implementation_constructor != method_implementation_constructors.end(); name_and_implementation_constructor++) { method_dict["Method"] = name_and_implementation_constructor->first; method_dict["Constructor"] = name_and_implementation_constructor->second; IndentScope raii_descriptions_indent(out); const grpc::string method_name = name_and_implementation_constructor->first; out->Print(method_dict, "(\'$PackageQualifiedServiceName$\', \'$Method$\'): " "face_utilities.$Constructor$(servicer.$Method$),\n"); } out->Print("}\n"); out->Print( "server_options = beta_implementations.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_implementations.server(method_implementations, " "options=server_options)\n"); } return true; } bool PrivateGenerator::PrintBetaStubFactory( const grpc::string& package_qualified_service_name, const grpc_generator::Service* service, grpc_generator::Printer* out) { StringMap dict; dict["Service"] = service->name(); out->Print("\n\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); out->Print( "\"\"\"The Beta API is deprecated for 0.15.0 and later.\n" "\nIt is recommended to use the GA API (classes and functions in this\n" "file not marked beta) for all further purposes. This function was\n" "generated only to ease transition from grpcio<0.15.0 to grpcio>=0.15.0" "\"\"\"\n"); StringMap method_cardinalities; StringMap input_message_modules_and_classes; StringMap output_message_modules_and_classes; for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); const grpc::string method_cardinality = grpc::string(method->ClientStreaming() ? "STREAM" : "UNARY") + "_" + grpc::string(method->ServerStreaming() ? "STREAM" : "UNARY"); grpc::string input_message_module_and_class; if (!method->get_module_and_message_path_input( &input_message_module_and_class, generator_file_name, generate_in_pb2_grpc, config.import_prefix)) { return false; } grpc::string output_message_module_and_class; if (!method->get_module_and_message_path_output( &output_message_module_and_class, generator_file_name, generate_in_pb2_grpc, config.import_prefix)) { return false; } 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)); } StringMap method_dict; method_dict["PackageQualifiedServiceName"] = package_qualified_service_name; out->Print("request_serializers = {\n"); for (StringMap::iterator 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++) { method_dict["MethodName"] = name_and_input_module_class_pair->first; method_dict["InputTypeModuleAndClass"] = name_and_input_module_class_pair->second; IndentScope raii_indent(out); out->Print(method_dict, "(\'$PackageQualifiedServiceName$\', \'$MethodName$\'): " "$InputTypeModuleAndClass$.SerializeToString,\n"); } out->Print("}\n"); out->Print("response_deserializers = {\n"); for (StringMap::iterator 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++) { method_dict["MethodName"] = name_and_output_module_class_pair->first; method_dict["OutputTypeModuleAndClass"] = name_and_output_module_class_pair->second; IndentScope raii_indent(out); out->Print(method_dict, "(\'$PackageQualifiedServiceName$\', \'$MethodName$\'): " "$OutputTypeModuleAndClass$.FromString,\n"); } out->Print("}\n"); out->Print("cardinalities = {\n"); for (StringMap::iterator name_and_cardinality = method_cardinalities.begin(); name_and_cardinality != method_cardinalities.end(); name_and_cardinality++) { method_dict["Method"] = name_and_cardinality->first; method_dict["Cardinality"] = name_and_cardinality->second; IndentScope raii_descriptions_indent(out); out->Print(method_dict, "\'$Method$\': cardinality.Cardinality.$Cardinality$,\n"); } out->Print("}\n"); out->Print( "stub_options = beta_implementations.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(method_dict, "return beta_implementations.dynamic_stub(channel, " "\'$PackageQualifiedServiceName$\', " "cardinalities, options=stub_options)\n"); } return true; } bool PrivateGenerator::PrintStub( const grpc::string& package_qualified_service_name, const grpc_generator::Service* service, grpc_generator::Printer* out) { StringMap dict; dict["Service"] = service->name(); out->Print("\n\n"); out->Print(dict, "class $Service$Stub(object):\n"); { IndentScope raii_class_indent(out); StringVector service_comments = service->GetAllComments(); PrintAllComments(service_comments, out); out->Print("\n"); out->Print("def __init__(self, channel):\n"); { IndentScope raii_init_indent(out); out->Print("\"\"\"Constructor.\n"); out->Print("\n"); out->Print("Args:\n"); { IndentScope raii_args_indent(out); out->Print("channel: A grpc.Channel.\n"); } out->Print("\"\"\"\n"); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); grpc::string multi_callable_constructor = grpc::string(method->ClientStreaming() ? "stream" : "unary") + "_" + grpc::string(method->ServerStreaming() ? "stream" : "unary"); grpc::string request_module_and_class; if (!method->get_module_and_message_path_input( &request_module_and_class, generator_file_name, generate_in_pb2_grpc, config.import_prefix)) { return false; } grpc::string response_module_and_class; if (!method->get_module_and_message_path_output( &response_module_and_class, generator_file_name, generate_in_pb2_grpc, config.import_prefix)) { return false; } StringMap method_dict; method_dict["Method"] = method->name(); method_dict["MultiCallableConstructor"] = multi_callable_constructor; out->Print(method_dict, "self.$Method$ = channel.$MultiCallableConstructor$(\n"); { method_dict["PackageQualifiedService"] = package_qualified_service_name; method_dict["RequestModuleAndClass"] = request_module_and_class; method_dict["ResponseModuleAndClass"] = response_module_and_class; IndentScope raii_first_attribute_indent(out); IndentScope raii_second_attribute_indent(out); out->Print(method_dict, "'/$PackageQualifiedService$/$Method$',\n"); out->Print(method_dict, "request_serializer=$RequestModuleAndClass$." "SerializeToString,\n"); out->Print( method_dict, "response_deserializer=$ResponseModuleAndClass$.FromString,\n"); out->Print(")\n"); } } } } return true; } bool PrivateGenerator::PrintServicer(const grpc_generator::Service* service, grpc_generator::Printer* out) { StringMap service_dict; service_dict["Service"] = service->name(); out->Print("\n\n"); out->Print(service_dict, "class $Service$Servicer(object):\n"); { IndentScope raii_class_indent(out); StringVector service_comments = service->GetAllComments(); PrintAllComments(service_comments, out); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); grpc::string arg_name = method->ClientStreaming() ? "request_iterator" : "request"; StringMap method_dict; method_dict["Method"] = method->name(); method_dict["ArgName"] = arg_name; out->Print("\n"); out->Print(method_dict, "def $Method$(self, $ArgName$, context):\n"); { IndentScope raii_method_indent(out); StringVector method_comments = method->GetAllComments(); PrintAllComments(method_comments, out); out->Print("context.set_code(grpc.StatusCode.UNIMPLEMENTED)\n"); out->Print("context.set_details('Method not implemented!')\n"); out->Print("raise NotImplementedError('Method not implemented!')\n"); } } } return true; } bool PrivateGenerator::PrintAddServicerToServer( const grpc::string& package_qualified_service_name, const grpc_generator::Service* service, grpc_generator::Printer* out) { StringMap service_dict; service_dict["Service"] = service->name(); out->Print("\n\n"); out->Print(service_dict, "def add_$Service$Servicer_to_server(servicer, server):\n"); { IndentScope raii_class_indent(out); out->Print("rpc_method_handlers = {\n"); { IndentScope raii_dict_first_indent(out); IndentScope raii_dict_second_indent(out); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); grpc::string method_handler_constructor = grpc::string(method->ClientStreaming() ? "stream" : "unary") + "_" + grpc::string(method->ServerStreaming() ? "stream" : "unary") + "_rpc_method_handler"; grpc::string request_module_and_class; if (!method->get_module_and_message_path_input( &request_module_and_class, generator_file_name, generate_in_pb2_grpc, config.import_prefix)) { return false; } grpc::string response_module_and_class; if (!method->get_module_and_message_path_output( &response_module_and_class, generator_file_name, generate_in_pb2_grpc, config.import_prefix)) { return false; } StringMap method_dict; method_dict["Method"] = method->name(); method_dict["MethodHandlerConstructor"] = method_handler_constructor; method_dict["RequestModuleAndClass"] = request_module_and_class; method_dict["ResponseModuleAndClass"] = response_module_and_class; out->Print(method_dict, "'$Method$': grpc.$MethodHandlerConstructor$(\n"); { IndentScope raii_call_first_indent(out); IndentScope raii_call_second_indent(out); out->Print(method_dict, "servicer.$Method$,\n"); out->Print( method_dict, "request_deserializer=$RequestModuleAndClass$.FromString,\n"); out->Print( method_dict, "response_serializer=$ResponseModuleAndClass$.SerializeToString," "\n"); } out->Print("),\n"); } } StringMap method_dict; method_dict["PackageQualifiedServiceName"] = package_qualified_service_name; out->Print("}\n"); out->Print("generic_handler = grpc.method_handlers_generic_handler(\n"); { IndentScope raii_call_first_indent(out); IndentScope raii_call_second_indent(out); out->Print(method_dict, "'$PackageQualifiedServiceName$', rpc_method_handlers)\n"); } out->Print("server.add_generic_rpc_handlers((generic_handler,))\n"); } return true; } bool PrivateGenerator::PrintBetaPreamble(grpc_generator::Printer* out) { StringMap var; var["Package"] = config.beta_package_root; out->Print(var, "from $Package$ import implementations as beta_implementations\n"); out->Print(var, "from $Package$ import interfaces as beta_interfaces\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; } bool PrivateGenerator::PrintPreamble(grpc_generator::Printer* out) { StringMap var; var["Package"] = config.grpc_package_root; out->Print(var, "import $Package$\n"); if (generate_in_pb2_grpc) { out->Print("\n"); StringPairSet imports_set; for (int i = 0; i < file->service_count(); ++i) { auto service = file->service(i); for (int j = 0; j < service->method_count(); ++j) { auto method = service.get()->method(j); grpc::string input_type_file_name = method->get_input_type_name(); grpc::string input_module_name = ModuleName(input_type_file_name, config.import_prefix); grpc::string input_module_alias = ModuleAlias(input_type_file_name, config.import_prefix); imports_set.insert( std::make_tuple(input_module_name, input_module_alias)); grpc::string output_type_file_name = method->get_output_type_name(); grpc::string output_module_name = ModuleName(output_type_file_name, config.import_prefix); grpc::string output_module_alias = ModuleAlias(output_type_file_name, config.import_prefix); imports_set.insert( std::make_tuple(output_module_name, output_module_alias)); } } for (StringPairSet::iterator it = imports_set.begin(); it != imports_set.end(); ++it) { var["ModuleName"] = std::get<0>(*it); var["ModuleAlias"] = std::get<1>(*it); out->Print(var, "import $ModuleName$ as $ModuleAlias$\n"); } } return true; } bool PrivateGenerator::PrintGAServices(grpc_generator::Printer* out) { grpc::string package = file->package(); if (!package.empty()) { package = package.append("."); } for (int i = 0; i < file->service_count(); ++i) { auto service = file->service(i); grpc::string package_qualified_service_name = package + service->name(); if (!(PrintStub(package_qualified_service_name, service.get(), out) && PrintServicer(service.get(), out) && PrintAddServicerToServer(package_qualified_service_name, service.get(), out))) { return false; } } return true; } bool PrivateGenerator::PrintBetaServices(grpc_generator::Printer* out) { grpc::string package = file->package(); if (!package.empty()) { package = package.append("."); } for (int i = 0; i < file->service_count(); ++i) { auto service = file->service(i); grpc::string package_qualified_service_name = package + service->name(); if (!(PrintBetaServicer(service.get(), out) && PrintBetaStub(service.get(), out) && PrintBetaServerFactory(package_qualified_service_name, service.get(), out) && PrintBetaStubFactory(package_qualified_service_name, service.get(), out))) { return false; } } return true; } pair PrivateGenerator::GetGrpcServices() { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto out = file->CreatePrinter(&output); if (generate_in_pb2_grpc) { out->Print( "# Generated by the gRPC Python protocol compiler plugin. " "DO NOT EDIT!\n"); if (!PrintPreamble(out.get())) { return make_pair(false, ""); } if (!PrintGAServices(out.get())) { return make_pair(false, ""); } } else { out->Print("try:\n"); { IndentScope raii_dict_try_indent(out.get()); out->Print( "# THESE ELEMENTS WILL BE DEPRECATED.\n" "# Please use the generated *_pb2_grpc.py files instead.\n"); if (!PrintPreamble(out.get())) { return make_pair(false, ""); } if (!PrintBetaPreamble(out.get())) { return make_pair(false, ""); } if (!PrintGAServices(out.get())) { return make_pair(false, ""); } if (!PrintBetaServices(out.get())) { return make_pair(false, ""); } } out->Print("except ImportError:\n"); { IndentScope raii_dict_except_indent(out.get()); out->Print("pass"); } } } return make_pair(true, std::move(output)); } } // namespace GeneratorConfiguration::GeneratorConfiguration() : grpc_package_root("grpc"), beta_package_root("grpc.beta"), import_prefix("") {} PythonGrpcGenerator::PythonGrpcGenerator(const GeneratorConfiguration& config) : config_(config) {} PythonGrpcGenerator::~PythonGrpcGenerator() {} static bool GenerateGrpc(GeneratorContext* context, PrivateGenerator& generator, grpc::string file_name, bool generate_in_pb2_grpc) { bool success; std::unique_ptr output; std::unique_ptr coded_output; grpc::string grpc_code; if (generate_in_pb2_grpc) { output.reset(context->Open(file_name)); generator.generate_in_pb2_grpc = true; } else { output.reset(context->OpenForInsert(file_name, "module_scope")); generator.generate_in_pb2_grpc = false; } coded_output.reset(new CodedOutputStream(output.get())); tie(success, grpc_code) = generator.GetGrpcServices(); if (success) { coded_output->WriteRaw(grpc_code.data(), grpc_code.size()); return true; } else { return false; } } bool PythonGrpcGenerator::Generate(const FileDescriptor* file, const grpc::string& parameter, GeneratorContext* context, grpc::string* error) const { // Get output file name. grpc::string pb2_file_name; grpc::string pb2_grpc_file_name; static const int proto_suffix_length = strlen(".proto"); if (file->name().size() > static_cast(proto_suffix_length) && file->name().find_last_of(".proto") == file->name().size() - 1) { grpc::string base = file->name().substr(0, file->name().size() - proto_suffix_length); pb2_file_name = base + "_pb2.py"; pb2_grpc_file_name = base + "_pb2_grpc.py"; } else { *error = "Invalid proto file name. Proto file must end with .proto"; return false; } generator_file_name = file->name(); ProtoBufFile pbfile(file); PrivateGenerator generator(config_, &pbfile); if (parameter == "grpc_2_0") { return GenerateGrpc(context, generator, pb2_grpc_file_name, true); } else if (parameter == "") { return GenerateGrpc(context, generator, pb2_grpc_file_name, true) && GenerateGrpc(context, generator, pb2_file_name, false); } else { *error = "Invalid parameter '" + parameter + "'."; return false; } } } // namespace grpc_python_generator