/* * * Copyright 2015 gRPC authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ #ifndef GRPCPP_GENERIC_GENERIC_STUB_IMPL_H #define GRPCPP_GENERIC_GENERIC_STUB_IMPL_H #include #include #include #include #include #include #include #include namespace grpc { typedef ::grpc_impl::ClientAsyncReaderWriter GenericClientAsyncReaderWriter; typedef ::grpc_impl::ClientAsyncResponseReader GenericClientAsyncResponseReader; } // namespace grpc namespace grpc_impl { class CompletionQueue; /// Generic stubs provide a type-unaware interface to call gRPC methods /// by name. In practice, the Request and Response types should be basic /// types like grpc::ByteBuffer or proto::MessageLite (the base protobuf). template class TemplatedGenericStub final { public: explicit TemplatedGenericStub(std::shared_ptr channel) : channel_(channel) {} /// Setup a call to a named method \a method using \a context, but don't /// start it. Let it be started explicitly with StartCall and a tag. /// The return value only indicates whether or not registration of the call /// succeeded (i.e. the call won't proceed if the return value is nullptr). std::unique_ptr> PrepareCall(ClientContext* context, const grpc::string& method, CompletionQueue* cq) { return CallInternal(channel_.get(), context, method, cq, false, nullptr); } /// Setup a unary call to a named method \a method using \a context, and don't /// start it. Let it be started explicitly with StartCall. /// The return value only indicates whether or not registration of the call /// succeeded (i.e. the call won't proceed if the return value is nullptr). std::unique_ptr> PrepareUnaryCall( ClientContext* context, const grpc::string& method, const RequestType& request, CompletionQueue* cq) { return std::unique_ptr>( internal::ClientAsyncResponseReaderFactory::Create( channel_.get(), cq, grpc::internal::RpcMethod(method.c_str(), grpc::internal::RpcMethod::NORMAL_RPC), context, request, false)); } /// DEPRECATED for multi-threaded use /// Begin a call to a named method \a method using \a context. /// A tag \a tag will be delivered to \a cq when the call has been started /// (i.e, initial metadata has been sent). /// The return value only indicates whether or not registration of the call /// succeeded (i.e. the call won't proceed if the return value is nullptr). std::unique_ptr> Call( ClientContext* context, const grpc::string& method, CompletionQueue* cq, void* tag) { return CallInternal(channel_.get(), context, method, cq, true, tag); } #ifdef GRPC_CALLBACK_API_NONEXPERIMENTAL /// Setup and start a unary call to a named method \a method using /// \a context and specifying the \a request and \a response buffers. void UnaryCall(ClientContext* context, const grpc::string& method, const RequestType* request, ResponseType* response, std::function on_completion) { UnaryCallInternal(context, method, request, response, std::move(on_completion)); } /// Setup a unary call to a named method \a method using /// \a context and specifying the \a request and \a response buffers. /// Like any other reactor-based RPC, it will not be activated until /// StartCall is invoked on its reactor. void PrepareUnaryCall(ClientContext* context, const grpc::string& method, const RequestType* request, ResponseType* response, ClientUnaryReactor* reactor) { PrepareUnaryCallInternal(context, method, request, response, reactor); } /// Setup a call to a named method \a method using \a context and tied to /// \a reactor . Like any other bidi streaming RPC, it will not be activated /// until StartCall is invoked on its reactor. void PrepareBidiStreamingCall( ClientContext* context, const grpc::string& method, ClientBidiReactor* reactor) { PrepareBidiStreamingCallInternal(context, method, reactor); } #endif /// NOTE: class experimental_type is not part of the public API of this class /// TODO(vjpai): Move these contents to the public API of GenericStub when /// they are no longer experimental class experimental_type { public: explicit experimental_type(TemplatedGenericStub* stub) : stub_(stub) {} /// Setup and start a unary call to a named method \a method using /// \a context and specifying the \a request and \a response buffers. void UnaryCall(ClientContext* context, const grpc::string& method, const RequestType* request, ResponseType* response, std::function on_completion) { stub_->UnaryCallInternal(context, method, request, response, std::move(on_completion)); } /// Setup a unary call to a named method \a method using /// \a context and specifying the \a request and \a response buffers. /// Like any other reactor-based RPC, it will not be activated until /// StartCall is invoked on its reactor. void PrepareUnaryCall(ClientContext* context, const grpc::string& method, const RequestType* request, ResponseType* response, ClientUnaryReactor* reactor) { stub_->PrepareUnaryCallInternal(context, method, request, response, reactor); } /// Setup a call to a named method \a method using \a context and tied to /// \a reactor . Like any other bidi streaming RPC, it will not be activated /// until StartCall is invoked on its reactor. void PrepareBidiStreamingCall( ClientContext* context, const grpc::string& method, ClientBidiReactor* reactor) { stub_->PrepareBidiStreamingCallInternal(context, method, reactor); } private: TemplatedGenericStub* stub_; }; /// NOTE: The function experimental() is not stable public API. It is a view /// to the experimental components of this class. It may be changed or removed /// at any time. experimental_type experimental() { return experimental_type(this); } private: std::shared_ptr channel_; void UnaryCallInternal(ClientContext* context, const grpc::string& method, const RequestType* request, ResponseType* response, std::function on_completion) { internal::CallbackUnaryCall( channel_.get(), grpc::internal::RpcMethod(method.c_str(), grpc::internal::RpcMethod::NORMAL_RPC), context, request, response, std::move(on_completion)); } void PrepareUnaryCallInternal(ClientContext* context, const grpc::string& method, const RequestType* request, ResponseType* response, ClientUnaryReactor* reactor) { internal::ClientCallbackUnaryFactory::Create( channel_.get(), grpc::internal::RpcMethod(method.c_str(), grpc::internal::RpcMethod::NORMAL_RPC), context, request, response, reactor); } void PrepareBidiStreamingCallInternal( ClientContext* context, const grpc::string& method, ClientBidiReactor* reactor) { internal::ClientCallbackReaderWriterFactory:: Create(channel_.get(), grpc::internal::RpcMethod( method.c_str(), grpc::internal::RpcMethod::BIDI_STREAMING), context, reactor); } std::unique_ptr> CallInternal(grpc::ChannelInterface* channel, ClientContext* context, const grpc::string& method, CompletionQueue* cq, bool start, void* tag) { return std::unique_ptr>( internal::ClientAsyncReaderWriterFactory:: Create( channel, cq, grpc::internal::RpcMethod( method.c_str(), grpc::internal::RpcMethod::BIDI_STREAMING), context, start, tag)); } }; typedef TemplatedGenericStub GenericStub; } // namespace grpc_impl #endif // GRPCPP_GENERIC_GENERIC_STUB_IMPL_H