// // // Copyright 2016 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 GRPC_TEST_CPP_END2END_TEST_SERVICE_IMPL_H #define GRPC_TEST_CPP_END2END_TEST_SERVICE_IMPL_H #include #include #include #include #include #include #include #include #include #include #include #include "src/core/lib/gprpp/crash.h" #include "src/proto/grpc/testing/echo.grpc.pb.h" #include "test/core/util/test_config.h" #include "test/cpp/util/string_ref_helper.h" namespace grpc { namespace testing { const int kServerDefaultResponseStreamsToSend = 3; const char* const kServerResponseStreamsToSend = "server_responses_to_send"; const char* const kServerTryCancelRequest = "server_try_cancel"; const char* const kClientTryCancelRequest = "client_try_cancel"; const char* const kDebugInfoTrailerKey = "debug-info-bin"; const char* const kServerFinishAfterNReads = "server_finish_after_n_reads"; const char* const kServerUseCoalescingApi = "server_use_coalescing_api"; const char* const kCheckClientInitialMetadataKey = "custom_client_metadata"; const char* const kCheckClientInitialMetadataVal = "Value for client metadata"; typedef enum { DO_NOT_CANCEL = 0, CANCEL_BEFORE_PROCESSING, CANCEL_DURING_PROCESSING, CANCEL_AFTER_PROCESSING } ServerTryCancelRequestPhase; namespace internal { // When echo_deadline is requested, deadline seen in the ServerContext is set in // the response in seconds. void MaybeEchoDeadline(ServerContextBase* context, const EchoRequest* request, EchoResponse* response); void CheckServerAuthContext(const ServerContextBase* context, const std::string& expected_transport_security_type, const std::string& expected_client_identity); // Returns the number of pairs in metadata that exactly match the given // key-value pair. Returns -1 if the pair wasn't found. int MetadataMatchCount( const std::multimap& metadata, const std::string& key, const std::string& value); int GetIntValueFromMetadataHelper( const char* key, const std::multimap& metadata, int default_value); int GetIntValueFromMetadata( const char* key, const std::multimap& metadata, int default_value); void ServerTryCancel(ServerContext* context); } // namespace internal class TestServiceSignaller { public: void ClientWaitUntilRpcStarted() { std::unique_lock lock(mu_); cv_rpc_started_.wait(lock, [this] { return rpc_started_; }); } void ServerWaitToContinue() { std::unique_lock lock(mu_); cv_server_continue_.wait(lock, [this] { return server_should_continue_; }); } void SignalClientThatRpcStarted() { std::unique_lock lock(mu_); rpc_started_ = true; cv_rpc_started_.notify_one(); } void SignalServerToContinue() { std::unique_lock lock(mu_); server_should_continue_ = true; cv_server_continue_.notify_one(); } private: std::mutex mu_; std::condition_variable cv_rpc_started_; bool rpc_started_ /* GUARDED_BY(mu_) */ = false; std::condition_variable cv_server_continue_; bool server_should_continue_ /* GUARDED_BY(mu_) */ = false; }; template class TestMultipleServiceImpl : public RpcService { public: TestMultipleServiceImpl() : signal_client_(false), host_() {} explicit TestMultipleServiceImpl(const std::string& host) : signal_client_(false), host_(new std::string(host)) {} Status Echo(ServerContext* context, const EchoRequest* request, EchoResponse* response) { if (request->has_param() && request->param().server_notify_client_when_started()) { signaller_.SignalClientThatRpcStarted(); signaller_.ServerWaitToContinue(); } // A bit of sleep to make sure that short deadline tests fail if (request->has_param() && request->param().server_sleep_us() > 0) { gpr_sleep_until(gpr_time_add( gpr_now(GPR_CLOCK_MONOTONIC), gpr_time_from_micros( request->param().server_sleep_us() * grpc_test_slowdown_factor(), GPR_TIMESPAN))); } if (request->has_param() && request->param().server_die()) { gpr_log(GPR_ERROR, "The request should not reach application handler."); GPR_ASSERT(0); } if (request->has_param() && request->param().has_expected_error()) { const auto& error = request->param().expected_error(); return Status(static_cast(error.code()), error.error_message(), error.binary_error_details()); } int server_try_cancel = internal::GetIntValueFromMetadata( kServerTryCancelRequest, context->client_metadata(), DO_NOT_CANCEL); if (server_try_cancel > DO_NOT_CANCEL) { // Since this is a unary RPC, by the time this server handler is called, // the 'request' message is already read from the client. So the scenarios // in server_try_cancel don't make much sense. Just cancel the RPC as long // as server_try_cancel is not DO_NOT_CANCEL internal::ServerTryCancel(context); return Status::CANCELLED; } response->set_message(request->message()); internal::MaybeEchoDeadline(context, request, response); if (host_) { response->mutable_param()->set_host(*host_); } else if (request->has_param() && request->param().echo_host_from_authority_header()) { auto authority = context->ExperimentalGetAuthority(); std::string authority_str(authority.data(), authority.size()); response->mutable_param()->set_host(std::move(authority_str)); } if (request->has_param() && request->param().client_cancel_after_us()) { { std::unique_lock lock(mu_); signal_client_ = true; ++rpcs_waiting_for_client_cancel_; } while (!context->IsCancelled()) { gpr_sleep_until(gpr_time_add( gpr_now(GPR_CLOCK_REALTIME), gpr_time_from_micros(request->param().client_cancel_after_us() * grpc_test_slowdown_factor(), GPR_TIMESPAN))); } { std::unique_lock lock(mu_); --rpcs_waiting_for_client_cancel_; } return Status::CANCELLED; } else if (request->has_param() && request->param().server_cancel_after_us()) { gpr_sleep_until(gpr_time_add( gpr_now(GPR_CLOCK_REALTIME), gpr_time_from_micros(request->param().server_cancel_after_us() * grpc_test_slowdown_factor(), GPR_TIMESPAN))); return Status::CANCELLED; } else if (!request->has_param() || !request->param().skip_cancelled_check()) { EXPECT_FALSE(context->IsCancelled()); } if (request->has_param() && request->param().echo_metadata_initially()) { const std::multimap& client_metadata = context->client_metadata(); for (const auto& metadatum : client_metadata) { context->AddInitialMetadata(ToString(metadatum.first), ToString(metadatum.second)); } } if (request->has_param() && request->param().echo_metadata()) { const std::multimap& client_metadata = context->client_metadata(); for (const auto& metadatum : client_metadata) { context->AddTrailingMetadata(ToString(metadatum.first), ToString(metadatum.second)); } // Terminate rpc with error and debug info in trailer. if (request->param().debug_info().stack_entries_size() || !request->param().debug_info().detail().empty()) { std::string serialized_debug_info = request->param().debug_info().SerializeAsString(); context->AddTrailingMetadata(kDebugInfoTrailerKey, serialized_debug_info); return Status::CANCELLED; } } if (request->has_param() && (request->param().expected_client_identity().length() > 0 || request->param().check_auth_context())) { internal::CheckServerAuthContext( context, request->param().expected_transport_security_type(), request->param().expected_client_identity()); } if (request->has_param() && request->param().response_message_length() > 0) { response->set_message( std::string(request->param().response_message_length(), '\0')); } if (request->has_param() && request->param().echo_peer()) { response->mutable_param()->set_peer(context->peer()); } return Status::OK; } Status Echo1(ServerContext* context, const EchoRequest* request, EchoResponse* response) { return Echo(context, request, response); } Status Echo2(ServerContext* context, const EchoRequest* request, EchoResponse* response) { return Echo(context, request, response); } Status CheckClientInitialMetadata(ServerContext* context, const SimpleRequest* /*request*/, SimpleResponse* /*response*/) { EXPECT_EQ(internal::MetadataMatchCount(context->client_metadata(), kCheckClientInitialMetadataKey, kCheckClientInitialMetadataVal), 1); EXPECT_EQ(1u, context->client_metadata().count(kCheckClientInitialMetadataKey)); return Status::OK; } // Unimplemented is left unimplemented to test the returned error. Status RequestStream(ServerContext* context, ServerReader* reader, EchoResponse* response) { // If 'server_try_cancel' is set in the metadata, the RPC is cancelled by // the server by calling ServerContext::TryCancel() depending on the value: // CANCEL_BEFORE_PROCESSING: The RPC is cancelled before the server reads // any message from the client // CANCEL_DURING_PROCESSING: The RPC is cancelled while the server is // reading messages from the client // CANCEL_AFTER_PROCESSING: The RPC is cancelled after the server reads // all the messages from the client int server_try_cancel = internal::GetIntValueFromMetadata( kServerTryCancelRequest, context->client_metadata(), DO_NOT_CANCEL); EchoRequest request; response->set_message(""); if (server_try_cancel == CANCEL_BEFORE_PROCESSING) { internal::ServerTryCancel(context); return Status::CANCELLED; } std::thread* server_try_cancel_thd = nullptr; if (server_try_cancel == CANCEL_DURING_PROCESSING) { server_try_cancel_thd = new std::thread([context] { internal::ServerTryCancel(context); }); } int num_msgs_read = 0; while (reader->Read(&request)) { response->mutable_message()->append(request.message()); } gpr_log(GPR_INFO, "Read: %d messages", num_msgs_read); if (server_try_cancel_thd != nullptr) { server_try_cancel_thd->join(); delete server_try_cancel_thd; return Status::CANCELLED; } if (server_try_cancel == CANCEL_AFTER_PROCESSING) { internal::ServerTryCancel(context); return Status::CANCELLED; } return Status::OK; } // Return 'kNumResponseStreamMsgs' messages. // TODO(yangg) make it generic by adding a parameter into EchoRequest Status ResponseStream(ServerContext* context, const EchoRequest* request, ServerWriter* writer) { // If server_try_cancel is set in the metadata, the RPC is cancelled by the // server by calling ServerContext::TryCancel() depending on the value: // CANCEL_BEFORE_PROCESSING: The RPC is cancelled before the server writes // any messages to the client // CANCEL_DURING_PROCESSING: The RPC is cancelled while the server is // writing messages to the client // CANCEL_AFTER_PROCESSING: The RPC is cancelled after the server writes // all the messages to the client int server_try_cancel = internal::GetIntValueFromMetadata( kServerTryCancelRequest, context->client_metadata(), DO_NOT_CANCEL); int server_coalescing_api = internal::GetIntValueFromMetadata( kServerUseCoalescingApi, context->client_metadata(), 0); int server_responses_to_send = internal::GetIntValueFromMetadata( kServerResponseStreamsToSend, context->client_metadata(), kServerDefaultResponseStreamsToSend); if (server_try_cancel == CANCEL_BEFORE_PROCESSING) { internal::ServerTryCancel(context); return Status::CANCELLED; } EchoResponse response; std::thread* server_try_cancel_thd = nullptr; if (server_try_cancel == CANCEL_DURING_PROCESSING) { server_try_cancel_thd = new std::thread([context] { internal::ServerTryCancel(context); }); } for (int i = 0; i < server_responses_to_send; i++) { response.set_message(request->message() + std::to_string(i)); if (i == server_responses_to_send - 1 && server_coalescing_api != 0) { writer->WriteLast(response, WriteOptions()); } else { writer->Write(response); } } if (server_try_cancel_thd != nullptr) { server_try_cancel_thd->join(); delete server_try_cancel_thd; return Status::CANCELLED; } if (server_try_cancel == CANCEL_AFTER_PROCESSING) { internal::ServerTryCancel(context); return Status::CANCELLED; } return Status::OK; } Status BidiStream(ServerContext* context, ServerReaderWriter* stream) { // If server_try_cancel is set in the metadata, the RPC is cancelled by the // server by calling ServerContext::TryCancel() depending on the value: // CANCEL_BEFORE_PROCESSING: The RPC is cancelled before the server reads/ // writes any messages from/to the client // CANCEL_DURING_PROCESSING: The RPC is cancelled while the server is // reading/writing messages from/to the client // CANCEL_AFTER_PROCESSING: The RPC is cancelled after the server // reads/writes all messages from/to the client int server_try_cancel = internal::GetIntValueFromMetadata( kServerTryCancelRequest, context->client_metadata(), DO_NOT_CANCEL); int client_try_cancel = static_cast(internal::GetIntValueFromMetadata( kClientTryCancelRequest, context->client_metadata(), 0)); EchoRequest request; EchoResponse response; if (server_try_cancel == CANCEL_BEFORE_PROCESSING) { internal::ServerTryCancel(context); return Status::CANCELLED; } std::thread* server_try_cancel_thd = nullptr; if (server_try_cancel == CANCEL_DURING_PROCESSING) { server_try_cancel_thd = new std::thread([context] { internal::ServerTryCancel(context); }); } // kServerFinishAfterNReads suggests after how many reads, the server should // write the last message and send status (coalesced using WriteLast) int server_write_last = internal::GetIntValueFromMetadata( kServerFinishAfterNReads, context->client_metadata(), 0); int read_counts = 0; while (stream->Read(&request)) { read_counts++; gpr_log(GPR_INFO, "recv msg %s", request.message().c_str()); response.set_message(request.message()); if (read_counts == server_write_last) { stream->WriteLast(response, WriteOptions()); break; } else { stream->Write(response); } } if (client_try_cancel) { EXPECT_TRUE(context->IsCancelled()); } if (server_try_cancel_thd != nullptr) { server_try_cancel_thd->join(); delete server_try_cancel_thd; return Status::CANCELLED; } if (server_try_cancel == CANCEL_AFTER_PROCESSING) { internal::ServerTryCancel(context); return Status::CANCELLED; } return Status::OK; } // Unimplemented is left unimplemented to test the returned error. bool signal_client() { std::unique_lock lock(mu_); return signal_client_; } void ClientWaitUntilRpcStarted() { signaller_.ClientWaitUntilRpcStarted(); } void SignalServerToContinue() { signaller_.SignalServerToContinue(); } uint64_t RpcsWaitingForClientCancel() { std::unique_lock lock(mu_); return rpcs_waiting_for_client_cancel_; } private: bool signal_client_; std::mutex mu_; TestServiceSignaller signaller_; std::unique_ptr host_; uint64_t rpcs_waiting_for_client_cancel_ = 0; }; class CallbackTestServiceImpl : public grpc::testing::EchoTestService::CallbackService { public: CallbackTestServiceImpl() : signal_client_(false), host_() {} explicit CallbackTestServiceImpl(const std::string& host) : signal_client_(false), host_(new std::string(host)) {} ServerUnaryReactor* Echo(CallbackServerContext* context, const EchoRequest* request, EchoResponse* response) override; ServerUnaryReactor* CheckClientInitialMetadata(CallbackServerContext* context, const SimpleRequest*, SimpleResponse*) override; ServerReadReactor* RequestStream( CallbackServerContext* context, EchoResponse* response) override; ServerWriteReactor* ResponseStream( CallbackServerContext* context, const EchoRequest* request) override; ServerBidiReactor* BidiStream( CallbackServerContext* context) override; // Unimplemented is left unimplemented to test the returned error. bool signal_client() { std::unique_lock lock(mu_); return signal_client_; } void ClientWaitUntilRpcStarted() { signaller_.ClientWaitUntilRpcStarted(); } void SignalServerToContinue() { signaller_.SignalServerToContinue(); } private: bool signal_client_; std::mutex mu_; TestServiceSignaller signaller_; std::unique_ptr host_; }; using TestServiceImpl = TestMultipleServiceImpl; } // namespace testing } // namespace grpc #endif // GRPC_TEST_CPP_END2END_TEST_SERVICE_IMPL_H