/* * Copyright 2017 The Cartographer 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. */ #include "cartographer_grpc/framework/server.h" #include #include "cartographer_grpc/framework/client.h" #include "cartographer_grpc/framework/execution_context.h" #include "cartographer_grpc/framework/proto/math_service.grpc.pb.h" #include "cartographer_grpc/framework/proto/math_service.pb.h" #include "cartographer_grpc/framework/rpc_handler.h" #include "glog/logging.h" #include "google/protobuf/descriptor.h" #include "grpc++/grpc++.h" #include "gtest/gtest.h" namespace cartographer_grpc { namespace framework { namespace { using EchoResponder = std::function; class MathServerContext : public ExecutionContext { public: int additional_increment() { return 10; } std::promise echo_responder; }; class GetSumHandler : public RpcHandler, proto::GetSumResponse> { public: std::string method_name() const override { return "/cartographer_grpc.framework.proto.Math/GetSum"; } void OnRequest(const proto::GetSumRequest& request) override { sum_ += GetContext()->additional_increment(); sum_ += request.input(); } void OnReadsDone() override { auto response = cartographer::common::make_unique(); response->set_output(sum_); Send(std::move(response)); } private: int sum_ = 0; }; class GetRunningSumHandler : public RpcHandler, Stream> { public: std::string method_name() const override { return "/cartographer_grpc.framework.proto.Math/GetRunningSum"; } void OnRequest(const proto::GetSumRequest& request) override { sum_ += request.input(); // Respond twice to demonstrate bidirectional streaming. auto response = cartographer::common::make_unique(); response->set_output(sum_); Send(std::move(response)); response = cartographer::common::make_unique(); response->set_output(sum_); Send(std::move(response)); } void OnReadsDone() override { Finish(::grpc::Status::OK); } private: int sum_ = 0; }; class GetSquareHandler : public RpcHandler { public: std::string method_name() const override { return "/cartographer_grpc.framework.proto.Math/GetSquare"; } void OnRequest(const proto::GetSquareRequest& request) override { auto response = cartographer::common::make_unique(); response->set_output(request.input() * request.input()); Send(std::move(response)); } }; class GetEchoHandler : public RpcHandler { public: std::string method_name() const override { return "/cartographer_grpc.framework.proto.Math/GetEcho"; } void OnRequest(const proto::GetEchoRequest& request) override { int value = request.input(); Writer writer = GetWriter(); GetContext()->echo_responder.set_value( [writer, value]() { auto response = cartographer::common::make_unique(); response->set_output(value); return writer.Write(std::move(response)); }); } }; class GetSequenceHandler : public RpcHandler> { public: std::string method_name() const override { return "/cartographer_grpc.framework.proto.Math/GetSequence"; } void OnRequest(const proto::GetSequenceRequest& request) override { for (int i = 0; i < request.input(); ++i) { auto response = cartographer::common::make_unique(); response->set_output(i); Send(std::move(response)); } Finish(::grpc::Status::OK); } }; // TODO(cschuet): Due to the hard-coded part these tests will become flaky when // run in parallel. It would be nice to find a way to solve that. gRPC also // allows to communicate over UNIX domain sockets. const std::string kServerAddress = "localhost:50051"; const std::size_t kNumThreads = 1; class ServerTest : public ::testing::Test { protected: void SetUp() override { Server::Builder server_builder; server_builder.SetServerAddress(kServerAddress); server_builder.SetNumGrpcThreads(kNumThreads); server_builder.SetNumEventThreads(kNumThreads); server_builder.RegisterHandler(); server_builder.RegisterHandler(); server_builder.RegisterHandler(); server_builder.RegisterHandler(); server_builder.RegisterHandler(); server_ = server_builder.Build(); client_channel_ = grpc::CreateChannel(kServerAddress, grpc::InsecureChannelCredentials()); } std::unique_ptr server_; std::shared_ptr client_channel_; }; TEST_F(ServerTest, StartAndStopServerTest) { server_->Start(); server_->Shutdown(); } TEST_F(ServerTest, ProcessRpcStreamTest) { server_->SetExecutionContext( cartographer::common::make_unique()); server_->Start(); Client client(client_channel_); for (int i = 0; i < 3; ++i) { proto::GetSumRequest request; request.set_input(i); EXPECT_TRUE(client.Write(request)); } EXPECT_TRUE(client.WritesDone()); EXPECT_TRUE(client.Finish().ok()); EXPECT_EQ(client.response().output(), 33); server_->Shutdown(); } TEST_F(ServerTest, ProcessUnaryRpcTest) { server_->Start(); Client client(client_channel_); proto::GetSquareRequest request; request.set_input(11); EXPECT_TRUE(client.Write(request)); EXPECT_EQ(client.response().output(), 121); server_->Shutdown(); } TEST_F(ServerTest, ProcessBidiStreamingRpcTest) { server_->Start(); Client client(client_channel_); for (int i = 0; i < 3; ++i) { proto::GetSumRequest request; request.set_input(i); EXPECT_TRUE(client.Write(request)); } client.WritesDone(); proto::GetSumResponse response; std::list expected_responses = {0, 0, 1, 1, 3, 3}; while (client.Read(&response)) { EXPECT_EQ(expected_responses.front(), response.output()); expected_responses.pop_front(); } EXPECT_TRUE(expected_responses.empty()); EXPECT_TRUE(client.Finish().ok()); server_->Shutdown(); } TEST_F(ServerTest, WriteFromOtherThread) { server_->SetExecutionContext( cartographer::common::make_unique()); server_->Start(); Server* server = server_.get(); std::thread response_thread([server]() { std::future responder_future = server->GetContext()->echo_responder.get_future(); responder_future.wait(); auto responder = responder_future.get(); CHECK(responder()); }); Client client(client_channel_); proto::GetEchoRequest request; request.set_input(13); EXPECT_TRUE(client.Write(request)); response_thread.join(); EXPECT_EQ(client.response().output(), 13); server_->Shutdown(); } TEST_F(ServerTest, ProcessServerStreamingRpcTest) { server_->Start(); Client client(client_channel_); proto::GetSequenceRequest request; request.set_input(12); client.Write(request); proto::GetSequenceResponse response; for (int i = 0; i < 12; ++i) { EXPECT_TRUE(client.Read(&response)); EXPECT_EQ(response.output(), i); } EXPECT_FALSE(client.Read(&response)); EXPECT_TRUE(client.Finish().ok()); server_->Shutdown(); } } // namespace } // namespace framework } // namespace cartographer_grpc