// // // 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. // // #include #include "gmock/gmock.h" #include "gtest/gtest.h" #include #include "src/core/ext/transport/chttp2/transport/internal.h" #include "src/core/lib/gprpp/time.h" #include "test/core/end2end/end2end_tests.h" #include "test/core/end2end/tests/cancel_test_helpers.h" namespace grpc_core { namespace { const Duration kCancelTimeout = Duration::Seconds(20); const Duration kDeadlineTimeout = Duration::Seconds(2); } // namespace void CancelAfterInvoke6(CoreEnd2endTest& test, std::unique_ptr mode, Duration timeout) { test.InitClient(ChannelArgs()); // This is a workaround for the flakiness that if the server ever enters // GracefulShutdown for whatever reason while the client has already been // shutdown, the test would not timeout and fail. test.InitServer(ChannelArgs().Set(GRPC_ARG_PING_TIMEOUT_MS, 5000)); auto c = test.NewClientCall("/service/method").Timeout(timeout).Create(); CoreEnd2endTest::IncomingStatusOnClient server_status; CoreEnd2endTest::IncomingMetadata server_initial_metadata; CoreEnd2endTest::IncomingMessage server_message; c.NewBatch(1) .RecvStatusOnClient(server_status) .RecvInitialMetadata(server_initial_metadata) .SendInitialMetadata({}) .SendMessage(RandomSlice(1024)) .SendCloseFromClient() .RecvMessage(server_message); mode->Apply(c); test.Expect(1, true); test.Step(); EXPECT_THAT(server_status.status(), ::testing::AnyOf(mode->ExpectedStatus(), GRPC_STATUS_INTERNAL)); } void CancelAfterInvoke5(CoreEnd2endTest& test, std::unique_ptr mode, Duration timeout) { test.InitClient(ChannelArgs()); // This is a workaround for the flakiness that if the server ever enters // GracefulShutdown for whatever reason while the client has already been // shutdown, the test would not timeout and fail. test.InitServer(ChannelArgs().Set(GRPC_ARG_PING_TIMEOUT_MS, 5000)); auto c = test.NewClientCall("/service/method").Timeout(timeout).Create(); CoreEnd2endTest::IncomingStatusOnClient server_status; CoreEnd2endTest::IncomingMetadata server_initial_metadata; c.NewBatch(1) .RecvStatusOnClient(server_status) .RecvInitialMetadata(server_initial_metadata) .SendInitialMetadata({}) .SendMessage(RandomSlice(1024)) .SendCloseFromClient(); mode->Apply(c); test.Expect(1, true); test.Step(); EXPECT_THAT(server_status.status(), ::testing::AnyOf(mode->ExpectedStatus(), GRPC_STATUS_INTERNAL)); } void CancelAfterInvoke4(CoreEnd2endTest& test, std::unique_ptr mode, Duration timeout) { test.InitClient(ChannelArgs()); // This is a workaround for the flakiness that if the server ever enters // GracefulShutdown for whatever reason while the client has already been // shutdown, the test would not timeout and fail. test.InitServer(ChannelArgs().Set(GRPC_ARG_PING_TIMEOUT_MS, 5000)); auto c = test.NewClientCall("/service/method").Timeout(timeout).Create(); CoreEnd2endTest::IncomingStatusOnClient server_status; CoreEnd2endTest::IncomingMetadata server_initial_metadata; c.NewBatch(1) .RecvStatusOnClient(server_status) .RecvInitialMetadata(server_initial_metadata) .SendInitialMetadata({}) .SendMessage(RandomSlice(1024)); mode->Apply(c); test.Expect(1, true); test.Step(); EXPECT_THAT(server_status.status(), ::testing::AnyOf(mode->ExpectedStatus(), GRPC_STATUS_INTERNAL)); } void CancelAfterInvoke3(CoreEnd2endTest& test, std::unique_ptr mode, Duration timeout) { test.InitClient(ChannelArgs()); // This is a workaround for the flakiness that if the server ever enters // GracefulShutdown for whatever reason while the client has already been // shutdown, the test would not timeout and fail. test.InitServer(ChannelArgs().Set(GRPC_ARG_PING_TIMEOUT_MS, 5000)); auto c = test.NewClientCall("/service/method").Timeout(timeout).Create(); CoreEnd2endTest::IncomingStatusOnClient server_status; CoreEnd2endTest::IncomingMetadata server_initial_metadata; c.NewBatch(1) .RecvStatusOnClient(server_status) .RecvInitialMetadata(server_initial_metadata) .SendInitialMetadata({}); mode->Apply(c); test.Expect(1, true); test.Step(); EXPECT_THAT(server_status.status(), ::testing::AnyOf(mode->ExpectedStatus(), GRPC_STATUS_INTERNAL)); } CORE_END2END_TEST(CoreEnd2endTest, CancelAfterInvoke6) { CancelAfterInvoke6(*this, std::make_unique(), kCancelTimeout); } CORE_END2END_TEST(CoreEnd2endTest, CancelAfterInvoke5) { CancelAfterInvoke5(*this, std::make_unique(), kCancelTimeout); } CORE_END2END_TEST(CoreEnd2endTest, CancelAfterInvoke4) { CancelAfterInvoke4(*this, std::make_unique(), kCancelTimeout); } CORE_END2END_TEST(CoreEnd2endTest, CancelAfterInvoke3) { CancelAfterInvoke3(*this, std::make_unique(), kCancelTimeout); } CORE_END2END_TEST(CoreDeadlineTest, DeadlineAfterInvoke6) { CancelAfterInvoke6(*this, std::make_unique(), kDeadlineTimeout); } CORE_END2END_TEST(CoreDeadlineTest, DeadlineAfterInvoke5) { CancelAfterInvoke5(*this, std::make_unique(), kDeadlineTimeout); } CORE_END2END_TEST(CoreDeadlineTest, DeadlineAfterInvoke4) { CancelAfterInvoke4(*this, std::make_unique(), kDeadlineTimeout); } CORE_END2END_TEST(CoreDeadlineTest, DeadlineAfterInvoke3) { CancelAfterInvoke3(*this, std::make_unique(), kDeadlineTimeout); } } // namespace grpc_core